First Aid for the USMLE Step 2 CK, 10e (October 15, 2018)_(126044029X)_(McGraw-Hill).pdf - PDFCOFFEE.COM (2024)

A STUDENT-TOSTUDENT GUIDE The most up-to-date, high-yield review available for the USMLE• Step 2 CK

C.odse summaries of more than 1,000 commonly tested topics Embedded case vig11ettes reinforce key concepts

"Rapid Re\iew" section for last-minute cramming Hundleds of color clinical images and illustrations

TAO LE • VIKAS BHUSHAN • MANIVER DEOL • GABRIEL REYES

USMLE Step 2 CK Tenth Edition TAO LE, MD, MHS Associate Clinical Professor Chief, Section of Allergy and Immunology Department of Medicine University of Louisville School of Medicine

VIKAS BHUSHAN, MD Boracay

MANIVER DEOL, MD Senior Editor and Manager of Faculty Affairs USMLE-Rx

GABRIEL REYES, MD, PhD Resident, Department of Anesthesiology Preoperative and Pain Medicine Stanford University School of Medicine

New York  Chicago  San Francisco  Athens  London  Madrid  Mexico City Milan  New Delhi  Singapore  Sydney  Toronto

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Copyright © 2019, 2016, 2012, 2010, 2007, by Tao Le. All rights reserved. Except as permitted under the United States Copyright Act of 1976, no part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written permission of the publisher. ISBN: 978-1-26-044030-0 MHID: 1-26-044030-3 The material in this eBook also appears in the print version of this title: ISBN: 978-1-26-044029-4, MHID: 1-26-044029-X. eBook conversion by codeMantra Version 1.0 All trademarks are trademarks of their respective owners. Rather than put a trademark symbol after every occurrence of a trademarked name, we use names in an editorial fashion only, and to the benefit of the trademark owner, with no intention of infringement of the trademark. Where such designations appear in this book, they have been printed with initial caps. McGraw-Hill Education eBooks are available at special quantity discounts to use as premiums and sales promotions or for use in corporate training programs. To contact a representative, please visit the Contact Us page at www.mhprofessional.com. NOTICE Medicine is an ever-changing science. As new research and clinical experience broaden our knowledge, changes in treatment and drug therapy are required. The authors and the publisher of this work have checked with sources believed to be reliable in their efforts to provide information that is complete and generally in accord with the standards accepted at the time of publication. However, in view of the possibility of human error or changes in medical sciences, neither the authors nor the publisher nor any other party who has been involved in the preparation or publication of this work warrants that the information contained herein is in every respect accurate or complete, and they disclaim all responsibility for any errors or omissions or for the results obtained from use of the information contained in this work. Readers are encouraged to confirm the information contained herein with other sources. For example and in particular, readers are advised to check the product information sheet included in the package of each drug they plan to administer to be certain that the information contained in this work is accurate and that changes have not been made in the recommended dose or in the contraindications for administration. This recommendation is of particular importance in connection with new or infrequently used drugs. TERMS OF USE This is a copyrighted work and McGraw-Hill Education and its licensors reserve all rights in and to the work. Use of this work is subject to these terms. Except as permitted under the Copyright Act of 1976 and the right to store and retrieve one copy of the work, you may not decompile, disassemble, reverse engineer, reproduce, modify, create derivative works based upon, transmit, distribute, disseminate, sell, publish or sublicense the work or any part of it without McGraw-Hill Education’s prior consent. You may use the work for your own noncommercial and personal use; any other use of the work is strictly prohibited. Your right to use the work may be terminated if you fail to comply with these terms. THE WORK IS PROVIDED “AS IS.” McGRAW-HILL EDUCATION AND ITS LICENSORS MAKE NO GUARANTEES OR WARRANTIES AS TO THE ACCURACY, ADEQUACY OR COMPLETENESS OF OR RESULTS TO BE OBTAINED FROM USING THE WORK, INCLUDING ANY INFORMATION THAT CAN BE ACCESSED THROUGH THE WORK VIA HYPERLINK OR OTHERWISE, AND EXPRESSLY DISCLAIM ANY WARRANTY, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. McGraw-Hill Education and its licensors do not warrant or guarantee that the functions contained in the work will meet your requirements or that its operation will be uninterrupted or error free. Neither McGraw-Hill Education nor its licensors shall be liable to you or anyone else for any inaccuracy, error or omission, regardless of cause, in the work or for any damages resulting therefrom. McGraw-Hill Education has no responsibility for the content of any information accessed through the work. Under no circumstances shall McGraw-Hill Education and/ or its licensors be liable for any indirect, incidental, special, punitive, consequential or similar damages that result from the use of or inability to use the work, even if any of them has been advised of the possibility of such damages. This limitation of liability shall apply to any claim or cause whatsoever whether such claim or cause arises in contract, tort or otherwise.

DEDICATION

To Tai Le, who brought us immeasurable love and joy.

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Contents Contributing Authors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vii Faculty Reviewers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . viii Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ix Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xi How to Contribute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xiii How to Use This Book . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xv SECTION 1: GUIDE TO EFFICIENT EXAM PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 USMLE Step 2 CK—Computer-Based Testing Basics . . 2 Defining Your Goal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Study Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Test-Day Checklist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Testing Agencies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 SECTION 2: DATABASE OF HIGH-YIELD FACTS . . . . 15

How to Use the Database . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Cardiovascular . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Dermatology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 Endocrinology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Epidemiology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 Ethics and Legal Issues . . . . . . . . . . . . . . . . . . . . . . . . . . . . 135 Gastrointestinal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 143 Hematology/Oncology . . . . . . . . . . . . . . . . . . . . . . . . . . . 179 Infectious Disease . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 211 Musculoskeletal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 253 Neurology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275

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Obstetrics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Gynecology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pediatrics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Psychiatry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pulmonary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Renal/Genitourinary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Surgery and Emergency Medicine . . . . . . . . . . . . . . . . Rapid Review . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

315 353 391 445 477 503 533 563

SECTION 3: TOP-RATED REVIEW RESOURCES . . 589

How to Use the Database . . . . . . . . . . . . . . . . . . . . . . . . . Disclaimer/Conflict-of-Interest Statement . . . . . . . . . Comprehensive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Question Banks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Internal Medicine, Emergency Medicine, Family Medicine . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Neurology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . OB/GYN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pediatrics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Psychiatry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Surgery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Commercial Review Courses . . . . . . . . . . . . . . . . . . . . . . Appendix I: Acronyms and Abbreviations . . . . . . . . . Appendix II: Common Laboratory Values . . . . . . . . . . Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . About the Authors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

590 591 592 592 593 593 594 594 595 595 596 597 605 607 639

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CONTRIBUTING AUTHORS Anup K. Bhattacharya, MD

Matthew Mui, MD

Transitional Year Intern Scripps Mercy Hospital San Diego

Resident, Department of Emergency Medicine University of Florida, Jacksonville

Jeff M. Cross, MD Oakland University William Beaumont School of Medicine Class of 2018

Linna Guan

Jun Yen Ng, MBBS Princess Alexandra Hospital

Christopher Payette, MD

Case Western Reserve University School of Medicine Class of 2019

Resident, Department of Emergency Medicine The George Washington University

W. Preston Hewgley, MD

Tegveer Singh Sandhu, MD

Resident, Department of Surgery University of Texas Southwestern Medical Center

Blake Hollowoa, MD Resident, Department of Otolaryngology-Head & Neck Surgery University of Arkansas for Medical Sciences

Aamir Hussain The University of Chicago Pritzker School of Medicine Harris School of Public Policy Class of 2019

Deepika Manoharan, MD, MSc University of Edinburgh, College of Medicine

Divya Manoharan, MD, MSc

Resident, Department of Internal Medicine BronxCare Health System

Cody Stothers Vanderbilt University School of Medicine Medical Scientist Training Program Class of 2021

Visakha Suresh Duke University School of Medicine Class of 2019

Gefei Alex Zhu, MD Resident, Department of Dermatology Stanford University

University of Edinburgh, College of Medicine

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FACULTY REVIEWERS Amitha Aravapally, MD, MMM

Ankur Kalra, MD

Program Director, Department of Internal Medicine Henry Ford Macomb Hospital

Clinical Assistant Professor of Medicine Division of Cardiovascular Medicine, Department of Medicine Case Western Reserve University School of Medicine Structural Heart Interventional Cardiologist University Hospitals Cleveland Medical Center

S. Ausim Azizi, MD, PhD Professor of Neurology and Psychiatry Mathew T. Moore Chair of Neurology Department of Neurology Lewis Katz School of Medicine, Temple University

Elizabeth E. Bailey, MD, MPH

Jeannine Rahimian, MD, MBA Associate Professor, Department of Obstetrics and Gynecology David Geffen School of Medicine at UCLA

Clinical Assistant Professor, Department of Dermatology Associate Program Director, Stanford Dermatology Residency Program Stanford University School of Medicine

Janet Roscoe, MDCM

Jeffrey Band, MD

Sherryn N. L. Roth, MD

Physician Beaumont Hospital, Farmington Hills

Abdullah Chahin, MD Assistant Professor, Department of Medicine The Warren Alpert Medical School of Brown University Associate Program Director, Internal Medicine Residency Program Memorial Hospital of Rhode Island

Sarah K. Dotters-Katz, MD Assistant Professor, Department of Obstetrics and Gynecology Assistant Director, Undergraduate Medical Education Division of Maternal Fetal Medicine Duke University Medical Center

Andrea T. Flynn, MD Attending Physician, Division of Oncology Children’s Hospital of Philadelphia

Germán E. Giese, MD Physician, Department of Internal Medicine Memorial Healthcare System

Visa S. Haran, MD Adjunct Professor Medical Careers Institute, College of Health Science ECPI University

Skyler Kalady, MD Assistant Professor, Department of Pediatrics Cleveland Clinic Case Western Reserve University School of Medicine

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Associate Professor The University of Toronto Faculty of Medicine Nephrologist, The Scarborough and Rouge Hospital

Assistant Professor The University of Toronto Faculty of Medicine Cardiologist, The Scarborough and Rouge Valley Hospital

Robert A. Sasso, MD Professor, Obstetrics and Gynecology Director, Department of Medical Simulation Central Michigan University College of Medicine and CMU Health

John P. Sharpe, MD Assistant Professor, Department of General Surgery Division of Trauma and Surgical Critical Care University of Tennessee Health Science Center

Morgan I. Soffler, MD Instructor Harvard Medical School and Beth Israel Deaconess Medical Center

Mary Steinmann, MD Assistant Professor, Department of Psychiatry University of Utah School of Medicine

Amrita Sukhi, MD Lecturer The University of Toronto Faculty of Medicine Physician, Trillium Health Partners

Adam Weinstein, MD Associate Professor, Pediatric Nephrology and Medical Education Geisel School of Medicine at Dartmouth

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Preface With the tenth edition of First Aid for the USMLE Step 2 CK, we continue our commitment to providing students with the most useful and up-to-date preparation guide for the USMLE Step 2 CK exam. The tenth edition represents a thorough revision in many ways and includes: ■ ■ ■ ■

■ ■ ■ ■

Best initial steps in diagnosis and management. Vignette-style flash cards embedded in the margins to reinforce key concepts. Hundreds of color images and illustrations throughout the text designed for better learning. A revised and updated exam preparation guide for the USMLE Step 2 CK that includes updated study and testtaking strategies. Revisions and new material based on student experience with recent administrations of the USMLE Step 2 CK. Concise summaries of more than 1,000 heavily tested clinical topics written for fast, high-yield studying. An updated “rapid review” section that tests your knowledge of each topic for last-minute cramming. A completely revised, in-depth, student-to-student guide to clinical science review and sample examination resources.

The tenth edition would not have been possible without the help of the many students and faculty members who contributed their feedback and suggestions. We invite students and faculty to continue sharing their thoughts and ideas to help us improve First Aid for the USMLE Step 2 CK. (See How to Contribute, p. xiii.) Tao Le Louisville Vikas Bhushan Boracay Maniver Deol New York Gabriel Reyes San Francisco

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xi

Acknowledgments This has been a collaborative project from the start. We gratefully acknowledge the thoughtful comments, corrections, and advice of the many medical students, international medical graduates, and faculty who have supported the authors in the continuing development of First Aid for the USMLE Step 2 CK. For support and encouragement throughout the process, we are grateful to Thao Pham and Jinky Flang. Thanks to our publisher, McGraw-Hill Education, for the valuable assistance of its staff, including Bob Boehringer, Christina Thomas, and Jeffrey Herzich. For outstanding editorial work, we thank Isabel Nogueira, Emma Underdown, and Catherine Johnson. We are also grateful to our medical illustrator, Hans Neuhart, and illustration manager, Susan Mazik. For administrative support we thank Louise Petersen and Jonathan Kirsch. A special thanks to Graphic World and Megan Chandler for remarkable production work. For contributions and corrections, we thank Naief Abu Daff, Mohamad Adada, Malak Albattah, Sinan Albear, Amal Algahmi, Moatasem Al-Janabi, Chadi Allam, Gabriela Alvarez, David Anderson, Rami Arabi, Emma Bacharach, Katrina Bang, Esther Bell, Kristin Bevington, Inna Bulaevsky, Molly Cain, Stephania Cavallaro, Khalil Chahine, Anup Chalise, William Chang, Vincent Chen, Melissa Chua, Angela Chung, Spencer Church, Sara Clemens, Luis Compres, Jason Crowther, Marcin Czarniecki, Melad Dababneh, Sophia Dang, Nicole Desai, Hanah Detalla, Michael Dever, Steven Dragosljvich, Matthew Drogowski, Morgan Drucker, Sam Duddempudi, Madeleine Durand, Aslan Efendizade, Tracy El Khoury, Roberta Enes, Matthew Gao, Susan Garcia, Angela Gauthier, Joel Gieswein, Luis Fernando Gonzalez-Ciccarelli, Rachna Goswami, Indrit Greca, Morgan Gruner, Carlos Guerrero Rodríguez, Kerbi Alejandro Guevara Noriega, Camille Guzel, John Halloran, Aeman Hana, Hassan Hashm, Kamran Hassan, Joseph Heinemann, Kate Hentschel, Katrina Herbst, Daniela Hinojosa, Joyce Ho, Sylvester Homsy, Mehrzad Hosseini, Arshia Hussaini, Jay Jarodiya, Noman Javed, Molly Kaplan, David Karcnik, Aaron R. Kaufman, Maryam Khan, Yousaf Khan, Ann Kim, David Kohn, Kalyani Kumar, Matthew Lavallee, Luke Laws, Andrew Lin, Robin Lo, Alexander Mach, Anushka Magal, Amanda Maisel, Arslan Tariq Malik, Athanasios Mamarelis, Daniel Marchuk, Dylan Marshall, Otakhon Matchanov, Zachary McRae, Goran Micevic, John Mixer, Rachel Moss, Safa Moursy, Jully Munoz, Lindsay Nadkarni, Shanthi Narla, Ololade Ogunsuyi, Taofeek Olajire-Aro, Carlos Ordenana, Vasily Ovechko, Matt Parker, Brian Pham, Daria Popescu, Meryim Poursheykhi, Charleston Powell, Ryan Raffel, Jason Raina, Chumsab Rattanaruangrit, Jonathan Reeder, Kyle Richardson, Elane Rivera, Jorge Roman, Giulio Francesco Romiti, Kacie Rounds, Michellene Saegh, Apameh Salari, Jennifer Saluk, Hampton Sasser, Zachary Schoepflin, John Scholz, Charlotte Seasly, Sneha Selvaraj, Haikoo Shah, Ritu Shah, Zan Shareef, Soomin Shin, Jagoda Siembida, Jaspreet Singh, Jordan Smith, Morgan Smith, Jordan Stav, Jing Sun, Muhammad Waqas Tahir, Nitin Tandan, Vaishnavi Vaidyanathan, Luis Vargas, Lukas Voboril, Habiba Wada, Stephen Woo, Isabella Wu, Wm. Kendall Wyatt, Erwin Xia, Anastasiya Yakovenko, Tiffany Yu, Maya Zorkot, and Andy Zureick. Tao Le Louisville Vikas Bhushan Boracay Maniver Deol New York Gabriel Reyes San Francisco

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xiii

How to Contribute In our effort to continue to produce a high-yield review source for the Step 2 CK exam, we invite you to submit any suggestions or corrections. We also offer paid internships in medical education and publishing ranging from three months to one year (see below for details). Please send us your suggestions for the following: ■ ■ ■

Study and test-taking strategies for the Step 2 CK exam New high-yield facts, mnemonics, diagrams, and illustrations Low-yield topics to remove

For each entry incorporated into the next edition, you will receive up to a $20 gift certificate to Amazon as well as personal acknowledgment in the next edition. Diagrams, tables, partial entries, updates, corrections, and study hints are also appreciated, and significant contributions will be compensated at the discretion of the authors. Also let us know about material in this edition that you feel is low yield and should be deleted. The preferred way to submit entries, suggestions, or corrections is via our blog: www.firstaidteam.com We are also reachable by e-mail at [emailprotected].

NOTE TO CONTRIBUTORS All entries become property of the authors and are subject to editing and reviewing. Please verify all data and spellings carefully. If similar or duplicate entries are received, only the first entry received will be used. Include a reference to a standard textbook to facilitate verification of the fact. Please follow the style, punctuation, and format of this edition if possible.

INTERNSHIP OPPORTUNITIES The author team is pleased to offer part-time and full-time paid internships in medical education and publishing to motivated physicians. Internships may range from three months (eg, a summer) up to a full year. Participants will have an opportunity to author, edit, and earn academic credit on a wide variety of projects, including the popular First Aid series. Writing/editing experience, familiarity with Microsoft Word and Google Docs, and illustration skills are highly desired. For more information, e-mail a résumé or a short description of your experience along with a cover letter to [emailprotected].

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How to Use This Book We have made many improvements and added several new features to this edition of First Aid for the USMLE Step 2 CK. In particular, we have added more tables, charts, and images throughout the text to facilitate studying. We encourage you to read all aspects of the text to learn the material in context. We have also included comments in the margins and additional vignette questions to periodically test your knowledge of key concepts. These questions are located in the lower corner of certain pages. To prevent peeking at the answers, you’ll find the answer on the back of the same page in the lower corner. These questions are not always representative of test questions. To practice for the exam and simulate the actual test day, you can use the USMLE-Rx Step 2 CK Qmax question test bank (www.usmle-rx.com), which was developed by the First Aid author team. If you are constantly on the move, use the USMLE-Rx Step 2 CK app for smartphones. The question bank and this text are more than enough to allow many students to ace the exam. Good luck!

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SECTION 1

GUIDE TO EFFICIENT EXAM PREPARATION Introduction 2 USMLE Step 2 CK—Computer-Based Testing Basics

2

How Will the CBT Be Structured?

2

Testing Conditions: What Will the CBT Be Like?

3

What Does the CBT Format Mean for Me? How Do I Register to Take the Examination?

Defining Your Goal When to Take the Exam

Study Resources

7 10

11

Quality Considerations

11

3

Clinical Review Books

11

4

Test Banks

11

What If I Need to Reschedule the Examination?

5

Texts and Notes

12

What About Time?

5

Commercial Courses

12

NBME/USMLE Publications

12

Security Measures

6

If I Leave During the Examination, What Happens to My Score?

6

What Types of Questions Are Asked?

6

How Long Will I Have to Wait Before I Get My Scores?

7

How Are the Scores Reported?

7

Test-Day Checklist Things to Bring With You to the Exam

Testing Agencies

12 12

13

1

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2

SECTION 1

GUIDE TO EFFICIENT EXAM PREPARATION

Introduction The United States Medical Licensing Examination (USMLE) Step 2 allows you to pull together your clinical experience on the wards with the numerous “factoids” and classical disease presentations that you have memorized over the years. Whereas Step 1 stresses basic disease mechanisms and principles, Step 2 places more emphasis on clinical diagnosis and management, disease pathogenesis, and preventive medicine. The Step 2 examination consists of the following 2 parts: The Step 2 Clinical Knowledge examination (Step 2 CK). The Step 2 Clinical Skills examination (Step 2 CS).

■ ■

The USMLE Step 2 CK is the second of three examinations that you must pass to become a licensed physician in the United States. The computerized Step 2 CK is a 1-day (9-hour) multiple-choice examination. KEY FACT The goal of the Step 2 CK is to apply your knowledge of medical facts to clinical scenarios that you may encounter as a resident.

Students are also required to take the Step 2 CS, a 1-day live examination in which students examine 12 standardized patients. For more information on this examination, please refer to First Aid for the USMLE Step 2 CS. Information about the Step 2 CS format and eligibility, registration, and scoring can be found at http://www.nbme.org. The information found in this section as well as in the remainder of the book will address only the Step 2 CK.

USMLE Step 2 CK—Computer-Based Testing Basics HOW WILL THE CBT BE STRUCTURED?

The Step 2 CK exam is a computer-based test (CBT) administered by Prometric, Inc. It is a 1-day examination with 318 items divided into eight 1-hour blocks that are administered during a single 9-hour testing session. The number of items in a block are displayed at the beginning of each block. This number may vary from block to block, but will not exceed 40 items. Two question styles predominate throughout. The most common format is the single one-best-answer question. This is the traditional multiple-choice format in which you are tasked with selecting the “most correct” answer. Sequential item sets is the second question style. These are sets of multiple-choice questions that are related and must all be answered in sequence without skipping a question in the set. As you answer questions in a set, the previous answers become locked and cannot be changed. These are the only questions on the USMLE examination that are locked in such a way. There are no more than five sequential item sets within each USMLE Step2 CK exam. During the time allotted for each block in the USMLE Step 2 CK exam, you can answer test questions in any order and can also review responses and change your answers (except for responses within the sequential item sets described earlier). However, under no circumstances can you return to previous blocks and change your answers. Once you have finished a block, you

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GUIDE TO EFFICIENT EXAM PREPARATION

must click on a screen icon to continue to the next block. Time not used during a testing block will be added to your overall break time, but it cannot be used to complete other testing blocks. TESTING CONDITIONS: WHAT WILL THE CBT BE LIKE?

3

SECTION 1

KEY FACT Expect to spend up to 9 hours at the test center.

Even if you are familiar with CBT and the Prometric test centers, you should still access the latest practice software from the USMLE Web site (http:// www.usmle.org) and try out prior to the examination. If you familiarize yourself with the USMLE testing interface ahead of time, you can skip the 15-minute tutorial offered on examination day and add those minutes to your allotted break time of 45 minutes. For security reasons, you are not allowed to bring personal equipment (except those needed for medical reasons and soft-foam earplugs as detailed later) into the testing area—which means that writing implements, outerwear, watches (even analog), cellular telephones, and electronic paging devices are all prohibited. Food and beverages are prohibited as well. The proctor will assign you a small locker to store your belongings and any food you bring for the day. You will also be given two (8″ × 11″) laminated writing surfaces, pens, and erasers for note taking and for recording your test Candidate Identification Number (CIN). You must return these materials after the examination. Testing centers are monitored by audio and video surveillance equipment. Each time you enter the testing room, you will have to undergo a screening process to ensure that you are not bringing in personal items. You should become familiar with a typical question screen. A window to the left displays all the questions in the block and shows you the unanswered questions (marked with an “i”). Some questions will contain figures, color illustrations, audio, or video adjacent to the question. Although the contrast and brightness of the screen can be adjusted, there are no other ways to manipulate the picture (eg, zooming or panning). Larger images are accessed with an “exhibit” button. You can also call up a window displaying normal lab values. You may mark questions to review at a later time by clicking the check mark at the top of the screen. The annotation feature functions like the provided dry-erase sheets and allows you to jot down notes during the examination. Play with the highlighting/strike-out and annotation features with the vignettes and multiple answers. You should also do a few practice blocks to determine which tools will help you process questions more efficiently and accurately. If you find that you are not using the marking, annotation, or highlighting tools, then keyboard shortcuts can be quicker than using a mouse. Headphones are provided for listening to audio and blocking outside noise. Alternatively, you can bring soft earplugs to block excess noise. These earplugs must be examined by Prometric staff before you can take them into the testing area.

KEY FACT Keyboard shortcuts: ■ A–E—Letter choices. ■ Enter or space bar—Move to the next question. ■ Esc—Exit pop-up Lab and Exhibit windows. ■ Alt-T—Countdown and timeelapsed clocks for current session and overall test.

WHAT DOES THE CBT FORMAT MEAN FOR ME?

The CBT format is the same format as that used on the USMLE Step 1. If you are uncomfortable with this testing format, spend some time playing with a Windows-based system and pointing and clicking icons or buttons with a mouse.

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4

SECTION 1

GUIDE TO EFFICIENT EXAM PREPARATION

The USMLE also offers students an opportunity to take a simulated test, or practice session, at a Prometric center. The session is divided into three 1-hour blocks of up to 50 questions each. The 143 Step 2 CK sample test items that are available on the USMLE Web site (http://www.usmle.org) are the same as those used at CBT practice sessions. No new items are presented. The cost is about $75 for US and Canadian students but is higher for international students. Students receive a printed percent-correct score after completing the session. No explanations of questions are provided. You may register for a practice session online at http://www.usmle.org. The National Board of Medical Examiners (NBME) provides another option for students to assess their Step 2 CK knowledge with the Comprehensive Clinical Science Self-Assessment (CCSSA) test. This test is available on the NBME Web site for $60, which will display at the end of the exam all of the questions that you answered incorrectly, without additional explanations. The content of the CCSSA items resembles that of the USMLE Step 2 CK. After you complete the CCSSA, you will be given a performance profile indicating your strengths and weaknesses. This feedback is intended for use as a study tool only and is not necessarily an indicator of Step 2 CK performance. For more information on the CCSSA examination, visit the NBME’s Web site at http://www.nbme.org, and click on the link for “Students and Residents.” HOW DO I REGISTER TO TAKE THE EXAMINATION?

Information on the Step 2 CK exam’s format, content, and registration requirements are found on the USMLE Web site. To register for the examination, students/graduates of accredited schools in the United States and Canada can apply online at the NBME Web site (http://www.nbme.org), whereas students/graduates of non-US/Canadian schools should apply through the Educational Commission for Foreign Medical Graduates (ECFMG) (https://iwa2.ecfmg.org). A printable version of the application is also available on these sites. The preliminary registration process for the USMLE Step 2 CK exam is as follows: Complete a registration form, and send your examination fees to the NBME (online). ■ Select a 3-month block in which you wish to be tested (eg, June/July/ August). ■ Attach a passport-type photo to your completed application form. ■ Complete a Certification of Identification and Authorization form. This form must be signed by an official at your medical school such as from the registrar’s office (if you are a student) or a notary public (if you have graduated) to verify your identity. It is valid for 5 years, allowing you to use only your USMLE identification number for future transactions. ■ Send your certified application form to the NBME for processing. (Applications may be submitted more than 6 months before the test date, but examinees will not receive their scheduling permits until 6 months prior to the eligibility period.) ■ The NBME will process your application within 4–6 weeks and will send you a slip of paper that will serve as your scheduling permit. ■ Once you have received your scheduling permit, decide when and where you would like to take the examination. For a list of Prometric locations nearest you, visit https://www.prometric.com. ■ Call Prometric’s toll-free number, or visit https://www.prometric.com to arrange a time to take the examination. ■

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The Step 2 CK is offered on a year-round basis except for the first 2 weeks in January. For the most up-to-date information on available testing days at your preferred testing location, refer to http://www.usmle.org.

The scheduling permit you receive from the NBME will contain the following important information: Your USMLE identification number. The eligibility period during which you may take the examination. ■ Your “scheduling number,” which you will need to make your examination appointment with Prometric. ■ Your CIN, which you must enter at your Prometric workstation in order to access the examination. ■ ■

Prometric has no access to the codes and will not be able to supply these numbers, so do not lose your permit! You will not be allowed to take the Step 2 CK unless you present your permit along with an unexpired, governmentissued photo identification that contains your signature (eg, driver’s license, passport). Make sure the name on your photo ID exactly matches the name that appears on your scheduling permit.

KEY FACT Because the Step 2 CK examination is scheduled on a “first-come, firstserved” basis, you should be sure to call Prometric as soon as you receive your scheduling permit.

WHAT IF I NEED TO RESCHEDULE THE EXAMINATION?

You can change your date and/or center within your 3-month period by contacting Prometric if space is available. If you reschedule 31 days before your scheduled testing date, there is no fee; between 6 and 30 days before, there is a $50 fee; 5 or fewer days before, there is a larger fee (based on your testing region). If you need to reschedule outside your initial 3-month period, you can apply for a single 3-month extension (eg, April/May/June can be extended through July/August/September) after your eligibility period has begun (visit http://www.nbme.org for more information). This extension currently costs $70. For other rescheduling needs, you must submit a new application along with another application fee. WHAT ABOUT TIME?

Time is of special interest on the CBT examination. The following is a breakdown of the examination schedule: Tutorial

15 minutes

1-hour question blocks (44 questions per block)   8 hours Break time (includes time for lunch)

45 minutes

Total test time   9 hours

The computer will keep track of how much time has elapsed during the examination. However, the computer will show you only how much time you have remaining in a block. Therefore, it is up to you to determine if you are pacing yourself properly. The computer will not warn you if you are spending more than the 45 minutes allotted for break time. The break time includes not only the usual concept of a break—when you leave the testing area—but also the time it takes for you to make the transition to the next block, such as entering your CIN or

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even taking a quick stretch. If you do exceed the 45-minute break time, the time to complete the last block of the test will be reduced. However, you can elect not to use all of your break time, or you can gain extra break time either by skipping the tutorial or by finishing a block ahead of the allotted time. SECURITY MEASURES

Smile! The NBME uses a check-in/check-out process that includes electronic capture of your fingerprints and photograph. These measures are intended to increase security by preventing fraud, thereby safeguarding the integrity of the examination. These procedures also decrease the amount of time needed to check in and out of the examination throughout the day, thereby maximizing your break time. However, you still need to sign out and sign in with the Test Center Log when exiting and entering the testing area. IF I LEAVE DURING THE EXAMINATION, WHAT HAPPENS TO MY SCORE?

You are considered to have started the examination once you have entered your CIN onto the computer screen, but to receive an official score, you must finish the entire examination. This means that you must start and either finish or run out of time for each block of the examination. If you do not complete all of the question blocks, your examination will be documented on your USMLE score transcript as an incomplete attempt, but no actual score will be reported. The examination ends when all blocks have been completed or time has expired. As you leave the testing center, you will receive a written test completion notice to document your completion of the examination. WHAT TYPES OF QUESTIONS ARE ASKED?

The Step 2 CK is an integrated examination that tests understanding of normal conditions, disease categories, and physician tasks. Almost all questions on the examination are case based. Some questions will involve interpreting a study or drug advertisement. A substantial amount of extraneous information may be given, or a clinical scenario may be followed by a question that could be answered without actually requiring that you read the case. It is your job to determine which information is superfluous and which is pertinent to the case at hand. Content areas include internal medicine, OB/GYN, pediatrics, preventive services, psychiatry, surgery, and other areas relevant to the provision of care under supervision. Physician tasks are distributed as follows: ■ ■ ■ ■

Establishing a diagnosis (25–40%). Understanding the mechanisms of disease (20–35%). Applying principles of management (15–25%). Promoting preventive medicine and health maintenance (15–25%).

Most questions on the examination have a single best-answer format. The part of the vignette that actually asks the question—the stem—is usually found at the end of the scenario and generally relates to the physician task. From student experience, there are a few stems that are consistently addressed throughout the examination: What is the most likely diagnosis? (40%) Which of the following is the most appropriate initial step in management? (20%)

■ ■

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Which of the following is the most appropriate next step in management? (20%) ■ Which of the following is the most likely cause of…? (5%) ■ Which of the following is the most likely pathogen…? (3%) ■ Which of the following would most likely prevent…? (2%) ■ Other (10%) ■

Additional examination tips are as follows: Note the age and race of the patient in each clinical scenario. When ethnicity is given, it is often relevant. Know these well (see high-yield facts), especially for more common diagnoses. ■ Be able to recognize key facts that distinguish major diagnoses. ■ Questions often describe clinical findings rather than naming eponyms (eg, they cite “audible hip click” instead of “positive Ortolani sign”). ■ Questions about acute patient management (eg, trauma) in an emergency setting are common. ■

The cruel reality of the Step 2 CK examination is that no matter how much you study, there will still be questions you will not be able to answer with confidence. If you recognize that a question cannot be solved in a reasonable amount of time, make an educated guess and move on; you will not be penalized for guessing. Also bear in mind that some of the USMLE questions are “experimental” and will not count toward your score. HOW LONG WILL I HAVE TO WAIT BEFORE I GET MY SCORES?

The USMLE reports scores 3–4 weeks after the examinee’s test date. During peak periods, however, as many as 6 weeks may pass before reports are scored. Official information concerning the time required for score reporting is posted on the USMLE Web site, http://www.usmle.org. HOW ARE THE SCORES REPORTED?

Like the Step 1 score report, your Step 2 CK report includes your pass/fail status, a numeric score, and a performance profile organized by discipline and disease process (see Figures 1-1A and 1-1B). The score is a 3-digit scaled score based on a predefined proficiency standard. The current required passing score is 209. This score requires answering 60–70% of questions correctly. Any adjustments in the required passing score will be available on the USMLE Web site.

Defining Your Goal The first and most important thing to do in your Step 2 CK preparation is define how well you want to do on the exam, as this will ultimately determine the extent of preparation that will be necessary. Step 2CK scores are becoming increasingly used for residency selection. The amount of time spent in preparation for this examination varies widely among medical students. Possible goals include the following: Simply passing. This goal meets the requirements for becoming a licensed physician in the United States. However, if you are taking the Step 2 CK in a time frame in which residency programs will see your score, you should strive to do as well as or better than you did on Step 1.

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UNITED STATES MEDICAL LICENSING EXAMINATION ® STEP 2 CLINICAL KNOWLEDGE (CK) SCORE REPORT This score report is provided for the use of the examinee. Third party users of USMLE information are advised to rely solely on official USMLE transcripts.

Schmoe, Joe USMLE ID:

1-234-567-8

Test Date:

July 2018

The USMLE is a single examination program consisting of three Steps designed to assess an examinee's understanding of and ability to apply concepts and principles that are important in health and disease and that constitute the basis of safe and effective patient care. Step 2 is designed to assess whether an examinee can apply medical knowledge, skills, and understanding of clinical science essential for the provision of patient care under supervision, including emphasis on health promotion and disease prevention. The inclusion of Step 2 in the USMLE sequence is intended to ensure that due attention is devoted to principles of clinical sciences and basic patient-centered skills that provide the foundation for the safe and competent practice of medicine. There are two components to Step 2: a Clinical Knowledge (CK) examination and a Clinical Skills (CS) examination. This report represents results for the Step 2 CK examination only. Results of the examination are reported to medical licensing authorities in the United States and its territories for use in granting an initial license to practice medicine. This score§ represents your result for the administration of Step 2 CK on the test date shown above.

PASS

This result is based on the minimum passing score recommended by USMLE for Step 2 CK. Individual licensing authorities may accept the USMLE-recommended pass/fail result or may establish a different passing score for their own jurisdictions.

240

This score is determined by your overall performance on Step 2 CK. For recent administrations, the mean and standard deviation for first-time examinees from U.S. and Canadian medical schools are approximately 238 and 19, respectively, with most scores falling between 140 and 260. A score of 209 is set by USMLE to pass Step 2 CK. The standard error of measurement (SEM) ‡ for this scale is six points.

§

Effective April 1, 2013, test results are reported on a three-digit scale only. Test results reported as passing represent an exam score of 75 or higher on a two-digit scoring scale. ‡

Your score is influenced both by your general understanding of clinical science and the specific set of items selected for this Step 2 CK examination. The Standard Error of Measurement (SEM) provides an index of the variation in scores that would be expected to occur if an examinee were tested repeatedly using different sets of items covering similar content.

FIGURE 1-1A. 

Sample score report—front page.

Beating the mean. This signifies an ability to integrate your clinical and factual knowledge to an extent that is superior to that of your peers (around 240 for recent examination administrations). Others redefine this goal as achieving a score 1 standard deviation above the mean (usually in the range of 245–250). Highly competitive residency programs may use your Step 1 and Step 2 scores (if available) as a screening tool or as a selection requirement (see Figure 1-2). International medical graduates should aim to beat the mean, as USMLE scores are likely to be a selection factor even for less competitive US residency programs. ■ Acing the exam. Perhaps you are one of those individuals for whom nothing less than the best will do—and for whom excelling on standardized examinations is a source of pride and satisfaction. A high score on the Step 2 CK might also represent a way to strengthen your application and “make up” for a less-than-satisfactory score on Step 1. ■

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9

INFORMATION PROVIDED FOR EXAMINEE USE ONLY The Performance Profile below is provided solely for the benefit of the examinee. These profiles are developed as self-assessment tools for examinees only and will not be reported or verified to any third party.

USMLE STEP 2 CK PERFORMANCE PROFILE Lower Performance

Borderline Performance

Higher Performance

PHYSICIAN TASK PROFILE Preventive Medicine & Health Maintenance Understanding Mechanisms of Disease

xxxxxxxxxxxxxxxxx xxxxxxxxxxxxx

Diagnosis

xxxxxxxxxxx

Principles of Management

xxxxxxxxxxxxx

NORMAL CONDITIONS & DISEASE CATEGORY PROFILE Normal Growth & Development; Principles of Care Immunologic Disorders Diseases of Blood & Blood Forming Organs Mental Disorders

xxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxx

Diseases of the Nervous System & Special Senses Cardiovascular Disorders Diseases of the Respiratory System Nutritional & Digestive Disorders

xxxxxxxxxxxxxxx xxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxx

Gynecologic Disorders

xxxxxxxxxxxxxxxxx

Renal, Urinary & Male Reproductive Systems

xxxxxxxxxxxxxxxxx

Disorders of Pregnancy, Childbirth & Puerperium

xxxxxxxxxxxxxxxxxxx

Musculoskeletal, Skin & Connective Tissue Diseases Endocrine & Metabolic Disorders

xxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxx

DISCIPLINE PROFILE Medicine

xxxxxxxxx

Obstetrics & Gynecology Pediatrics

xxxxxxxxxxxxxxx xxxxxxxxxxxxx

Psychiatry

xxxxxxxxxxxxxxxxx

Surgery

xxxxxxxxxxxxx

The above Performance Profile is provided to aid in self-assessment. The shaded area defines a borderline level of performance for each content area; borderline performance is comparable to a HIGH FAIL/LOW PASS on the total test. Performance bands indicate areas of relative strength and weakness. Some bands are wider than others. The width of a performance band reflects the precision of measurement: narrower bands indicate greater precision. The band width for a given content area is the same for all examinees. An asterisk indicates that your performance band extends beyond the displayed portion of the scale. Small differences in the location of bands should not be over interpreted. If two bands overlap, performance in the associated areas should be interpreted as similar. Because Step 2 CK is designed to be integrative, many items contribute to more than one content area. As a consequence, caution should be used when interpreting differences in performance across content areas. This profile should not be compared to those from other Step 2 CK administrations. Additional information concerning the topics covered in each content area can be found in the USMLE Step 2 CK Content Description and Sample Test Materials.

FIGURE 1-1B. 

Sample score report—back page.

Evaluating your clinical knowledge. In many ways, this goal should serve as the ultimate rationale for taking the Step 2 CK, as it is technically the reason the examination was initially designed. The case-based nature of the Step 2 CK differs significantly from the more fact-based Step 1 examination in that it more thoroughly assesses your ability to recognize classic clinical presentations, deal with emergent situations, and follow the stepby-step thought processes involved in the treatment of particular diseases. ■ Preparing for internship. Studying for the USMLE Step 2 CK is an excellent way to review and consolidate all of the information you have learned in preparation for internship. ■

Matching statistics, including examination scores related to various specialties, are available at the National Resident Matching Program Web site at https://www.nrmp.org under “Data and Reports.”

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Critical

Very Important

FIGURE 1-2. 

s h activitie Researc

s al grade Preclinic

cores Step 2 s USMLE

rades Elective g

hip in AΩ A Members

nk

cores Step 1 s USMLE

Class ra

des rkship gra Other cle

elective specialty Grades in

Grades in

specialty

clerkship

Important

Academic factors important to residency directors.

WHEN TO TAKE THE EXAM

The second most important thing to do in your examination preparation is to decide when to take the examination. With the CBT, you now have a wide variety of options regarding when to take the Step 2 CK. Here are a few factors to consider: The nature of your objectives, as defined earlier. The specialty to which you are applying. An increasing number of residency programs are viewing the Step 2 CK as an integral part of the residency application process. Several research publications demonstrate the increasing importance placed on this examination by residency directors. Some programs are now requiring the Step 2 CK score in order to rank candidates for a residency position. It is therefore in the best interest of candidates to have this examination done in time for scores to be available for the residency application. Taking the examination in June or July ensures that scores will be available for the Match period that begins in September. Some programs, however, will accept scores after the application process starts. Check with programs in your desired specialty to determine when to take the exam. ■ Prerequisite to graduation. If passing the USMLE Step 2 CK is a prerequisite to graduation at your medical school, you will need to take the examination in the fall or winter at the latest. ■ Proximity to clerkships. Many students feel that the core clerkship material is fresher in their minds early in the fourth year, making a good argument for taking the Step 2 CK earlier in the fall. ■ The nature of your schedule. ■ Considerations for MD/PhD students. The dates of passing the Step1, Step 2, and Step 3 examinations should occur within a 7-year period. ■ ■

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However, the typical pathway for MD/PhD students consists of 2–3 years of preclinical (and sometimes clinical) work in medical school, 3–4 years of graduate work with research, and finally returning to medical school for clinical work. MD/PhD students typically exceed the 7-year limit. Depending on the state in which licensure is sought, such students may need to petition their licensure body for an exception to this rule.

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KEY FACT The Step 2 CK is an opportunity to consolidate your clinical knowledge and prepare for internship.

Study Resources QUALITY CONSIDERATIONS

Although an ever-increasing number of USMLE Step 2 CK review books and software packages are available on the market, the quality of these materials is highly variable (see Section 3). Some common problems include the following: Some review books are too detailed to be reviewed in a reasonable amount of time or cover subtopics that are not emphasized on the examination (eg, a 400-page anesthesiology book). ■ Many sample question books have not been updated to reflect current trends on the Step 2 CK. ■ Many sample question books use poorly written questions, contain factual errors in their explanations, give overly detailed explanations, or offer no explanations at all. ■ Software for boards review is of highly variable quality, may be difficult to install, and may be fraught with bugs. ■

CLINICAL REVIEW BOOKS

Many review books are available, so you must decide which ones to buy by carefully evaluating their relative merits. Toward this goal, you should compare differing opinions from other medical students; read the reviews and ratings in Section 3 of this guide, and examine the various books closely in the bookstore. Do not worry about finding the “perfect” book, as many subjects simply do not have one. There are two types of review books: those that are stand-alone titles and those that are part of a series. Books in a series generally have the same style, and you must decide if that style is helpful for you and optimal for a given subject.

KEY FACT The best review book for you reflects the way you like to learn. If a given review book is not working for you, stop using it no matter how highly rated it may be.

TEST BANKS

A test bank can serve multiple functions, including the following: Provide information about strengths and weaknesses in your fund of knowledge. ■ Add variety to your study schedule. ■ Serve as the main form of study. ■ Improve test-taking skills. ■ Familiarize examinees with the style of the USMLE Step 2 CK examination. ■

Students report that some test banks have questions that are, on average, shorter and less clinically oriented than those on the current Step 2 CK exam. Step 2 CK questions demand fast reading skills and the application of clinical facts in a problem-solving format. Approach sample examinations critically,

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KEY FACT Use test banks to identify concepts and areas of weakness, not just facts that you missed.

GUIDE TO EFFICIENT EXAM PREPARATION

and do not waste time with low-quality questions until you have exhausted better sources. After you have taken a practice test, try to identify concepts and areas of weakness, not just the facts that you missed. Use this experience to motivate your study and to prioritize the areas in which you need the most work. Analyze the pattern of your responses to questions to determine if you have made systematic errors in answering questions. Common mistakes include reading too much into the question, second-guessing your initial impression, and misinterpreting the question. TEXTS AND NOTES

Most textbooks are too detailed for high-yield boards review and should be avoided. When using texts or notes, engage in active learning by making tables, diagrams, new mnemonics, and conceptual associations whenever possible. If you already have your own mnemonics, do not bother trying to memorize someone else’s. Textbooks are useful, however, to supplement incomplete or unclear material. COMMERCIAL COURSES

Commercial preparation courses can be helpful for some students, as they offer an effective way to organize study material. However, multiweek courses are costly and require significant time commitment, leaving limited time for independent study. Also note that some commercial courses are designed for first-time test takers, students who are repeating the examination, or international medical graduates. NBME/USMLE PUBLICATIONS

We strongly encourage students to use the free materials provided by the testing agencies and to study the following NBME publications: USMLE Step 2 Clinical Knowledge (CK): Content Description and General Information. This publication provides you with nuts-and-bolts details about the examination (included on the Web site http://www. usmle.org; free to all examinees). ■ USMLE Step 2 Clinical Knowledge (CK): Sample Test Questions. This is a PDF version of the test questions and test content also found at http:// www.usmle.org. ■ USMLE Web site (http://www.usmle.org). In addition to allowing you to become familiar with the CBT format, the sample items on the USMLE Web site provide the only questions that are available directly from the test makers. Student feedback varies as to the similarity of these questions to those on the actual exam, but they are nonetheless worthwhile to know. ■

Test-Day Checklist THINGS TO BRING WITH YOU TO THE EXAM

Be sure to bring your scheduling permit and a photo ID with signature. (You will not be admitted to the examination if you fail to bring your permit, and Prometric will charge a rescheduling fee.)

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Remember to bring lunch, snacks (for a little “sugar rush” on breaks), and fluids (including a caffeine-containing drink if needed). ■ Bring clothes to layer to accommodate temperature variations at the testing center. ■ Earplugs will be provided at the Prometric center. ■ Remove all jewelry (eg, earrings, necklaces) before entering the testing center. ■ Bring acetaminophen/ibuprofen, in case you develop a headache during the exam. ■ Check the USMLE Web site (http://www.usmle.org/test-accommodations/ PIEs.html) for the personal item exception list to see if a medical device or personal item that you need is allowed into the testing facility without submitting a special request. ■ If you have a medical condition that requires use of an item NOT on the above list, contact the NBME personal item exception (PIE) coordinator at [emailprotected] or (215) 590-9700 for additional information on how to request a personal item exception. ■

Testing Agencies National Board of Medical Examiners (NBME) Department of Licensing Examination Services 3750 Market Street Philadelphia, PA 19104-3102 (215) 590-9700 Fax: (215) 590-9460 http://www.nbme.org/contact/ e-mail: [emailprotected] USMLE Secretariat 3750 Market Street Philadelphia, PA 19104-3190 (215) 590-9700 Fax: (215) 590-9460 http://www.usmle.org e-mail: [emailprotected] Educational Commission for Foreign Medical Graduates (ECFMG) 3624 Market Street Philadelphia, PA 19104-2685 (215) 386-5900 Fax: (215) 386-9196 http://www.ecfmg.org/contact.html e-mail: [emailprotected] Federation of State Medical Boards (FSMB) 400 Fuller Wiser Road, Suite 300 Euless, TX 76039 (817) 868-4041 Fax: (817) 868-4098 http://www.fsmb.org/contact-us e-mail: [emailprotected]

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NOTES

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SECTION 2

DATABASE OF HIGH-YIELD FACTS Cardiovascular

Neurology

Dermatology

Obstetrics

Endocrinology

Gynecology

Epidemiology

Pediatrics

Ethics and Legal Issues

Psychiatry

Gastrointestinal

Pulmonary

Hematology/Oncology

Renal/Genitourinary

Infectious Disease

Selected Topics in Emergency Medicine

Musculoskeletal

Rapid Review

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How to Use the Database The tenth edition of First Aid for the USMLE Step 2 CK contains a revised and expanded database of clinical material that student authors and faculty have identified as high yield for boards review. The facts are organized according to subject matter, whether medical specialty (eg, Cardiovascular, Renal) or high-yield topic (eg, Ethics). Each subject is then divided into smaller subsections of related facts. Individual facts are generally presented in a logical fashion, from basic definitions and epidemiology to History/Physical Exam, Diagnosis, and Treatment. Lists, mnemonics, pull quotes, vignette flash cards, and tables are used when they can help the reader form key associations. In addition, color and black-and-white images are interspersed throughout the text. At the end of Section 2, we also feature a Rapid Review chapter consisting of key facts and classic associations that can be studied a day or two before the exam. The content contained herein is useful primarily for the purpose of reviewing material already learned. The information presented is not ideal for learning complex or highly conceptual material for the first time. The Database of High-Yield Facts is not meant to be comprehensive. Use it to complement your core study material, not as your primary study source. The facts and notes have been condensed and edited to emphasize essential material. Work with the material, add your own notes and mnemonics, and recognize that not all memory techniques work for all students. We update Section 2 biannually to keep current with new trends in boards content as well as to expand our database of high-yield information. However, we must note that inevitably many other high-yield entries and topics are not yet included in our database. We actively encourage medical students and faculty to submit entries and mnemonics so that we may enhance the database for future students. We also solicit recommendations of additional study tools that may be useful in preparing for the exam, such as diagrams, charts, and computer-based tutorials (see How to Contribute, p. xiii). DISCLAIMER

The entries in this section reflect student opinions of what is high yield. Owing to the diverse sources of material, no attempt has been made to trace or reference the origins of entries individually. We have regarded mnemonics as essentially in the public domain. All errors and omissions will gladly be corrected if brought to the attention of the authors, either through the publisher or directly by e-mail.

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CARDIOVASCULAR Electrocardiogram 18 Cardiac Physical Exam

21

Arrhythmias 23 Bradyarrhythmias and Conduction Abnormalities

23

Tachyarrhythmias

24

Congestive Heart Failure

25

Systolic Dysfunction/Heart Failure with Reduced Ejection Fraction 27 Nonsystolic Dysfunction/Heart Failure with

Preserved Ejection Fraction

29

Cardiomyopathy 30 Dilated Cardiomyopathy

30

Hypertrophic Cardiomyopathy

31

Restrictive Cardiomyopathy

32

Coronary Artery Disease

33

Acute Coronary Syndromes

35

Unstable Angina/Non–ST-Segment Elevation Myocardial Infarction

35

ST-Segment Elevation Myocardial Infarction

36

Dyslipidemia 39 Hypertension 41 1° (Essential) Hypertension

41

2° Hypertension

42

Hypertensive Crises

43

Pericardial Disease

45

Pericarditis

45

Cardiac Tamponade

46

Valvular Heart Disease

47

Vascular Diseases

47

Aortic Aneurysm

47

Angina Pectoris

33

Aortic Dissection

49

Prinzmetal (Variant) Angina

34

Deep Venous Thrombosis

50

Carotid Artery Stenosis

34

Peripheral Arterial Disease

51

Lymphedema

52

Syncope 53

17

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HIGH-YIELD FACTS IN

CARDIOVASCULAR

KEY FACT At usual speed (25 = mm/s), each large square = 200 msec, and each small square = 40 msec.

Electrocardiogram Assesses the ECG for rate, rhythm, axis, intervals, ischemia, and chamber enlargement (see Figure 2.1-1). Rate

KEY FACT Heart rate = 300/number of large boxes between two consecutive QRScomplexes.

Normal adult HR is 60–100 bpm. HR < 60 bpm is bradycardia. HR > 100bpm is tachycardia. Common causes of sinus bradycardia are physical fitness, sick sinus syndrome, drugs, vasovagal attacks, acute MI, ↑ intracranial pressure. Common causes of sinus tachycardia are anxiety, anemia, pain, fever, sepsis, CHF, PE, hypovolemia, thyrotoxicosis, CO2 retention, and sympathomimetics. Rhythm

MNEMONIC Axis deviation—

RAD RALPH, the LAD from VILLA hates WOLVES Right Axis Deviation Right ventricular hypertrophy Anterolateral MI Left Posterior Hemiblock (also consider PE) Left Axis Deviation Ventricular tachycardia Inferior myocardial infarction Left ventricular hypertrophy Left Anterior hemiblock WOLVES – Wolf-Parkinson-White syndrome can cause BOTH

Sinus rhythm: Normal rhythm that originates from sinus node. It is characterized by a P wave (upright in II, III, and aVF; inverted in aVR) preceding every QRS complex and a QRS complex following every P wave. Sinus arrhythmia is common in young adults. Axis

Can be determined by examining the QRS in leads I, II, and aVF (see Table2.1-1 and Figure 2.1-2).

FIGURE 2.1-1.  from USMLE-Rx.com.)

TA B L E 2.1 - 1. 

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Normal electrocardiogram from a healthy subject. (Reproduced with permission

Axis Deviation by ECG Findings

Lead I

Lead II

Lead aVF

Degrees

Normal axis

⊝30–⊕90

Left axis deviation

⊝30–⊝90

Right axis deviation

⊕90–⊕180

Extreme axis

⊝90–⊝180

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CARDIOVASCULAR

19

HIGH-YIELD FACTS IN

Extreme AXIS Deviation

LAD

aVL

‒150o

aVR

‒90o

I

180o

‒30o

III +120o

A

Normal QRS AXIS

RAD

II

aVF o

+90

F I G U R E 2 . 1 - 2 .   ECG axis interpretation. mission from USMLE-Rx.com.)

V1

o

+60o

QRS axis and frontal leads. (Reproduced with per-

F I G U R E 2 . 1 - 3 .   Left bundle branch block. Characteristic ECG findings are

seen in leads V1 (A) and V6 (B). (Modified with permission from USMLE-Rx.com.)

Intervals

PR interval: Normally 120–200 msec (3–5 small boxes). ■ Prolonged = delayed AV conduction (eg, first-degree heart block). ■ Short = fast AV conduction down accessory pathway (eg, WPW syndrome). ■ QRS interval: Normally < 120 msec. A normal Q wave is < 40 msec wide and < 2mm deep. Ventricular conduction defects can cause a widened QRS complex (> 120 msec): ■ Left bundle branch block (LBBB): Deep S wave and no R wave in V1 (“W”-shaped); wide, tall and broad, or notched (“M”-shaped) Rwaves in I, V5, and V6 (see Figure 2.1-3). A new LBBB is pathologic and may be a sign of acute MI. ■ Right bundle branch block (RBBB): RSR′ complex (“rabbit ears;” “M”-shaped); qR or R morphology with a wide R wave in V1; QRS pattern with a wide S wave in I, V5, and V6 (see Figure 2.1-4). ■ QT interval: Normally QTc (the QT interval corrected for extremes in heart rate) is 380–440 msec (QTc = QT/√RR). Long QT syndrome (QTc > 440 msec) is an underdiagnosed congenital disorder that predisposes to ventricular tachyarrhythmias. Other common causes of prolonged QTc: acute MI, bradycardia, myocarditis, ↓K+, ↓Ca2+, ↓Mg2+, congenital syndromes, head injury, drugs. ■ Jervell and Lange-Nielsen syndrome: Long QT syndrome due to a defect in K+ channel conduction. Associated with sensorineural deafness. Treat with β-blockers and pacemaker.

V6

B

MNEMONIC

Left bundle branch block—

WiLLiaM V1 = W QRS pattern V6 = M QRS pattern

Right bundle branch block—

MaRRoW V1 = M QRS pattern V6 = W QRS pattern

V1

A

Ischemia/Infarction

Acute ischemia: Within hours, peaked T-waves and ST-segment changes (either depression or elevation). ■ Within 24 hours, T-wave inversion and ST-segment resolution. ■ Within a few days, pathologic Q waves (> 40 msec or more than onethird of the QRS amplitude). Q waves usually persist, but may resolve in 10% of patients. Because of this, Q waves signify either acute or prior ischemic events. ■

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V6

B F I G U R E 2 . 1 - 4 .   Right bundle branch block. Characteristic ECG find-

ings are seen in leads V1 (A) and V6 (B). (Modified with permission from USMLE-Rx.com.)

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HIGH-YIELD FACTS IN

CARDIOVASCULAR

A

V1

V2

B

V5

V6

F I G U R E 2 . 1 - 5 .   Left ventricular hypertrophy. Shown are leads V1, V2, V5, and V6. → S wave in V1 + R wave in V5 = 45 mm. Note ST changes and T-wave inversion in V5 and V6, suggesting strain. (Reproduced with permission from USMLE-Rx.com.)

Non–Q-wave infarcts (also known as subendocardial infarcts) have ST and T changes without Q waves. ■ In a normal ECG, R waves increase in size compared to the S wave between leads V1 and V5. Poor R-wave progression refers to diminished R waves in these precordial leads, and can be a sign of infarction, although it is not specific. ■

KEY FACT ■ ■

Pulmonale causes Peaked P waves. Mitrale causes M-shaped P waves.

Chamber Enlargement

Atrial enlargement: ■ Right atrial abnormality (P pulmonale): The P-wave amplitude in lead II is > 2.5 mm. ■ Left atrial abnormality (P mitrale): The P-wave width in lead II is >120msec, or terminal ⊝ deflection in V1 is > 1 mm in amplitude and >40msec in duration. Notched P waves can frequently be seen in lead II. ■ Left ventricular hypertrophy (LVH; see Figure 2.1-5): ■ Amplitude of S in V1 + R in V5 or V6 is > 35 mm. ■ Alternative criteria: The amplitude of R in aVL + S in V3 is > 28 mm in men or > 20 mm in women. ■ Usually associated with ST depression and T-wave changes. ■

MNEMONIC Heart auscultation locations—

All Physicians Take Money Aortic Pulmonic Tricuspid Mitral

1 2 3

A

P

4 5

T M

Aortic Pulmonic Tricuspid Mitral

6 7

F I G U R E 2 . 1 - 6 .   Auscultation locations. Auscultation sites are shown with associated valves. A, aortic valve; M,mitral valve; P, pulmonic valve; T, tricuspid valve. (Modified with permission from USMLE-Rx.com.)

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Right ventricular hypertrophy (RVH): ■ Right-axis deviation and an R wave in V1 > 7 mm.

HIGH-YIELD FACTS IN

21

KEY FACT Axis deviation can be a sign of ventricular enlargement.

Cardiac Physical Exam Key exam findings that can narrow the differential include the following: Jugular venous distention (JVD > 4 cm above the sternal angle): Most typically from volume overload, stemming from conditions such as right heart failure or pulmonary hypertension. ■ Hepatojugular reflux (distention of neck veins upon applying pressure to the liver): Seen in same conditions as JVD. ■ Kussmaul sign (↑ in jugular venous pressure [JVP] with inspiration): Often seen in constrictive pericarditis. ■ Systolic murmurs (see Table 2.1-2 and Figures 2.1-6 and 2.1-7): ■ Aortic stenosis: A harsh systolic ejection murmur that radiates to the carotids. ■ Mitral regurgitation: A holosystolic murmur that radiates to the axilla. ■ Mitral valve prolapse: A midsystolic or late systolic murmur with a preceding click. ■ Flow murmur: Usually a soft murmur that is position-dependent (very common and does not imply cardiac disease). ■ Diastolic murmurs (see Table 2.1-2 and Figures 2.1-6 and 2.1-7): Always abnormal. ■ Aortic regurgitation: An early decrescendo murmur. ■ Mitral stenosis: A mid to late low-pitched murmur. ■ Gallops: ■ S3 gallop: A sign of fluid overload (ie, heart failure, mitral valve disease); often normal in younger patients and in high-output states (eg, pregnancy). ■ S4 gallop: A sign of decreased compliance (ie, hypertension, aortic stenosis, diastolic dysfunction); usually pathologic but can be normal in younger patients and in athletes. ■ Edema: ■ Pulmonary: Left heart failure (fluid “backs up” into the lungs). ■ Peripheral: Right heart failure and biventricular failure (fluid “backs up” into the periphery), nephrotic syndrome, hepatic disease, lymphedema, hypoalbuminemia, and drugs. ■ Hands: ■ Finger clubbing: Congenital cyanotic heart disease; endocarditis. ■ Infective endocarditis: Splinter hemorrhages; Osler nodes, Janeway lesions. ■

TA B L E 2.1 - 2. 

Right-sided murmurs increase with inspiration. Left-sided murmurs increase with expiration.

Cardiac Murmurs

Systolic Murmurs

Diastolic Murmurs

Aortic stenosis

Aortic regurgitation

Mitral regurgitation

Mitral stenosis

Mitral valve prolapse Tricuspid regurgitation

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KEY FACT

A college-age man passed out while playing basketball and had no prodromal symptoms or signs of seizure. His cardiac exam is unremarkable, and an ECG shows a slurred upstroke of the QRS. What are the next best steps?

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HIGH-YIELD FACTS IN

CARDIOVASCULAR

Aortic stenosis S1

S2

Mitral/tricuspid regurgitation S1

S2

Mitral valve prolapse S1

MC

S2

Ventricular septal defect S1

S2

Aortic regurgitation S1

S2

Mitral stenosis S1

S2 OS

Patent ductus arteriosus

KEY FACT An atrial myxoma is a benign tumor of the heart, commonly found within the left and right atria on the interatrial septum that can present with atrial fibrillation or mimic infective endocarditis. On auscultation, you will often hear a tumor “Plop” or see a tumor on echocardiography. Patients may develop systemic embolization from breakoff of tumor, leading to stroke. Resection of the tumor is the only treatment.

This is Wolff-Parkinson-White syndrome (WPW). Advise against vigorous physical activity, use procainamide for arrhythmias, and refer for an electrophysiology study. Calcium channel blockers are contraindicated.

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S1

S2

F I G U R E 2 . 1 - 7 .   Heart murmurs. Visual representations of common heart murmurs are shown in relation to S1 and S2. MC, midsystolic click; OS, opening snap. (Reproduced with permission from USMLE-Rx.com.)

Peripheral pulses: ■ Increased: Compensated aortic regurgitation (bounding pulses); coarctation (greater in arms than in legs); patent ductus arteriosus. ■ Decreased: Peripheral arterial disease; late-stage heart failure. ■ Collapsing (“waterhammer”): Aortic incompetence; AV malformations; patent ductus arteriosus; thyrotoxicosis, severe anemia. ■ Pulsus paradoxus (↓ systolic BP > 10 mm Hg with inspiration): Cardiac tamponade; pericardial constriction; also seen in obstructive lung diseases (eg, severe asthma), tension pneumothorax, and foreign body in airway. ■ Pulsus alternans (alternating weak and strong pulses): Cardiomyopathy; impaired left ventricular systolic function (LVF). Poor prognosis. ■ Pulsus parvus et tardus (weak and delayed pulse): Aortic stenosis. ■ Jerky: hypertrophic obstructive cardiomyopathy (HOCM). ■ Pulsus bisferiens (bifid pulse/“twice beating”): Aortic regurgitation; combined aortic stenosis and aortic regurgitation, HOCM.

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MNEMONIC

Arrhythmias

Management options for atrial fibrillation—

BRADYARRHYTHMIAS AND CONDUCTION ABNORMALITIES

Table 2.1-3 outlines the etiologies, clinical presentation, and treatment of common bradyarrhythmias and conduction abnormalities.

TA B L E 2.1 - 3. 

bradycardia

Etiology Normal response to cardio-

AVblock

Signs/Symptoms May be asymptomatic, but

vascular conditioning

may also present with light-

Can also result from sinus

headedness, syncope, chest

node dysfunction,

First-degree

ABCD Anticoagulate 𝛃-blockers to control rate Cardiovert/Calcium channel blockers Digoxin (in refractory cases)

Bradyarrhythmias and Conduction Abnormalities

Type Sinus

23

HIGH-YIELD FACTS IN

ECG Findings Sinus rhythm Ventricular rate < 60 bpm

Treatment None if asymptomatic and rate > 40 bpm; atropine may be used to ↑ heart

pain, or hypotension

rate

β-blocker or CCB excess;

Pacemaker implant is the

therefore, it is important

definitive treatment in

to review medications

severe cases

Can occur in normal indi-

Asymptomatic

PR interval > 200 msec

None necessary

Usually asymptomatic

Progressive PR lengthening

None if asymptomatic

viduals; associated with ↑ vagal tone, β-blocker or CCB use

Second-degree

Drug effects (digoxin,

AVblock

β-blockers, CCBs) or

until a dropped beat

Stop the offending drug

(Mobitz

↑ vagal tone; right

occurs; the PR interval

Atropine as clinically

type I/

coronary ischemia or

then resets

Wenckebach)

infarction

Second-degree

Results from fibrotic

Occasionally syncope; fre-

Unexpected dropped

AV block

disease of the conduc-

quent progression to

beat(s) without a change

(Mobitz

tion system or from

third-degree AV block

in PR interval

typeII)

acute, subacute, or

indicated

Pacemaker placement (even if asymptomatic)

priorMI Third-degree

No electrical communica-

AV block

tion between the atria

heart failure, hypotension,

P waves and QRS

(complete)

and ventricles

cannon A waves

complexes

Sick sinus

Heterogeneous disorder

Syncope, dizziness, acute

2° to tachycardia or

No relationship between

Pacemaker placement

Most common indication for pacemaker

syndrome/

that leads to intermit-

bradycardia; AF and throm-

tachycardia-

tent supraventricular

boembolism may occur

bradycardia

tachyarrhythmias and

→ syncope, palpitations,

Anticoagulate in atrial

syndrome

bradyarrhythmias

dyspnea, chest pain, TIA,

fibrillation/flutter to

and/or stroke

prevent systemic emboli

2019_02.01_Step2CK_Cardio_10e_015-054.indd 23

placement

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HIGH-YIELD FACTS IN

KEY FACT Patients with persistent tachyarrhythmia (narrow- or wide-complex) causing hemodynamic instability should be managed with immediate synchronized cardioversion.

TA B L E 2.1 - 4. 

Type

CARDIOVASCULAR

TACHYARRHYTHMIAS

Tables 2.1-4 and 2.1-5 outline the etiologies, clinical presentation, and treatment of common supraventricular and ventricular tachyarrhythmias.

Supraventricular Tachyarrhythmias

Etiology

Signs/Symptoms

ECG Findings

Treatment

Atrial Sinus tachycardia

Normal physiologic response to fear, pain, and exercise Can also be 2° to hyperthyroidism, volume contraction, infection, or PE

Palpitations, shortness of breath

Sinus rhythm Ventricular rate >100bpm

Treat the underlying cause

Atrial fibrillation (AF)

Acute AF—PIRATES: Pulmonary disease Ischemia Rheumatic heart disease Anemia/Atrial myxoma Thyrotoxicosis Ethanol Sepsis Chronic AF—HTN, CHF Most often caused by ectopic foci within the pulmonary veins

Often asymptomatic and incidental but can present with shortness of breath, chest pain, dizziness, fatigue, or palpitations. May present with congestive heart failure, cardiogenic shock, or devastating cerebrovascular accident Physical exam reveals an irregular pulse

No discernible P waves, with variable and irregular QRS response

For chronic AF, initial therapy:

Atrial flutter

Circular movement of electrical activity around the atrium at a rate of approximately 300 times per minute

Usually asymptomatic but can present with palpitations, syncope, and lightheadedness

Regular rhythm; “sawtooth” appearance of Pwaves can be seen The atrial rate is usually 240–320 bpm, and the ventricular rate is ∼150 bpm

Anticoagulation, rate control, and cardioversion guidelines as in AF above

Multifocal atrial tachycardia

Multiple atrial pacemakers or reentrant pathways; associated with COPD, hypoxemia

May be asymptomatic. At least three different P-wave morphologies

Three or more unique P-wave morphologies; rate > 100 bpm

Treat as AF but avoid β-blockers because of chronic lung disease (if present)

Rate control with β-blockers, CCBs, or digoxin Anticoagulate with warfarin or novel oral anticoagulant (NOAC) for patients with CHA2DS2-VASc score ≥ 2 For unstable AF, or newonset AF (of < 2 days) cardiovert If > 2 days or unclear duration, must get TEE to rule out atrial clot

(continues)

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CARDIOVASCULAR

TA B L E 2.1 - 4. 

25

HIGH-YIELD FACTS IN

Supraventricular Tachyarrhythmias (continued)

Type

Etiology

Signs/Symptoms

ECG Findings

Treatment

Atrioventricular Junction Atrioventricular nodal reentry tachycardia (AVNRT)

A reentry circuit in the AV node depolarizes the atrium and ventricle nearly simultaneously

Palpitations, shortness of breath, angina, syncope, lightheadedness

Rate 150–250 bpm; P wave is often buried in QRS or shortly after

Cardiovert if hemodynamically unstable. Vagal maneuvers (eg, carotid massage, Valsalva, ice immersion (dive reflex). Adenosine if vagal maneuver fails

Atrioventricular reentrant tachycardia (AVRT)

An ectopic connection between the atrium and ventricle that causes a reentry circuit Seen in WPW

Palpitations, shortness of breath, angina, syncope, lightheadedness

A retrograde P wave is often seen after a normal QRS A reexcitation delta wave is characteristically seen in WPW

Except for WPW, same as that for AVNRT WPW listed separately below

WolffParkinsonWhite (WPW) syndrome

Abnormal fast accessory conduction pathway from atria to ventricle (Bundle of Kent)

Palpitations, dyspnea, dizziness, and rarely cardiac death

Characteristic delta wave with widened QRS complex and shortened PR interval (see Figure 2.1-8)

Observation for asymptomatics Acute therapy is procainamide or amiodarone SVT gets worse after CCBs or digoxin (dangerous in WPW). Radiofrequency catheter ablation is curative

Paroxysmal atrial tachycardia

Rapid ectopic pacemaker in the atrium (not sinus node)

Palpitations, shortness of breath, angina, syncope, lightheadedness

Rate > 100 bpm; P wave with an unusual axis before each normal QRS

Adenosine can be used to unmask underlying atrial activity by slowing down the rate

Congestive Heart Failure A clinical syndrome caused by inability of the heart to pump enough blood to maintain fluid and metabolic homeostasis. Risk factors include the following: Coronary heart disease. Hypertension. ■ Cardiomyopathy. ■ Valvular heart disease. ■ Diabetes. ■ COPD (cor pulmonale). ■ ■

The American Heart Association/American College of Cardiology guidelines classify heart failure according to clinical syndromes, but alternative classification systems, including that of the New York Heart Association (NYHA), include functional severity, left-sided vs right-sided failure, and systolic vs nonsystolic failure (see Tables 2.1-6–2.1-8).

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KEY FACT Use the CHA2DS2-VASc scoring system to estimate stroke risk in atrial fibrillation, and anticoagulate with NOAC (eg, dabigatran, rivaroxaban, apixaban, and edoxaban) or warfarin (used with metal valves or mitral stenosis) for a score of 2 or more: ■ CHF (1 point). ■ HTN (1 point). ■ Age ≥ 75 (2 points). ■ Diabetes (1 point). ■ Stroke or TIA history (2 points). ■ Vascular disease (1 point). ■ Age 65–74 (1 point). ■ Sex category (female) (1 point).

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TA B L E 2.1 - 5. 

CARDIOVASCULAR

Ventricular Tachyarrhythmias

Type

Etiology

Signs/Symptoms

ECG Findings

Treatment

Premature ventricular contraction (PVC)

Ectopic beats arise from ventricular foci. Associated with hypoxia, fibrosis, ↓LV function, electrolyte abnormalities, and hyperthyroidism

Usually asymptomatic but may lead to palpitations

Early, wide QRS not preceded by a P wave PVCs are usually followed by a compensatory pause

Treat the underlying cause If symptomatic, give β-blockers or, occasionally, other antiarrhythmics

Ventricular tachycardia (VT)

Can be associated with CAD, MI, and structural heart disease

Nonsustained VT (lasts < 30 seconds) is often asymptomatic; sustained VT (lasts >30seconds) can lead to palpitations, hypotension, angina, and syncope Can progress to VF and death

Three or more consecutive PVCs; wide QRS complexes in a regular rapid rhythm; may see AV dissociation

Cardioversion if unstable. Antiarrhythmics (eg, amiodarone, lidocaine, procainamide) if stable

Ventricular fibrillation (VF)

Associated with CAD and structural heart disease Also associated with cardiac arrest (together with asystole)

Syncope, absence of BP, no pulse

Totally erratic widecomplex tracing

Immediate electrical defibrillation and ACLS protocol

Torsades de pointes

Associated with long QT syndrome, proarrhythmic response to medications, hypokalemia, congenital deafness, and alcoholism

Can present with sudden cardiac death; typically associated with palpitations, dizziness, and syncope

Polymorphous QRS; VT with rates between 150 and 250 bpm

Give magnesium initially and cardiovert if unstable Correct hypokalemia; withdraw offending drugs

TA B L E 2.1 - 6. 

NYHA Functional Classification of CHF

Class

Delta wave

I

Description No limitation of activity; no symptoms (palpitations, dyspnea, and fatigue) with normal activity

PR interval Shortened PR interval Normal PR interval FIGURE 2.1-8. 

Ventricular tachyar-

rhythmias. Characteristic delta wave

with widened QRS complex and shortened PR interval in WPW. (Reproduced with

II

Slight limitation of activity. Comfortable at rest or with mild exertion

III

Marked limitation of activity; comfortable only at rest

IV

Any physical activity brings on discomfort; symptoms (palpitations, dyspnea, and fatigue) present at rest

permission from USMLE-Rx.com.)

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CARDIOVASCULAR

TA B L E 2.1 - 7. 

27

HIGH-YIELD FACTS IN

Comparison of Systolic and Diastolic Dysfunction

Systolic Dysfunction/Heart Failure with Reduced Ejection Fraction (HFrEF)

Variable

Diastolic Dysfunction/Heart Failure with Preserved Ejection Fraction (HFpEF)

Patient age

Often < 65 years of age

Often > 65 years of age

Comorbidities

Dilated cardiomyopathy, valvular heart disease,

Restrictive or hypertrophic cardiomyopathy; renal disease or HTN

myocardial infarction Physical exam

Displaced PMI, S3 gallop (“KEN”-tuc-ky)

Sustained PMI, S4 gallop (“Tenn”-es-SEE)

CXR

Pulmonary congestion, cardiomegaly

Pulmonary congestion

ECG/echocardiography

Q waves, ↓ EF (< 40%), dilation of the heart

LVH, normal/preserved EF (> 55%), abnormal LV diastolic indices

S Y S T O L I C D Y S F U N C T I O N/H E A R T F A I L U R E W I T H R E D U C E D E J E C T I O N F R A C T I O N

A ↓ EF (< 40%) and ↑ left ventricular end-diastolic volumes. It is caused by inadequate left ventricular contractility or ↑ afterload. The heart compensates for ↓ EF and ↑ preload through hypertrophy and ventricular dilation (FrankStarling law), but the compensation ultimately fails, leading to ↑ myocardial work and worsening systolic function. History/PE ■ Exertional dyspnea that progresses to orthopnea, paroxysmal nocturnal dyspnea (PND), and finally dyspnea at rest. ■ Chronic cough, fatigue, and peripheral edema may be reported. ■ Exam: parasternal lift, an elevated and sustained left ventricular impulse, an S3/S4 gallop, JVD, rales on lung exam, and peripheral edema. ■ Look for signs to distinguish left- from right-sided failure (see Table 2.1-8). Diagnosis ■ CHF is a clinical syndrome whose diagnosis is based on signs and symptoms. ■ Diagnostic studies that may support diagnosis include the following: ■ Best initial test: Echocardiogram (transthoracic echocardiogram). ↓EF and ventricular dilation may help pinpoint underlying cause (ie, AF, old MI, or LVH). ■ ECG: May show MI, heart block, arrhythmia.

TA B L E 2.1 - 8. 

KEY FACT The most common cause of right-sided heart failure is left-sided heart failure.

KEY FACT Hyponatremia parallels severity of heart failure and is an independent predictor of mortality in these patients.

MNEMONIC CXR findings in CHF diagnosis—

ABCDE Alveolar edema (“Bat’s wings”) Kerley B lines (interstitial edema) Cardiomegaly Dilated prominent upper lobe vessels Effusion (pleural)

Left-Sided vs Right-Sided Heart Failure

Left-Sided CHF Symptoms

Right-Sided CHF Symptoms

Dyspnea predominates

Fluid retention predominates

Left-sided S3/S4 gallop

Right-sided S3/S4 gallop

Bilateral basilar rales

JVD

Pleural effusions

Hepatojugular reflux

Pulmonary edema

Peripheral edema

Orthopnea, paroxysmal nocturnal dyspnea

Hepatomegaly, ascites

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HIGH-YIELD FACTS IN

CARDIOVASCULAR

F I G U R E 2 . 1 - 9 .   Chest x-ray (CXR) with evidence of congestive heart failure. Frontal CXR demonstrates marked cardiomegaly, cephalization of vessels (arrow), interstitial edema (circle), and left-sided pleural effusion that raise concern for CHF. (Reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011.)

CXR: May show cardiomegaly, cephalization of pulmonary vessels, pleural effusions, vascular congestion, pulmonary edema, and prominent hila (see Figure 2.1-9). ■ Lab abnormalities: Brain natriuretic peptide > 500 pg/mL, ↓ CBC (anemia), ↑ creatinine (sometimes), ↓ sodium in later stages, ↑ or ↓ TSH/T4 levels.

KEY FACT

Atrial tachycardia with AV block occurs 2° to digoxin toxicity.

MNEMONIC

Treatment Acute: ■ Pharmacologic therapy (see Table 2.1-9): ■ Loop diuretics (most commonly) for aggressive diuresis. ■ ACEIs or ARB in combination with loop diuretics. ■ β-blockers should be avoided during decompensated CHF but should be restarted once patient is euvolemic. ■ Correct underlying causes such as arrhythmias, myocardial ischemia, and drugs (eg, CCBs, antiarrhythmics, NSAIDs, alcohol, anemia, thyroid and valvular disease, high-output states).

Acute CHF management—

LMNOP Lasix (furosemide) Morphine Nitrates Oxygen Position (sit upright)

TA B L E 2.1 - 9. 

Types of Diuretics

Class Loop diuretics

Examples Furosemide, ethacrynic acid,

Side Effects Ototoxicity, hypokalemia, hypocalcemia, hyperuricemia, dehydration, gout

bumetanide, torsemide Thiazide diuretics

K+-sparing agents

Carbonic anhydrase

Hydrochlorothiazide, chloro-

Hypokalemic metabolic alkalosis, hyponatremia, and hyperGLUC (hyperGlycemia,

thiazide, chlorthalidone

hyperLipidemia, hyperUricemia, hyperCalcemia)

Spironolactone, eplerenone,

Hyperkalemia, gynecomastia, sexual dysfunction. Eplerenone does not have antian-

triamterene, amiloride

drogenic effects that lead to gynecomastia

Acetazolamide

Hyperchloremic metabolic acidosis, neuropathy, NH3 toxicity, sulfa allergy

Mannitol

Pulmonary edema, dehydration. Contraindicated in anuria and CHF

inhibitors Osmotic agents

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HIGH-YIELD FACTS IN

29

Treat acute pulmonary congestion with LMNOP (see Acute CHF management mnemonic). ■ Acute decompensated heart failure: Inotropic agents (eg, dobutamine) reduce left ventricular end-systolic volume for symptomatic improvement. ■

Chronic: Lifestyle: Control comorbid conditions, and limit dietary sodium and fluid intake. ■ Pharmacologic therapy: ■ β-blockers and ACEIs/ARBs: Help prevent remodeling of the heart and ↓ mortality for NYHA class II–IV patients. Avoid CCBs (can worsen edema). ■ Low-dose spironolactone: Shown to ↓ mortality risk in patients with NYHA class III–IV heart failure. ■ Diuretics (most commonly loop diuretics): Prevent volume overload. ■ Digoxin: Symptomatic control of dyspnea and ↓ frequency of hospitalizations. ■ Daily ASA and a statin are recommended if the underlying cause is a prior MI. ■ Advanced pharmacologic therapy: ■ Sacubitril/valsartan: angiotensin receptor-neprilysin inhibitor (ARNI) is a new drug class used in patients who continue to be dyspneic despite using the initial pharmacologic regimen. Provides mortality benefit for systolic dysfunction. ■ Ivabradine: Reduces heart rate through SA nodal inhibition of the “funny channels.” Indicated in patients with systolic dysfunction if pulse is > 70 bpm or β-blockers are contraindicated. ■

Advanced treatments: Implantable cardiac defibrillator (ICD) in patients with an EF < 35%. Shown to ↓ mortality risk. ■ Biventricular pacemaker in patient with an EF < 35%, dilated cardiomyopathy, and widened QRS complex with persistent symptoms. ■ Left ventricular assist device (LVAD) or cardiac transplantation may be necessary in patients who are unresponsive to maximal medical therapy and biventricular pacemaker failure. ■

NONSYSTOLIC DYSFUNCTION/HEART FAILURE WITH PRESERVED EJECTION FRACTION

Defined by ↓ ventricular compliance with normal systolic function. The ventricle has either impaired active relaxation (2° to hypertension, ischemia, aging, and/or hypertrophy) or impaired passive filling (scarring from prior MI; restrictive cardiomyopathy). Left ventricular end-diastolic pressure ↑, cardiac output remains essentially normal, and EF is normal or ↑. History/PE Associated with stable and unstable angina, shortness of breath, dyspnea on exertion, arrhythmias, MI, heart failure, and sudden death. Treatment ■ Best initial treatment: Diuretics (see Table 2.1-9). ■ Maintain rate and BP control via β -blockers (first-line), ACEIs, ARBs, or CCBs. ■ Digoxin and spironolactone are not beneficial in these patients.

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KEY FACT ACEIs/ARBs, ARNI, β-blockers, spironolactone or eplerenone, hydralazine/nitrates, and implantable defibrillator have mortality benefit in systolic dysfunction. Diuretics and digoxin (as well as other positive inotropic agents) are for symptomatic relief only and confer no mortality benefit. CCBs may ↑ mortality.

KEY FACT Loops lose calcium; thiazides take it in. Both cause hypokalemia and hyperuricemia.

1 A man was admitted for a CHF exacerbation with low EF. The patient is now ready for discharge, and his medications include furosemide and metoprolol. Assuming no contraindications, what medication would be appropriate to add to his treatment regimen?

2 A woman with HTN and prior MI has an exam notable for a displaced PMI, an S3, a nonelevated JVP, and bibasilar rales. What is the next best step in diagnosis?

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Cardiomyopathy Myocardial disease; categorized as dilated, hypertrophic, or restrictive (see Table 2.1-10 and Figure 2.1-10). KEY FACT An S3 gallop signifies rapid ventricular filling in the setting of fluid overload and is associated with dilated cardiomyopathy. A S3 gallop sounds similar to the word “KEN-tuc-ky.”

KEY FACT An S4 gallop signifies a stiff, noncompliant ventricle and ↑ “atrial kick,” and may be associated with hypertrophic cardiomyopathy. A S4 gallop sounds similar to the word “Tenn-es-SEE.”

DILATED CARDIOMYOPATHY

The most common cardiomyopathy. Left ventricular dilation and ↓ EF must be present for diagnosis. Most cases are idiopathic, but known 2° causes include alcohol, postviral myocarditis, postpartum status, drugs (doxorubicin, AZT, cocaine), radiation, endocrinopathies (thyrotoxicosis, acromegaly, pheochromocytoma), infection (coxsackievirus, HIV, Chagas disease, parasites), genetic factors, and nutritional disorders (wet beriberi). The most common causes of 2° dilated cardiomyopathy are ischemia and longstanding hypertension. History/PE ■ Often presents with gradual development of CHF symptoms such as dyspnea on exertion, and diffuse edema of the ankles, feet, legs, and abdomen. ■ Exam often reveals displacement of the left ventricular impulse, JVD, rales, an S3/S4 gallop, or mitral/tricuspid regurgitation. Diagnosis ■ Echocardiography is diagnostic. ■ CXR shows an enlarged, “balloon-like” heart and pulmonary congestion. Treatment ■ Address the underlying etiology (eg, alcohol use, endocrine disorders, infection). ■ Treat CHF as noted in above section with lifestyle changes, and pharmacologic and advanced treatments.

TA B L E 2.1 - 10. 

Differential Diagnosis of Cardiomyopathies

1 Add an angiotensin-converting enzyme inhibitor (ACEI) to this patient’s current regimen. ACEIs have been shown to have a ⊕ mortality benefit when used with β-blockers in NYHA class II–IV heart failure patients.

Type Variable Major abnormality Left ventricular cavity

Dilated

Hypertrophic

Restrictive

Impaired contractility

Impaired relaxation

Impaired elasticity

↑↑

↑↑

↓↓

↓↓

↑ (or normal)

Normal

Usually ↓

↑↑

Usually ↑

size (end diastole)

2 This patient has evidence of dilated cardiomyopathy. An echocardiogram would be the next best diagnostic step.

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Left ventricular cavity size (end systole) EF Wall thickness

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A

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B

F I G U R E 2 . 1 - 1 0 .   Cardiomyopathies. Echocardiogram four-chamber views of (A) a normal heart, (B) dilated cardiomyopathy, and (C) hypertrophic cardiomyopathy. (Reproduced with permission from Fuster V et al. Hurst’s The Heart, 12th ed. New York, NY: McGraw-Hill; 2008.)

C

HYPERTROPHIC CARDIOMYOPATHY

Impaired left ventricular relaxation and filling (diastolic dysfunction) due to thickened ventricular walls secondary to stressors on the myocardium, such as HTN (most common cause) and aortic stenosis. Hypertrophy may also involve the interventricular septum, leading to left ventricular outflow tract obstruction and impaired ejection of blood due to asymmetric septal hypertrophy. The congenital form, hypertrophic obstructive cardiomyo­ pathy (HOCM), is inherited as an autosomal dominant trait in 50% of HOCM patients and is the most common cause of sudden death in young, healthy athletes in the United States.

KEY FACT HOCM is the most common cause of sudden death in young, healthy athletes in the United States.

History/PE ■ Patients are often asymptomatic but may also present with syncope, lightheadedness, dyspnea, palpitations, angina, or sudden cardiac death. ■ Key finding is a harsh systolic ejection crescendo-decrescendo murmur in the lower left sternal edge that ↑ with ↓ preload (eg, Valsalva maneuver, standing) and ↓ with ↑ preload (eg, passive leg raise). ■ Symptoms worsen with exercise, diuretics, dehydration, ACEIs/ARBs, digoxin, and hydralazine.

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Exam also often reveals a sustained apical impulse, an S4 gallop, paradoxical S2, and an abnormal bifid or bisferiens pulse (sudden quick rise followed by a slower longer rise due to LV outflow tract obstruction).

Diagnosis ■ Best initial test: Echocardiography is diagnostic and shows an asymmetrically hypertrophied interventricular septum and dynamic obstruction of blood flow (due to systolic anterior motion of the mitral valve against hypertrophied septum). ■ ECG may be normal or show signs of LVH and nonspecific ST- and T-wave changes. Septal Q waves are common in HOCM (inferior and lateral leads). ■ CXR may reveal left atrial enlargement (LAE) 2° to mitral regurgitation. Treatment ■ Best initial treatment: β-blockers are the best initial therapy for symptomatic relief in both HCM and HOCM; non-dihydropyridine CCBs (negative inotropic effect) and ventricular pacemakers are second-line agents. ■ Digoxin and spironolactone are contraindicated. Diuretics may help in HCM but are contraindicated in HOCM. ■ Implantable defibrillators should be used in symptomatic HOCM patients. ■ Patients should avoid intense athletic competition and training. ■ Surgical options for HOCM with persistent symptoms include partial excision or alcohol ablation of the myocardial septum. ■ Surgical septal myomectomy is reserved for patients when medical and catheter procedures fail. RESTRICTIVE CARDIOMYOPATHY

Decreased elasticity of myocardium leading to impaired diastolic filling without significant systolic dysfunction (a normal or near-normal EF). It is caused by infiltrative disease (eg, amyloidosis, sarcoidosis, hemochromatosis), scleroderma, Loeffler eosinophilic endocarditis, endomyocardial fibrosis, or by scarring and fibrosis (2° to radiation). History/PE Signs and symptoms of right-sided heart failure (JVD, peripheral edema, ascites, hepatomegaly) often predominate over left-sided failure, but dyspnea is the most common complaint. Diagnosis ■ Echocardiography is key for diagnosis, with rapid early filling and a nearnormal or elevated EF. CXR, MRI, and cardiac catheterization are helpful for characterization (eg, sarcoid, amyloidosis). ■ Cardiac biopsy may reveal fibrosis or evidence of infiltration. ■ ECG frequently shows LBBB; low voltages are seen in amyloidosis. Treatment Treat the underlying cause. Therapeutic options are limited and are generally palliative only. Medical treatment includes cautious use of diuretics for fluid overload and vasodilators to ↓ filling pressure.

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Coronary Artery Disease Also known as ischemic heart disease (IHD) or atherosclerotic heart disease. Clinical manifestations include stable and unstable angina, shortness of breath, dyspnea on exertion, arrhythmias, MI, heart failure, and sudden death. Risk factors include the following: Diabetes mellitus (DM). Family history of premature CAD (men age < 55 years, women age 45 years, women age > 55 years). ■ Male gender. ■ CAD risk equivalents include DM, symptomatic carotid artery disease, peripheral arterial disease, and abdominal aortic aneurysm (AAA). ■ ■

KEY FACT Major risk factors for CAD include advanced age, male gender, ↑ LDL, ↓HDL, HTN, a family history, and smoking. MI in menstruating women is rare.

ANGINA PECTORIS

Substernal chest pain 2° to myocardial ischemia (O2 supply-and-demand mismatch). Mostly caused by atheroma. Less frequently caused by anemia, aortic stenosis, tachyarrhythmias, hypertrophic cardiomyopathy, and small vessel disease. History/PE ■ The classic triad consists of substernal chest pain that is usually precipitated by stress or exertion and is relieved by rest or nitrates (stable angina). ■ The duration of stable angina is usually from 2–10 minutes (acute coronary syndrome is normally 10–30 minutes in duration). ■ Pain can radiate to the neck or arm and may be associated with shortness of breath, nausea/vomiting, diaphoresis, dizziness, or lightheadedness. ■ Pain is usually described as dull, squeezing, tightness, or pressure-like. ■ Ischemic pain is not tender, positional, or pleuritic.

KEY FACT Pain that is sharp or stabbing, or that changes with position, breathing, or touch, is less likely to be ischemic.

Diagnosis ■ Best initial test: ECG for any type of chest pain. Usually normal in angina pectoris, but may show ST-depression, flat or inverted T waves, or signs of past MI. ■ Cardiac enzymes (CK-MB/troponin): Normal. May be required to be done in emergency setting after an ECG. ■ Stress testing: ST-segment or wall-motion changes (using echo) with exercise or pharmacologic stress (dobutamine echo or dipyridamole thallium) are diagnostic of CAD. ECG stress test is not helpful without imaging for patients with abnormal baseline ECGs. (Note: Do not perform stress tests on asymptomatic patients with low pretest probability of disease.) Hold β-blockers, CCBs, and nitrates for 48 hours prior to stress test. Pharmacologic stress testing works due to coronary steal (diseased vessels are already maximally dilated while nondiseased vessels dilate in response to drugs, such as dipyridamole, leading to detectable ischemia). ■ Coronary angiography or CT coronary angiogram: Coronary angiography, or a less invasive diagnostic test, CT coronary angiogram (availability

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varies among centers), may be used as a last resort if ECG or stress testing is equivocal. ■ Rule out pulmonary, GI, or other cardiac causes of chest pain. KEY FACT Common causes of chest pain include GERD, angina, esophageal pain, musculoskeletal disorders (costochondritis, trauma), and pneumonia.

Noncardiac Differential Diagnosis ■ GERD: History described as hoarseness, bad taste, and cough; relief of symptoms with proton pump inhibitors confirms diagnosis. ■ Musculoskeletal/costochondritis: Pain is described as tender to palpation and movement. ■ Pneumonia/pleuritis: Pain is described as worsening with breathing (pleuritic) and is often accompanied by fever and productive cough. ■ Anxiety: Patients may have history of panic disorder or anxiety attacks. Treatment ■ Chronic stable angina: ASA, β-blockers, and nitroglycerin. ■ Nitroglycerin relieves pain due to ↓ in left ventricular end-diastolic pressure and wall stress. ■ Initiate risk-factor reduction (eg, smoking, cholesterol, HTN) through the initiation of ACEIs/ARBs, lipid-lowering therapies (ie, statins), and smoking cessation. Hormone replacement therapy is not protective in postmenopausal women. PRINZMETAL (VARIANT) ANGINA

Mimics angina pectoris but is caused by vasospasm of coronary vessels. It classically affects young women at rest (rather than during activity) in the early morning and is associated with ST-segment elevation. It is also associated with illicit drug use, especially cocaine. ■ Patients usually do not have the standard risk factors for atherosclerosis. ■ Tx: CCBs with or without long-acting nitrates. Aspirin is avoided as it can aggravate the ischemic attacks. β-blockers are contraindicated as they can ↑ vasospasm. ■

KEY FACT Only ASA and β-blockers have been shown to have a mortality benefit in the treatment of angina.

CAROTID ARTERY STENOSIS

Atherosclerotic lesion of either (or both) carotid arteries. Accounts for 20% of transient ischemic attacks and embolic strokes. History/PE ■ Often asymptomatic. ■ Symptomatic disease is characterized by sudden-onset focal neurologic defect in the past six months (ie, TIA or stroke). ■ PE may reveal carotid artery bruit. ■ Risk factors: Advanced age, smoking, HTN, hyperlipidemia, diabetes, obesity, and family history of CAD and/or carotid artery disease. Diagnosis Duplex ultrasonography can determine percent occlusion. Treatment ■ Definitive treatment: Carotid endarterectomy (CEA). ■ Men with ≥ 60% (≥ 50% if symptomatic) stenosis or women with ≥70% stenosis benefit from CEA. ■ Smaller lesions are monitored with serial duplex ultrasonography.

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Acute Coronary Syndromes A spectrum of clinical syndromes caused by plaque disruption or vasospasm that leads to acute myocardial ischemia. KEY FACT UNSTABLE ANGINA/NON–ST-SEGMENT ELEVATION MYOCARDIAL INFARCTION

Chest pain that is (1) new onset, (2) accelerating (ie, occurs with less exertion, lasts longer, or is less responsive to medications), or (3) occurs at rest. Patient history distinguishes unstable angina from stable angina pectoris. Both stable and unstable angina have no elevated cardiac biomarkers. It signals the presence of possible impending infarction based on plaque instability. In contrast, NSTEMI indicates myocardial necrosis marked by elevations in troponin I and creatine kinase–MB isoenzyme (CK-MB) without ST-segment elevations seen on ECG.

Acute coronary syndrome: ■ Unstable angina: ECG—no ST elevation; cardiac biomarkers ⊝. ■ NSTEMI: ECG—no ST elevation; cardiac biomarkers ⊕. ■ STEMI: ECG—ST elevation; cardiac biomarkers ⊕.

Diagnosis ■ Patients should be risk stratified according to the Thrombolysis in Myocardial Infarction (TIMI) study criteria (see Table 2.1-11). ■ ECG: Unstable angina and NSTEMI are not associated with ST elevation, but ST changes (eg, ST depression, T-wave inversion, nonspecific changes) may be seen on ECG. ■ Cardiac markers (CK-MB /troponin): Unstable angina is not associated with elevated cardiac markers. NSTEMI is associated with elevations in cardiac markers. ■ NSTEMI is diagnosed by serial cardiac enzymes and ECG. Treatment Best initial treatment: ■ Admit to CCU, and monitor closely. ■ If SaO2 < 90% or breathless, administer O2.

TA B L E 2.1 - 11. 

TIMI Risk Score for Unstable Angina/NSTEMI

Characteristics

Point

History Age ≥ 65 years

1

Three or more CAD risk factors (premature family history, DM, smoking, HTN,

1

↑cholesterol, PAD, abdominal aortic aneurysm) Known CAD (stenosis > 50%)

1

ASA use in past 7 days

1

Presentation Severe angina (two or more episodes within 24 hours)

1

ST deviation ≥ 0.5 mm

1

+ cardiac marker

1

Risk score—total pointsa

(0–7)

Patients at higher risk (risk score ≥ 3) benefit more from enoxaparin (vs unfractionated heparin), glycoprotein IIb/IIIa inhibitors, and early angiography. a

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Analgesia: IV morphine with IV metoclopramide. Nitrates: IV, GTN, or sublingual. ■ Antiplatelet therapy: ASA (↓ mortality in ACS) in combination with a second agent (ie, clopidogrel, prasugrel, or ticagrelor), unless contraindicated. ■ Consider β-blockers as hemodynamics allow (if hypertensive/tachycardic/ LV function < 40%). ■ Low-molecular-weight heparin (eg, enoxaparin) to prevent clot formation in the coronary arteries. Interventions: ■ Assess mortality risk (eg, TIMI score, GRACE score). ■ Heparin is recommended for non-ST elevation MI. Thrombolytics are only recommended in STEMI if percutaneous coronary intervention (PCI) is not available within 2 hours. ■ Patients with chest pain refractory to medical therapy, a TIMI score of ≥3, a troponin elevation, or ST changes > 1 mm should be given GPIIb/ IIIa inhibitors (abciximab, tirofiban, eptifibatide) and scheduled for angiography and possible revascularization within 72 hours (percutaneous coronary intervention [PCI] or coronary artery bypass graft [CABG]). ■ Dual antiplatelet therapy with aspirin and prasugrel or ticagrelor (also P2Y12 inhibitors but superior to clopidogrel) should be considered for up to 12 months after angioplasty and stenting to prevent restenosis of stenting. ■ Ensure patient is on long-term β-blockers (if depressed LV function), ACEIs/ARBs, and statin. ■ Address modifiable risk factors (ie, smoking, hypertension, hyperlipidemia, diabetes). ■ ■

ST-SEGMENT ELEVATION MYOCARDIAL INFARCTION

MNEMONIC Treatment for MI—

Patient is MOANing Big from MI Morphine Oxygen (to maintain saturations) ASA + Additional second antiplatelet agent (NSTEMI) Nitrates 𝛃-blockers

KEY FACT It is important to check for aortic dissection clinically prior to administering anticoagulants or thrombolytics.

ST-segment elevations and cardiac enzyme release 2° to prolonged cardiac ischemia and necrosis. STEMI is a common medical emergency, and prompt treatment is absolutely necessary. History/PE ■ Presentation: Acute-onset substernal chest pain (> 10–30 min), commonly described as a pressure, tightness, or heaviness that can radiate to the left arm, shoulders, neck, or jaw. May present without chest pain (“silent” infarct). ■ Associated symptoms: Diaphoresis, shortness of breath, lightheadedness, anxiety, nausea/vomiting, epigastric pain (more common in women), and syncope. ■ PE: May reveal arrhythmias, hypotension (cardiogenic shock), new S4, pansystolic murmur, and evidence of new CHF. Clear lung fields are seen in right ventricular MI (inferior MI). In a young, otherwise healthy person, consider cocaine use as the etiology. ■ The best predictor of survival is left ventricular EF. ■ Differential diagnosis: Angina, myocarditis, pericarditis, aortic dissection, pulmonary embolism, esophageal reflux/spasm. Diagnosis ■ ECG: ST-segment elevations, hyperacute (tall) T waves, or new LBBB within hours. ST-segment depressions and dominant R waves in leads V1– V2 can also be reciprocal change indicating posterior wall infarct. T-wave inversion and pathologic Q waves develop within hours to days. ■ Sequence of ECG changes: Peaked T waves → ST-segment elevation → Q waves → T-wave inversion → ST-segment normalization → T-wave normalization over several hours to days.

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Multiples of upper limit of normal

100

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cTnT

50 cTnl 10

5

Myoglobin CK-MB

2 1 1

2

MLC

LD1

Normal

5 3 4 6 Days after MI onset

7

8

F I G U R E 2 . 1 - 1 1 .   Typical pattern of serum marker elevation after an acute myocardial infarction. CK-MB, creatine kinase MB isoenzyme; cTnI, cardiac troponin I; cTnT, cardiac

troponin T; LD1, lactate dehydrogenase isoenzyme 1; MLC, myosin light chain. (Reproduced with

permission from USMLE-Rx.com.)

Cardiac enzymes: ■ Troponin (T and I) is the most sensitive and specific cardiac marker. ■ CK-MB and the CK-MB/total CK ratio (CK index) are also regularly checked. ■ Both troponin and CK-MB can take up to 3–12 hours to rise following the onset of chest pain. Troponin peaks at 24–48 hours, and CK-MB peaks within 24 hours (see Figure 2.1-11). ■ ST-segment abnormalities: ■ Inferior MI (involving the RCA/PDA): ST-segment elevation in leads II, III, and aVF (see Figure 2.1-12). Obtain a right-sided ECG to look for ST elevations in the right ventricle. ■ Anterior MI (involving LAD and diagonal branches): ST-segment elevation in leads V1–V4 (see Figure 2.1-13). ■

I

aVR

V1

II

aVL

V2

V5

III

aVF

V3

V6

KEY FACT Women, diabetics, the elderly, and post–heart transplant patients may have atypical or clinically silent MIs.

V4

F I G U R E 2 . 1 - 1 2 .   Inferior wall myocardial infarction. In this patient with acute chest pain, the ECG demonstrated acute ST-segment elevation in leads II, III, and aVF with reciprocal ST-segment depression and T-wave flattening in leads I, aVL, and V4–V6. (Reproduced with permission from USMLE-Rx.com.)

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aVR

I

II

III

V1

aVL

V2

aVF

V3

V4

V5

V6

F I G U R E 2 . 1 - 1 3 .   Anterior wall myocardial infarction. This patient presented with acute chest pain. The ECG showed acute ST-segment elevation in leads V1–V6 and hyperacute Twaves. (Reproduced with permission from USMLE-Rx.com.)

Lateral MI (involving LCA): ST-segment elevation in leads I, aVL, and V5–V6. ■ Posterior MI: ST-segment depression in leads V1–V2 (anterior leads) can be indicative. Obtain posterior ECG leads V7–V9 (15-lead) to assess for ST-segment elevations. ■

Treatment Best initial treatment: ■ First line: Antiplatelet therapy; ASA (↓ mortality in ACS). Add prasugrel or ticagrelor (both superior to clopidogrel), or clopidogrel as second antiplatelet agent with aspirin only for patients undergoing angioplasty or stenting. ■ Analgesia: IV morphine with IV metoclopramide. ■ Nitrates: IV, GTN, or sublingual. ■ If SaO2 < 95%, breathless, or in acute LVF, administer O2. ■ Consider β-blockers as hemodynamics allow (if hypertensive/tachycardic/ LV function < 40%). ■ If the patient is in heart failure or in cardiogenic shock, do not give β-blockers; instead, give ACEIs provided that the patient is not hypotensive. ■ In inferior wall MI (ie, right ventricular infarction), avoid nitrates and diuretics due to risk for severe hypotension (preload dependent). KEY FACT

Interventions: Emergent angiography and PCI should be performed if possible (superior to thrombolysis). ■ If PCI cannot be performed < 120 minutes (door-to-balloon time should ideally be < 90 minutes), and there are no contraindications to thrombolysis, and the patient presents within 3 hours of chest pain onset, thrombolysis with tPA, reteplase, or streptokinase should be performed instead of PCI. ■ Thrombolysis target time (door-to-needle time) is < 30 minutes and is contraindicated if > 24 hours. Thrombolytics can be used up to 12 hours from the onset of symptoms (mortality benefit extends to 12 hours). ■ Long-term management (for all patients) includes ASA, ACEIs, β-blockers, nitrates, and high-dose statins. ■

Contraindications to thrombolysis: ■ Previous intracranial hemorrhage or major GI bleed. ■ Recent major trauma/surgery/head injury. ■ Ischemic stroke within the last 6months. ■ Severe hypertension (>180/110mmHg). ■ Known bleeding disorder.

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If PCI was performed, add clopidogrel, prasugrel, or ticagrelor (dual antiplatelet therapy). ■ Address modifiable risk factors (ie, smoking, hypertension, hyperlipidemia, diabetes). ■

Complications ■ Arrhythmia: VF and VT are the most common complications and the most common causes of sudden death following acute MI. Sinus bradycardia and third-degree (complete) heart block are also very common. ■ Less common complications include reinfarction, left ventricular wall rupture, VSD, pericarditis, papillary muscle rupture (with mitral regurgitation), left ventricular aneurysm or pseudoaneurysm, and mural thrombi (with subsequent acute limb ischemia, TIA, or stroke). ■ A timeline of common post-MI complications: ■ First day: Heart failure. ■ 2–4 days: Arrhythmia, pericarditis. ■ 5–10 days: Left ventricular wall rupture (acute pericardial tamponade causing electrical alternans, pulseless electrical activity, and JVD), papillary muscle rupture (severe mitral regurgitation, pulmonary edema), septal rupture (lower left sternal border murmur, increase in O2 saturation in the right ventricle). ■ Weeks to months: Ventricular aneurysm (CHF, arrhythmia, persistent ST-segment elevation, mitral regurgitation, thrombus formation). ■ Dressler syndrome, an autoimmune process occurring 2–10 weeks post-MI, presents with fever, pericarditis, pleural effusion, leukocytosis, and ↑ESR. ■ Right ventricular infarction: Caused by the occlusion of the RCA. Pre­ sents with hypotension, JVD, and clear lungs. Treat with high-volume fluid replacement (preload dependent), and avoid nitrates and diuretics.

Dyslipidemia Total cholesterol level > 200 mg/dL, LDL > 130 mg/dL, triglycerides >150mg/dL, and HDL < 40 mg/dL, all of which are risk factors for CAD. Etiologies include obesity, DM, alcoholism, hypothyroidism, nephrotic syndrome, hepatic disease, Cushing syndrome, OCP use, high-dose diuretic use, and familial hypercholesterolemia. History/PE ■ Most patients have no specific signs or symptoms. ■ Patients with extremely high triglyceride or LDL levels may have xanthomata (eruptive itchy nodules, orange streaks in palmar creases, or tuberous plaques on the elbows and knees); xanthelasma (yellow fatty deposits in the skin around the lids just below the eyes); lipemia retinalis (creamy appearance of retinal vessels); corneal arcus (deposition of lipid in the corneal stroma). ■ Patients may have a history of familial primary hyperlipidemias. Diagnosis ■ Fasting lipid profile: Total cholesterol, LDL, HDL, and triglycerides. ■ Conduct a fasting lipid profile for patients > 35 years of age or in those ≥20 years of age with CAD risk factors, and repeat every 5 years or sooner if lipid levels are elevated. ■ Total serum cholesterol > 200 mg/dL on two different occasions is diagnostic of hypercholesterolemia. ■ LDL > 130 mg/dL or HDL < 40 mg/dL is diagnostic of dyslipidemia (not optimal levels), even if total serum cholesterol is < 200 mg/dL. ■ Individuals with LDL > 190 mg/dL or triglycerides ≥500 mg/dL should be evaluated for secondary causes of hyperlipidemia.

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Indications for CABG: ■ Left main coronary artery disease. ■ Triple-vessel disease with ≥ 70% in each vessel. ■ Two-vessel disease in diabetic patient. ■ Symptomatic patient despite maximal medical therapy.

MNEMONIC Complication of MI—

DARTH VADER Death Arrhythmia Rupture (ventricular wall, septum, or papillary muscle) Tamponade Heart failure Valvular disease Aneurysm of ventricle Dressler’s syndrome Emboli (mural thrombosis) Recurrence/Reinfarction/Regurgitation (mitral)

KEY FACT Right ventricular MI is caused by the occlusion of the RCA. Nitrates and diuretics must be avoided, and the condition is treated with IV fluids.

KEY FACT Secondary hyperlipidemia causes include Cushing syndrome, hypothyroidism, nephrotic syndrome, or cholestasis.

KEY FACT As you cannot calculate the patient’s ASCVD risk on the USMLE, focus on obvious signs of ↑ risk (smoking, diabetes) or ↓ risk (young, healthy) when deciding if statin therapy is appropriate.

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TA B L E 2.1 - 12. 

CARDIOVASCULAR

American College of Cardiology/American Heart Association Treatment Guidelines

Patient Age

Criteria

Treatment

≥ 21 years

Atherosclerotic cardiovascular disease (ASCVD) (eg, CAD, CVA, or PAD)

High-intensity statin

≥ 21 years

LDL ≥ 190 mg/dL

High-intensity statin

40–75 years

LDL 70–189 mg/dL without ASCVD or diabetes

≥ 7.5% 10-year risk → high-intensity statin 5–7.5% 10-year risk → moderate-intensity statin ≤ 5% 10-year risk → no statin

40–75 years

≥ 7.5% 10-year risk → high-intensity statin

LDL 70–189 mg/dL with diabetes

≤ 7.5% 10-year risk → moderate-intensity statin ≤ 75 years

ASCVD

High-intensity statin

Treatment ■ Based on risk stratification using one of many cardiovascular risk calculators. ■ The American College of Cardiology/American Heart Association recommendations are listed in Table 2.1-12. ■ High-intensity therapy: Goal reduction in LDL of > 50%, moderateintensity as lowering by 30–50% or by specific medication and dosing guidelines (ie, atorvastatin 80 mg). ■ Smokers of all ages: Screen for dyslipidemias due to their ↑ risk. ■ First intervention: 12-week trial of diet and exercise in a patient with no known ASCVD. Commonly used lipid-lowering agents are listed in Table2.1-13. ■ Secondary hyperlipidemia: Treat underlying cause.

KEY FACT Dyslipidemia: ■ LDL > 130 mg/dL or ■ HDL < 40 mg/dL.

TA B L E 2.1 - 13. 

Lipid-Lowering Agents

Class

Examples

HMG-CoA reductase inhibitors

Atorvastatin, simvastatin, lovastatin,

(statins)

pravastatin, rosuvastatin

Lipoprotein lipase stimulators

Gemfibrozil

Effect on Lipid Profile

Side Effects

↓ LDL, ↓ triglycerides

↑ LFTs, myositis, warfarin potentiation

↓ Triglycerides, ↑ HDL

GI upset, cholelithiasis, myositis

(fibrates)

(especially in combination with statins), ↑LFTs, pancreatitis

Cholesterol absorption inhibitors

Ezetimibe

↓ LDL

Diarrhea, abdominal pain. Can cause angioedema

Niacin

Niaspan

↑ HDL, ↓ LDL

Skin flushing (can be prevented with ASA, due to ↑ prostaglandins), paresthesias, pruritus, GI upset, ↑ LFTs

Bile acid resins

Cholestyramine, colestipol,

↓ LDL

Constipation, GI upset, LFT abnormalities, myalgias. Can ↓ absorption of

colesevelam

other drugs from the small intestine Proprotein convertase subtilisin/

Evolocumab, alirocumab (injectable

kexin type 9 (PCSK9) inhibitors

medications taken every 2–4 weeks)

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↓↓ LDL

Injection-site swelling, rash, muscle/ limb pain, backache

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TA B L E 2.1 - 14. 

41

HIGH-YIELD FACTS IN

American College of Cardiology/American Heart Association BP Guidelinesa

BP Category Normal

BP

Treat Or Follow-Up

SBP < 120 mm Hg

Yearly evaluation

and

Lifestyle modifications to maintain normal BP

DBP < 80 mm Hg Elevated

SBP 120–129 mm Hg

Recommend healthy lifestyle changes

and

Reassess in 3–6 months

DBP < 80 mm Hg Hypertension: stage 1

SBP ≥ 130–139 mm Hg

Assess 10-year risk for heart disease and stroke (ASCVD)

or

< 10% 10-year risk:

DBP ≥ 80–89 mm Hg

Lifestyle recommendations

Reassess in 3–6 months

> 10% 10-year risk or the patient has known CVD, diabetes mellitus, or CKD, lifestyle

changes, and BP-lowering medication: Reassess in 1 month for effectiveness of medication therapy

If goal is met after 1 month, reassess in 3–6 months

If goal is not met after 1 month, consider different medication or titration; continue

monthly follow-up until control is achieved Hypertension: stage 2

SBP ≥ 140 mm Hg

Recommend healthy lifestyle changes and BP-lowering medication (two medications of

or

different classes)

DBP ≥ 90 mm Hg

Reassess in 1 month for effectiveness: If goal is met after 1 month, reassess in 3–6 months

If goal is not met after 1 month, consider different medications or titration

Continue monthly follow-up until control is achieved

a

Based on 2017 report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines.

Hypertension A major risk factor for stroke and MI. Defined as systolic BP ≥ 140 mm Hg and/or diastolic BP ≥ 90 mm Hg based on three measurements separated in time in adults (see Table 2.1-14). Classified as 1° or 2°. 1° ( E S S E N T I A L ) H Y P E R T E N S I O N

Hypertension with no identifiable cause. Represents 95% of cases of HTN. Risk factors include a family history of HTN or heart disease, a highsodium diet, smoking, obesity, ethnicity (African-Americans > whites), and advanced age. History/PE ■ HTN is usually asymptomatic until complications develop. ■ Patients should be evaluated for end-organ damage to the brain (stroke, dementia), eye (cotton-wool exudates, hemorrhage, retinopathy), heart (LVH), and kidney (proteinuria, CKD). Renal bruits may signify renal artery stenosis as the cause of HTN.

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KEY FACT PCSK9 inhibitors are a new class of LDL-lowering drugs. They significantly increase hepatic clearance of LDL. Indicated in familial hypercholesterolemia and statinresistant or -intolerant patients with severe hyperlipidemia.

A woman is found with pulseless electrical activity on hospital day 7 after suffering a lateral wall STEMI. The ACLS protocol is initiated. What is the next best step?

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42

HIGH-YIELD FACTS IN

CARDIOVASCULAR Diagnosis ■ Quantify overall risk: Fasting glucose, HBA1c, lipid profile. ■ Assess end-organ damage: ECG to check for LVH or past MI, urinalysis for proteinuria or hematuria; BUN/creatinine. ■ Exclude secondary causes (as required): U&Es, Ca2+, renal ultrasound, 24-hour urine metanephrine, renin, aldosterone, urinary cortisol. ■ 24-hour ambulatory BP monitoring (ABPM) may be useful sometimes (ie, “white coat” or borderline hypertension).

MNEMONIC Treatment of HTN—

ABCD ACEIs/ARBs 𝛃-blockers CCBs Diuretics (typically thiazide diuretics)

MNEMONIC Causes of 2° hypertension—

CHAPS Cushing syndrome Hyperaldosteronism (Conn syndrome) Aortic coarctation Pheochromocytoma Stenosis of renal arteries

RECENT Renal causes (renal artery stenosis, PKD) Endocrine (Conn syndrome, Cushing syndrome, hyperparathyroidism, pheochromocytoma) Coarctation of the aorta Estrogen (OCP) Neurologic (ICP) Thyroid disorder

This patient has probably suffered a left ventricular free-wall rupture with acute cardiac tamponade. Emergent pericardiocentesis is the next best therapeutic and diagnostic step.

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Treatment ■ Begin with lifestyle modifications (weight loss, exercise, smoking cessation, diet improvement, limit alcohol and salt intake). ■ BP goals vary by category and ASCVD (see Table 2.1-14). ■ Diuretics, CCBs, ACEIs, and β-blockers have been shown to ↓ mortality in uncomplicated HTN. They are first-line agents unless a comorbid condition requires another medication (see Table 2.1-15). ■ For patients who are not African-American, including those with diabetes, →ACEI/ARB (nephroprotective), thiazide, CCB. ■ For African American patients, including those with diabetes, →thiazide, CCB. ■ For patients ≥ 18 years of age with CKD → ACEI/ARB (nephroprotective). ■ If BP goal is not reached within 1 month of commencing treatment, ↑ dose of initial drug or add a second drug, and if goal BP cannot be reached with two drugs, add and titrate a third drug. Poorer outcomes are seen if ACEIs and ARBs are used together. ■ Periodically test for end-organ complications, including renal complications (BUN, creatinine, urine protein-to-creatinine ratio), hypertensive retinopathy (eye exam), and cardiac complications (ECG evidence of LVH). 2° H Y P E R T E N S I O N

Hypertension 2° to an identifiable organic cause (∼5% of cases). See Table2.1-16 for the diagnosis and treatment of common causes.

TA B L E 2.1 - 15. 

Treatment of 1° Hypertension in Specific Populations

Population

Agents

Uncomplicated

Diuretics, CCBs, ACEIs

CHF

Diuretics, β-blockers, ACEIs, ARBs, aldosterone antagonists

Diabetes

Diuretics, ACEIs, ARBs, CCBs

Post-MI

β-blockers, ACEIs, ARBs, aldosterone antagonists

Chronic kidney disease

ACEIs, ARBs

BPH

Diuretics, α1-adrenergic blockers

Isolated systolic HTN

Diuretics, ACEIs, CCBs (dihydropyridines)

Pregnancy

Methyldopa, β-blockers (typically labetalol), hydralazine

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HIGH-YIELD FACTS IN

Common Causes of 2° Hypertension

Etiology 1° Renal disease

Description Often unilateral renal parenchymal disease

Management Treat with ACEIs, which slow the progression of renal disease

Renal artery stenosis

Especially common in patients < 25 and > 50 years of age with recent-onset HTN Etiologies include fibromuscular dysplasia (younger patients)

Diagnose with MRA, CT angiography, or renal artery Doppler ultrasound May be treated with angioplasty or stenting. Consider

and atherosclerosis (older patients)

ACEIs in unilateral disease. (In bilateral disease,

Often present with headaches and bruits in abdomen/neck

ACEIs can accelerate kidney failure by preferential vasodilation of the efferent arteriole.) Open surgery is a second option if angioplasty is not effective or feasible

OCP use

Common in women > 35 years of age, obese women, and

Discontinue OCPs (effect may be delayed)

those with long-standing use Pheochromocytoma

An adrenal gland tumor that secretes epinephrine and nor-

Diagnose with urinary metanephrines and catechol-

epinephrine, leading to episodic headache, sweating, and

amine levels or plasma metanephrine

tachycardia

Surgical removal of tumor after treatment with α-blockers followed by β-blockers

Conn syndrome

Most often 2° to an aldosterone-producing adrenal adenoma

Metabolic workup with plasma aldosterone and renin

(hyperaldosteronism)

Causes the triad of HTN, unexplained hypokalemia, and

level; ↑ aldosterone and ↓ renin levels suggest 1°

metabolic alkalosis

hyperaldosteronism. Surgical removal of tumor

Due to an ACTH-producing pituitary tumor, an ectopic ACTH-

Surgical removal of tumor; removal of exogenous

secreting tumor, or cortisol secretion by an adrenal adenoma

steroids

Cushing syndrome

or carcinoma. Also due to exogenous steroid exposure. (See the Endocrinology chapter for more details) Coarctation of the aorta

See the Pediatrics chapter

Surgical correction

Hyperparathyroidism

Either alone or as part of MEN type 2 (with

Treat underlying hyperparathyroidism

pheochromocytoma) Look for ↑ calcium and vascular/valvular calcification

HYPERTENSIVE CRISES

A spectrum of clinical presentations in which there is a severe increase in BP (usually > 180/120 mm Hg) that can lead to end-organ damage. History/PE Present with end-organ damage revealed by acute kidney injury, severe chest pain (ischemia, MI), back pain (aortic dissection), stroke, severe headache with changes in mental status (hypertensive encephalopathy), and blurred vision. Other symptoms include nausea and vomiting, seizures, shortness of breath, and severe anxiety.

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A 40-year-old man presents for a routine exam. His exam is significant for a BP of 145/75 mm Hg but is otherwise unremarkable, as are his lab results. What is the next best step?

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TA B L E 2.1 - 17. 

CARDIOVASCULAR

Major Classes of Antihypertensive Agents

Class

Agents

Diuretics

Mechanism of Action ↓ Extracellular fluid volume and

Thiazide, loop, K+ sparing Ethacrynic acid is the only nonsulfa

thereby ↓ vascular resistance

loop diuretic that can be used in

Side Effects Hypokalemia (not with K+ sparing), hyperglycemia, hyperlipidemia, hyperuricemia, azotemia

severe sulfa allergy patients β-blockers

Propranolol, metoprolol, nadolol, atenolol, timolol, carvedilol,

↓ Cardiac contractility and renin release

labetalol ACEIs

Bronchospasm (in severe active asthma), bradycardia, CHF exacerbation, impotence, fatigue, depression

Captopril, enalapril, fosinopril, benazepril, lisinopril

Blocks the conversion of angio-

Cough and angioedema (due to ↑brady-

tensin I to angiotensin II, reducing

kinin build-up), rashes, leukopenia,

peripheral resistance and salt/

hyperkalemia

water retention. Bradykinin ↑ due to the ↓ activation of ACE ARBs

Losartan, valsartan, irbesartan

Blocks the activation of angiotensin II receptor, reducing periph-

Rashes, leukopenia, and hyperkalemia but no cough

eral resistance and salt/water retention CCBs

Dihydropyridines (nifedipine,

Vasodilators

↓ Smooth muscle tone and cause

felodipine, amlodipine), nondihy-

vasodilation; may also ↓ cardiac

dropyridines (diltiazem, verapamil)

output

Hydralazine, minoxidil

↓ Peripheral resistance by dilating arteries/arterioles

α1-adrenergic

Prazosin, terazosin,

blockers

phenoxybenzamine

Cause vasodilation by blocking

Dihydropyridines: headache, flushing, peripheral edema Nondihydropyridines: ↓ Contractility Hydralazine: headache, lupus-like syndrome Minoxidil: orthostasis, hirsutism Orthostatic hypotension

actions of norepinephrine on vascular smooth muscle

Centrally acting

Methyldopa, clonidine

Inhibit the sympathetic nervous

adrenergic

system via central α2-adrenergic

agonists

receptors

KEY FACT Hypertensive emergencies are diagnosed on the basis of the extent of end-organ damage, not BP measurement.

With a single BP recording and no evidence of end-organ damage, the next best step should consist of a repeat BP measurement at the end of the exam with a return visit if BP is still high.

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Somnolence, orthostatic hypotension, impotence, rebound HTN

Diagnosis ■ Hypertensive urgency: ↑ BP with mild to moderate symptoms (headache, chest pain, nausea and vomiting) without end-organ damage. ■ Hypertensive emergency: ↑ BP with signs or symptoms of impending end-organ damage such as acute kidney injury, intracranial or retinal hemorrhage, papilledema, stroke, or ECG changes suggestive of ischemia, MI, or pulmonary edema. Treatment ■ Hypertensive urgency: BP can be reduced gradually over 24–48 hours with oral antihypertensives (eg, β-blockers, clonidine, ACEIs) (see Table 2.1-17). ■ Hypertensive emergency: BP must be reduced immediately to prevent imminent organ damage. Treat with IV medications (labetalol, nitroprusside, nicardipine) with the goal of lowering mean arterial pressure by no more than 25% over the first 2 hours to prevent cerebral hypoperfusion or coronary insufficiency.

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HIGH-YIELD FACTS IN

45

Pericardial Disease Consists of pericarditis, constrictive pericarditis, and pericardial tamponade. Results from acute or chronic pericardial insults; may lead to pericardial effusion. PERICARDITIS

Inflammation of the pericardial sac. It can compromise cardiac output via tamponade (extravasation of large amounts of fluid secondary to pericarditis) or constrictive pericarditis (chronic pericarditis). Most commonly idiopathic, although known etiologies include viral infection (most common infection, likely etiology Coxsackie B virus), Staphylococcus, Streptococcus, tuberculosis (TB), systemic lupus erythematosus (SLE), uremia, drugs, radiation, connective tissue disorder (ie, rheumatoid arthritis, Goodpasture syndrome), and neoplasms. May also occur after MI (either within days after MI or as a delayed phenomenon; ie, Dressler syndrome) or open-heart surgery (see Figure 2.1-14). History/PE ■ Presentation: Sharp pleuritic chest pain, dyspnea, cough, and fever. ■ Key feature: Chest pain tends to worsen in the supine position and with inspiration. Classically, patient is seen sitting up (pain improves in prone position) and bending forward. ■ Exam: May reveal a pericardial friction rub. Elevated JVP, tachycardia, muffled S1 and S2, and pulsus paradoxus (a ↓ in systolic BP >10mm Hg on inspiration) can be present with pericardial tamponade. Kussmaul sign can be present with constrictive pericarditis. Diagnosis ■ ECG: Include diffuse ST-segment elevation and PR-segment depressions followed by T-wave inversions (see Figure 2.1-15). Classically shows concave (saddle-shaped) ST segment elevation.

KEY FACT Pericardial calcification seen on chest x-ray (CXR) strongly suggest constrictive pericarditis due to chronic fibrosis and calcification of the pericardium.

MNEMONIC Causes of pericarditis—

CARDIAC RINDS Collagen vascular disease Aortic dissection Radiation Drugs Infections Acute renal failure Cardiac (MI) and Connective tissue disease Rheumatic fever Injury Neoplasms Dressler syndrome Surgery (postpericardiotomy syndrome)

F I G U R E 2 . 1 - 1 4 .   Radiographic findings in pericarditis. Contrast-enhanced CT at the level of the interventricular septum demonstrates a small pericardial effusion, with thickening and increased enhancement of the pericardium consistent with infection in this postsurgical patient. The air outlining the pericardium anteriorly is the result of dehiscence of the median sternotomy. (Reproduced with permission from USMLE-Rx.com.)

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HIGH-YIELD FACTS IN KEY FACT

CARDIOVASCULAR

CXR: Cardiomegaly may indicate a pericardial effusion. Blood tests: FBC, ESR, U&Es, cardiac enzymes (troponin may be raised), viral serology, and if indicated, autoantibodies, fungal precipitins, and TFTs. ■ Echo: Pericardial thickening or effusion may be evident. ■ ■

ST-segment elevations in pericarditis are differentiated from MI in that they are not localized to one region of the heart; widespread ST-segment elevations are seen.

Treatment ■ Treat the underlying cause (eg, corticosteroids/immunosuppressants for SLE, dialysis for uremia) or symptoms (eg, ASA for post-MI pericarditis, ASA/NSAIDs for viral pericarditis or Dressler syndrome). Avoid corticosteroids within a few days after MI, as they can predispose to ventricular wall rupture. ■ Treat idiopathic cases with NSAIDs such as ibuprofen, naproxen, or indomethacin. Consider colchicine for relapse or persistent symptoms. ■ Pericardial effusions without symptoms can be monitored, but evidence of tamponade requires pericardiocentesis with continuous drainage as needed. CARDIAC TAMPONADE

Excess fluid in the pericardial sac ↑ the intrapericardial pressure, leading to compromised ventricular filling and ↓ cardiac output. The rate of fluid formation is more important than the size of the effusion. Risk factors include pericarditis, malignancy, SLE, TB, and trauma (commonly stab wounds medial to the left nipple). History/PE ■ Presents with fatigue, dyspnea, anxiety, tachycardia, and tachypnea that can rapidly progress to shock and death. ■ Exam of a patient with acute tamponade may reveal Beck triad (hypotension, distant or muffled S1 and S2 heart sounds, and JVD), a narrow pulse pressure, and pulsus paradoxus. ■ Lung fields are clear on exam.

I

aVR

V1

V4

PR

ST

ST II

aVL

V2

V5

III

aVF

V3

V6

PR

F I G U R E 2 . 1 - 1 5 .   Acute pericarditis. Diffuse ST-segment elevations in multiple leads not consistent with any discrete coronary vascular territory and PR-segment depressions. (Reproduced with permission from USMLE-Rx.com.)

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CARDIOVASCULAR

47

HIGH-YIELD FACTS IN

Diagnosis ■ Echo is diagnostic and shows right atrial and right ventricular diastolic collapse and echo-free zone around the heart. ■ CXR may show an enlarged, globular, water-bottle-shaped heart with a large effusion (see Figure 2.1-16). ■ If present on ECG, electrical alternans is diagnostic of a large pericardial effusion. Treatment ■ Aggressive volume expansion with IV fluids. ■ Urgent pericardiocentesis (aspirate will be non-clotting blood). Send fluid to lab analysis to determine etiology. ■ Decompensation or recurrent cases may warrant pericardial window.

Valvular Heart Disease Until recently, rheumatic fever (which affects the mitral valve more often than the aortic valve) was the most common cause of valvular heart disease in US adults; the leading cause is now mechanical degeneration. Subtypes are listed in Table 2.1-18 along with their etiologies, presentation, diagnosis, and treatment.

Vascular Diseases

F I G U R E 2 . 1 - 1 6 .   Pericardial effusion. Water-bottle-shaped heart seen on

CXR with pericardial effusion. (Reproduced with permission from Chen MY etal. Basic Radiology, 2nd ed. New York, NY: McGraw-Hill; 2011.)

KEY FACT Beck triad can diagnose acute cardiac tamponade: ■ JVD. ■ Hypotension. ■ Distant S1 and S2 heart sounds.

AORTIC ANEURYSM

Greater than 50% dilation of all three layers of the aortic wall. Aortic aneurysms are most commonly associated with atherosclerosis. Most are abdominal, and > 90% originate below the renal arteries. Ascending aortic aneurysm—think cystic medial necrosis or connective tissue disease. ■ Descending aortic aneurysm—think atherosclerosis. ■ Complications: Rupture, thrombosis, embolism, fistulae, pressure on surrounding structures. ■

History/PE ■ Usually asymptomatic and discovered incidentally on exam or radiologic study. It may cause mild abdominal or back pain. ■ Exam demonstrates a pulsatile abdominal mass or abdominal bruits. ■ Risk factors include HTN, high cholesterol, other vascular disease, a ⊕ family history, smoking (strongest predictor of rupture), gender (males > females), and age. ■ Ruptured aneurysm leads to hypotension and severe, tearing abdominal pain that radiates to the back, iliac fossae, or groin, and syncope. Diagnosis ■ Screening: All men 65–75 years of age with a history of smoking are recommended for a one-time screening by ultrasound for AAA (see Figure 2.1-17). ■ Abdominal ultrasound is used for diagnosis or to follow the course of an aneurysm over time. ■ CT with contrast or MRA may be useful to determine the precise anatomy.

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KEY FACT Size of AAA determines treatment: ■ < 5 cm → monitoring. ■ > 5 cm → surgical correction.

A 20-year-old man presents with an initial BP of 150/85 mm Hg, and repeat measurement yields 147/85mm Hg. The patient’s potassium level is 3.2 mg/dL. What is the next appropriate diagnostic step?

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TA B L E 2.1 - 18. 

Type Aortic stenosis

CARDIOVASCULAR

Types of Valvular Heart Disease

Etiology Most often seen in the elderly (senile calcific aortic stenosis) Unicuspid in childhood

History May be asymptomatic for

(surgical or transcatheter

stenosis

upstroke) and a single

methods)

Once symptomatic, usually

or paradoxically split S2

and adolescence. Rheu-

progresses from angina

sound; systolic crescendo-

matic heart disease can

to syncope to CHF to

decrescendo murmur at the

predispose to AS

death within 2 years

right second intercostal space

valve replacements): Syncope Acute: Infective endocar-

Aortic valve replacement

(weak, delayed carotid

ACS—Angina, CHF,

regurgitation

PE: Pulsus parvus et tardus

Treatment

years despite significant

Sx (also indications for

Aortic

Exam/Diagnosis

Acute: Rapid onset of

radiating to the carotids Severe AS characterized by soft and single S2 Dx: Echocardiography PE: Early blowing diastolic

Vasodilator therapy

ditis, aortic dissection,

pulmonary congestion,

murmur at the left sternal

(dihydropyridines or

chest trauma, MI

cardiogenic shock, and

border, mid-diastolic rumble

ACEIs) for isolated aortic

severe dyspnea

(Austin Flint murmur), and

regurgitation until symp-

midsystolic apical murmur

toms become severe

Chronic: Valve malformations, rheumatic fever,

Chronic: Slowly progres-

Widened pulse pressure causes

enough to warrant valve

connective tissue

sive onset of dyspnea

disorders (ie, Marfan

on exertion, orthopnea,

de Musset sign (head bob

replacement. Digoxin

syndrome), syphilis,

and PND. Uncomfort-

with heartbeat), Corrigan

and diuretics have little

inflammatory disorders

able heart pounding

sign (water-hammer pulse;

benefit

when lying on left side

wide and bounding), and Duroziez sign (femoral bruit)

Monitor LV function and size

Dx: Echocardiography Mitral valve stenosis

Mitral valve regurgitation

The most common eti-

Sx: Include dyspnea,

PE: Opening snap and mid-

Antiarrhythmics (β-blockers,

ology continues to be

orthopnea, PND, and

diastolic murmur at the

digoxin, or CCBs) and

rheumatic fever

hemoptysis. Unique fea-

apex; pulmonary edema

warfarin for AF. Mitral

Uncommon in the US

tures secondary to LAE

Primarily 2° to rheumatic

valve replacement are

and hoarseness

effective for severe cases

Patients present with dyspnea, orthopnea,

dineae rupture after MI

PND, and fatigue

PE: Holosystolic/pansystolic

ACEIs or ARBs to vasodilate

murmur radiating to the

and ↓ rate of progression.

axilla

Antiarrhythmics if neces-

Dx: Echocardiography will

tion due to mitral valve

demonstrate regurgitant

prolapse

flow; angiography can assess

Infective endocarditis

balloon valvotomy and

include AF, dysphagia,

fever or chordae tenMyxomatous degenera-

Dx: Echocardiography

the severity of disease

sary (AF is common with LAE). Digoxin and diuretics may be needed in CHF Valve repair or replacement for severe cases

A hyperaldosteronism workup with serum aldosterone and renin levels is an appropriate next diagnostic step.

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Treatment ■ In asymptomatic patients, monitoring is appropriate for lesions < 5 cm. ■ Surgical correction is indicated if the lesion is ≥ 5.5 cm (abdominal), >6cm (thoracic), or smaller but rapidly enlarging (watch for bowel ischemia and infarction). ■ Emergent surgery for symptomatic or ruptured aneurysms.

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HIGH-YIELD FACTS IN

49

Ao

A

B

F I G U R E 2 . 1 - 1 7 .   Abdominal aortic aneurysm. (A) Ultrasound image of an AAA (Ao, aorta). (B) Transaxial image from a contrast-enhanced CT showing an aneurysm with extensive mural thrombus (arrowhead). (Image A reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 6th ed. New York, NY: McGraw-Hill; 2004. Image B reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010.)

AORTIC DISSECTION

A transverse tear in the intima of a vessel that results in blood entering the media, creating a false lumen and leading to a hematoma that propagates longitudinally. Most commonly 2° to HTN, but also due to blunt chest trauma. The most common sites of origin are above the aortic valve and distal to the left subclavian artery. Most often occurs at 40–60 years of age, with a greater frequency in males than in females.

KEY FACT Aortic aneurysm is most often associated with atherosclerosis, whereas aortic dissection is commonly linked to HTN.

History/PE ■ Hx: HTN, Marfan syndrome, mitral valve prolapse, trauma. ■ Presentation: Sudden tearing/ripping pain in the anterior chest (ascending) with or without radiation to the back (descending), typically between the scapulae. ■ Exam: ■ Patients are typically hypertensive. If hypotensive, consider pericardial tamponade, hypovolemia from blood loss, or other cardiopulmonary etiologies. ■ Asymmetric pulses and BP measurements or acute limb ischemia. ■ A murmur of aortic regurgitation may be heard if the aortic valve is involved with a proximal dissection. ■ Neurologic deficits, such as paraplegia, may be seen if the aortic arch or spinal arteries are involved. ■ Anuria may be seen if renal arteries are involved. ■ Signs of pericarditis or pericardial tamponade may be seen. Diagnosis ■ Best initial test for hemodynamically stable patients: CT angiography. MRA can be used if contrast CT is contraindicated. ■ Best initial test for hemodynamically unstable patients: TEE. It may also be used to visualize details of the proximal aorta and coronary vessels and can also evaluate for pericardial effusion.

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A 70-year-old man with HTN presents for a routine appointment. He quit smoking 20 years ago but has a 20-pack-year history. What screening, if any, is indicated?

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HIGH-YIELD FACTS IN

CARDIOVASCULAR

Type A Descending

Stanford Classification

Type B Descending

Ascending

F I G U R E 2 . 1 - 1 8 .   Stanford classification of aortic dissection. Type A involves the ascending aorta and may progress to involve the arch and thoracoabdominal aorta. Type B involves the descending thoracic or thoracoabdominal aorta distal to the left subclavian artery without involvement of the ascending aorta. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT Ascending aortic dissections are surgical emergencies; descending dissections are still emergencies but can often be treated medically.

The Stanford system classifies any dissection proximal to the left subclavian artery as type A and all others as type B (see Figure 2.1-18). ■ Type A (∼70%) is the most common and involves the ascending aorta, irrespective of the site of the tear. Type B does not involve the ascending aorta. ■

Treatment ■ BP control: Important to monitor and medically manage BP and heart rate as necessary. Avoid thrombolytics. Begin intravenous β-blockers (eg, IV labetalol) before starting vasodilators (nitroprusside) to prevent reflex tachycardia. ■ All patients with type A thoracic dissection (ascending dissections) should have surgery. ■ Patients with type B thoracic dissection (descending dissections) may be managed medically with BP and heart rate control; surgery is reserved if there is a leakage, rupture, or compromised organs. DEEP VENOUS THROMBOSIS

KEY FACT Virchow triad: (1) venous stasis, (2)trauma (endothelial damage), (3)hypercoagulability

The United States Preventive Services Task Force (USPSTF) guidelines recommend one-time screening for AAA by ultrasound in men 65–75 years of age who have ever smoked.

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Clot formation in the large veins of the extremities or pelvis. The classic Virchow triad of risk factors includes venous stasis (eg, from long-haul flights, prolonged bed rest, obesity, immobility, or incompetent venous valves in the lower extremities), endothelial trauma (eg, surgery, injury to the lower extremities, trauma), and hypercoagulable states (eg, thrombophilia, malignancy, pregnancy, OCP use). History/PE ■ Presents with unilateral lower extremity pain and swelling. Calf warmth, tenderness, and erythema may be present. ■ Homans sign is calf tenderness with passive foot dorsiflexion (poor sensitivity and specificity for DVT). ■ Use pretest clinical probability scoring for DVT, the Wells score.

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Normal Low

No DVT

D-dimer High

DVT Not low Clinical suspicion for DVT or PE

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Imaging test needed

Assess clinical liklihood Normal Not high

No PE

D-dimer High

PE High

Imaging test needed

F I G U R E 2 . 1 - 1 9 .   Algorithm for diagnostic imaging of deep vein thrombosis and pulmonary embolism. (Reproduced with permission from USMLE-Rx.com)

Diagnosis ■ D-dimer test should be ordered (sensitive but not specific) and is elevated in DVT. Also elevated in infections, malignancy, pregnancy, and postoperatively. A negative result, combined with a low clinical probability is sufficient to exclude a DVT. ■ If D-dimer is elevated and the patient has a high-to-intermediate clinical probability, Doppler ultrasound is done. ■ A spiral CT or V/Q scan may be used to evaluate for PE (see Figure2.1-19).

KEY FACT A ⊝ D-dimer test can be used to rule out the possibility of PE in low-risk patients.

Treatment ■ Anticoagulate with subcutaneous low-molecular-weight heparin (LMWH) or IV unfractionated heparin followed by PO warfarin or NOACs for a total of 3–6 months. ■ In patients with contraindications for anticoagulation, inferior vena cava filters should be placed. ■ Hospitalized patients should receive DVT prophylaxis consisting of exercise as tolerated, antithromboembolic stockings, and subcutaneous LMWH or unfractionated heparin. PERIPHERAL ARTERIAL DISEASE

Defined as a restriction of the blood supply to the extremities by atherosclerotic plaque. The lower extremities are most commonly affected. Clinical manifestations depend on the vessels involved, the extent and rate of obstruction, and the presence of collateral blood flow. History/PE ■ Presents with intermittent claudication; reproducible cramping pain in the calf, thigh, or buttock after walking for a certain distance (claudication distance) and is relieved with rest. ■ As the disease progresses, it causes critical limb ischemia. Pain occurs at rest and affects the distal extremities. Dorsal foot ulcerations may develop 2° to poor perfusion. A painful, cold, numb foot is characteristic of critical limb ischemia.

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For more proximal lesions, there will be claudication and weak pulses below the area of occlusion (ie, aortoiliac disease; [Leriche syndrome] is characterized by the triad of hip, thigh, and buttock claudication, impotence, and symmetric atrophy of bilateral lower extremities). ■ A Buerger angle of < 20 degrees and capillary filling of > 15 seconds are seen in severe ischemia. ■ Acute ischemia: ■ May be due to thrombosis in situ (∼40), emboli usually of cardiac origin (∼38%), graft/angioplasty occlusion (∼15%), or trauma. Acute occlusions commonly occur at bifurcations distal to the last palpable pulse (see mnemonic for signs and symptoms). ■ May also be 2° to cholesterol atheroembolism (“blue toe syndrome”), which is characterized by blue toes, livedo reticularis, renal failure (often 2° to catheterization). ■ Chronic ischemia: Lack of blood perfusion leads to muscle atrophy, pallor, loss of sweat and sebaceous glands, cyanosis, hair loss, and gangrene/ necrosis. ■

MNEMONIC The 6 P’s of acute ischemia— Pain Pallor Paralysis Pulse deficit Paresthesias Poikilothermia

KEY FACT ABI = Pleg/Parm Rest pain seen with an ABI < 0.4. (normal ABI: 1.0–1.2)

KEY FACT Calf claudication = femoral disease Buttock claudication = iliac disease Buttock claudication + impotence = Leriche syndrome (aortoiliac occlusive disease)

KEY FACT The major cause of mortality in patients with PAD is cardiovascular disease (MI, stroke); there is a 20–30% risk for these complications. There is only a 1–2% risk for developing limb ischemia.

Diagnosis ■ Identify cardiovascular risk factors, especially smoking, diabetes, hypertension, and hyperlipidemia. ■ Best initial test: Ankle-brachial index test; can provide objective evidence of atherosclerosis (rest pain usually occurs with an ABI < 0.4). A very high ABI can indicate calcification of the arteries. ■ Doppler ultrasound: Identifies stenosis and occlusion. Normal ankle Doppler readings are > 90% of brachial readings. ■ Most accurate test: Angiography; often not necessary unless revascularization is indicated. Treatment ■ Treat acute symptomatic ischemia with heparin and prompt revascularization. ■ Address modifiable risk factors: Smoking (vital), hypertension, hyperlipidemia, and diabetes. ■ Educate regarding careful hygiene and foot care. Exercise helps develop collateral circulation. ■ Antiplatelet agents (ASA or vorapaxar) do not consistently reduce symptoms, but ↓ the risk for associated cardiovascular mortality. ■ Cilostazol is effective medication in intermittent claudication. ■ Surgery (arterial bypass), percutaneous transluminal angioplasty, and stenting, or amputation can be employed when conservative treatment fails or in acute limb ischemia. LYMPHEDEMA

A disruption of the lymphatic circulation that results in peripheral edema and chronic infection of the extremities. Primary (or congenital) lymphedema is rare. Most often caused secondarily by surgeries involving lymph node dissection or, in developing countries, parasitic infections. History/PE History will differ by cause. Examples include the following: Postmastectomy patients present with unexplained swelling of the upper extremity (secondary to surgery).

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Patients originating from developing countries present with progressive swelling of the lower extremities bilaterally with no cardiac abnormalities (ie, filariasis infection). ■ Children present with progressive, bilateral swelling of the extremities (1°). ■ Patients with Turner syndrome will have lymphatic edema. ■

Diagnosis Diagnosis is clinical. Rule out other causes of edema, such as cardiac and metabolic disorders. Treatment ■ Directed at symptom management, including exercise, massage therapy, and pressure garments to mobilize and limit fluid accumulation. ■ Diuretics are ineffective and relatively contraindicated. ■ Maintain vigilance for cellulitis with prompt gram-⊕ antibiotic coverage for infection.

Syncope A sudden, temporary loss of consciousness and postural tone 2° to cerebral hypoperfusion. Etiologies can be cardiac, neurologic, or other. Cardiac: Valvular lesions (aortic stenosis), arrhythmias, PE, cardiac tamponade, aortic dissection. ■ Neurologic: Subarachnoid hemorrhage. ■ Other: Orthostatic/hypovolemic hypotension, metabolic abnormalities, neurocardiogenic syndromes (eg, vasovagal/micturition syncope), psychiatric, medications. ■

History/PE ■ Age, triggers, prodromal symptoms, and associated symptoms should be investigated. ■ Syncope can be confused with seizures. Unlike syncope, seizures may be characterized by a preceding aura, tonic-clonic activity, tonguebiting, bladder and bowel incontinence, and a postictal phase. ■ Cardiac causes of syncope are typically associated with very brief or absent prodromal symptoms, a history of exertion, lack of association with changes in position, and/or a history of cardiac disease. ■ Neurocardiogenic syndrome is common in younger patients and older patients with difficulty voiding. Diagnosis Depending on the suspected etiology: Cardiac: ECG, Holter monitors or 2-week event recorders (arrhythmias), echocardiograms (structural abnormalities), stress tests (ischemia). ■ Neurologic: CT of head (ischemia or hemorrhage) and EEG (seizure). ■ Other: Orthostatic BP readings (hypovolemia, autonomic dysfunction), glucose (hypoglycemia), and tilt-table testing (neurally mediated syncope).

KEY FACT

Cardiac syncope is associated with 1-year sudden cardiac death rates of up to 40%.

Treatment Tailored to the etiology.

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NOTES

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DERMATOLOGY Layers of the Skin

56

Allergic and Immune-Mediated Skin Disorders

57

Hypersensitivity Reactions

57

Atopic Dermatitis (Eczema)

59

Contact Dermatitis

60

Seborrheic Dermatitis

60

Stasis Dermatitis

61

Psoriasis

61

Urticaria (Hives)

62

Drug Eruption

63

Erythema Multiforme

64

Stevens-Johnson Syndrome/Toxic Epidermal Necrolysis

65

Erythema Nodosum

66

Bullous Pemphigoid/Pemphigus Vulgaris

66

Infectious Disease Manifestations of the Skin

67

Viral Diseases

67

Bacterial Infections

71

Fungal Infections

75

Parasitic Infections

77

Miscellaneous Skin Disorders

80

Acanthosis Nigricans

80

Lichen Planus

80

Rosacea

81

Pityriasis Rosea

81

Vitiligo

82

Eyelid Lesions

83

Epidermal Inclusion Cysts

83

Dermatofibroma

83

Hidradenitis Suppurativa

83

Ichthyosis Vulgaris

83

Age-related Skin Changes

83

Sun Protection

84

Sunburn

84

Neoplasms of the Skin

84

Seborrheic Keratosis

84

Actinic Keratosis

84

Cutaneous Squamous Cell Carcinoma

85

Basal Cell Carcinoma

85

Melanoma

86

79

Kaposi Sarcoma

86

Decubitus Ulcers

79

Mycosis Fungoides (Cutaneous T-Cell Lymphoma)

88

Gangrene

79

Cherry Angiomas (Hemangiomas)

88

Ischemic Skin Disorders

55

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Layers of the Skin The skin is the largest organ in the human body. It provides a barrier and immunologic protection against the environment, regulates body temperature, fluids, and electrolytes, and allows for touch and sensation. Figures 2.2-1 and 2.2-2 and Table 2.2-1 outline the skin layers, cell junctions, and common terminology related to the skin. TA B L E 2.2 - 1. 

Dermatologic Macroscopic Terms

Lesion

Characteristics

Examples

Macule

Flat lesion < 1 cm

Freckle, labial macule (see Image A)

Patch

Flat lesion > 1 cm

Birthmark (congenital nevus) (see Image B)

Papule

Elevated solid lesion < 1 cm

Mole (nevus) (see Image C), acne

Plaque

Elevated lesion > 1 cm

Psoriasis (see Image D)

Vesicle

Small fluid-containing blister < 1 cm

Chickenpox (varicella), shingles (zoster) (see Image E)

Bulla

Large fluid-containing blister > 1 cm

Bullous pemphigoid (see Image F)

Cyst

Epithelium-lined sac containing material or fluid

Pilar cyst (follicular cyst on scalp)

Pustule

Vesicle containing pus

Pustular psoriasis (see Image G)

Wheal

Transient edematous papule or plaque

Hives (urticarial) (see Image H)

Scale

Flaking off of stratum corneum

Eczema, psoriasis, SCC (see Image I)

Crust

Exudate of dried serum, blood, and/or pus

Impetigo (see Image J)

Ulcer

Defect extending through the epidermis and upper dermis

Diabetic foot ulcer

Lichenification

Hypertrophy and thickening of the epidermis with accentuation of

Chronic scratching (pruritic scabies, eczema)

normal skin markings

A

B

F

G

C

H

D

E

I

J

Images reproduced with permission from Dr. Richard Usatine.

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Sweat pore Hair shaft Free nerve ending Arrector pili muscle

EPIDERMIS

Epidermal ridge Capillary loop

Dermal papilla Corpuscle of touch (Meissner corpuscle)

Sebaceous (oil) gland

DERMIS

Hair follicle

Sensory nerve

Hair root

Apocrine sweat gland

SUBCUTANEOUS LAYER

Adipose tissue Lamellated (pacinian) corpuscle

Vein Artery Eccrine sweat gland

FIGURE 2.2-1. 

Layers of the skin. (Reproduced with permission from USMLE-Rx-com.)

Allergic and Immune-Mediated Skin Disorders HYPERSENSITIVITY REACTIONS

Table 2.2-2 outlines the types and mechanisms of hypersensitivity reactions. Apical E-cadherin Actin filaments Keratin Desmoplakin Connexon with central channel Basolateral Integrins—membrane proteins that maintain integrity of basolateral membrane by binding to collagen and laminin in basement membrane. FIGURE 2.2-2. 

Tight junction (zonula occludens)—prevents paracellular movement of solutes; composed of claudins and occludins. Adherens junction (zonula adherens)—below tight junction, forms “belt” connecting actin cytoskeletons of adjacent cells with CADherins (Ca2+-dependent adhesion proteins). Loss of E-cadherin promotes metastasis. Desmosome (macula adherens)—structural support via keratin interactions. Autoantibodies → pemphigus vulgaris. Gap junction—channel proteins called connexons permit electrical and chemical communication between cells. Cell membrane Basement membrane Hemidesmosome—connects keratin in basal cells to underlying basement membrane. Autoantibodies →bullous pemphigoid. (Hemidesmosomes are down “bullow”).

Epithelial cell junctions. (Reproduced with permission from USMLE-Rx.com.)

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TA B L E 2.2 - 2. 

DERMATOLOGY

Types and Mechanisms of Hypersensitivity Reactions

Description

Mechanism

Comments

Examples

Type I Anaphylactic and atopic Mast cell or basophil

Fc receptor

Antigen cross-links preformed

First and Fast (like

surface-bound IgE on mast

anaphylaxis)

cells and basophils, triggering the release of vasoactive

Types I, II, and III are all antibody mediated

Anaphylaxis (bee sting, food allergy), asthma, urticaria, urticarial drug reactions, local wheal and flare

amines like histamine Reaction develops rapidly as a result of preformed antibody IgE

Ag

Type II Cytotoxic

IgM and IgG bind to antigen on an “enemy” cell, leading IgG

C Cell

Cy-2-toxic Antibody and comple-

Autoimmune hemolytic anemia, erythroblastosis

to lysis by complement or

ment lead to formation

fetalis, Goodpasture syn-

phagocytosis

of the membrane attack

drome, rheumatic fever

complex (MAC)

IgG

C = complement Type III Immune complex

Antigen-antibody complexes fix

Ag

C

Imagine an immune

Polyarteritis nodosa, immune

complement, which attracts

complex as three things

complex glomerulonephritis,

PMNs; PMNs release lyso-

stuck together: antigen-

SLE, rheumatoid arthritis

somal enzymes

antibody-complement Includes many glomerulonephritides and vasculitides

Ag

Type IV Delayed (cell-mediated) type

Sensitized T lymphocytes encounter antigen and then

APC

release lymphokines (leading to macrophage activation)

Fourth and final (last)—delayed

TB skin tests, transplant rejection, contact dermatitis

Cell mediated, not antibody mediated; therefore, it is not transferable by serum

Th cells

Modified with permission from Le T et al. First Aid for the USMLE Step 1 2016. New York, NY: McGraw-Hill Education; 2016.

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KEY FACT

F I G U R E 2 . 2 - 3 .   Atopic dermatitis. Lichenification, excoriations, and ill-defined, scaly erythematous plaques are characteristic. (Reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency

Long-term use of immunomodulating medications may ↑ the risk for developing lymphoma.

Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011.)

KEY FACT

ATOPIC DERMATITIS (ECZEMA)

A chronic inflammatory dermatitis that classically manifests in infancy and persists into adulthood. It is characterized by a defective epidermal barrier, causing sensitization, inflammation, pruritus, and ultimately lichenification (see Figure 2.2-3). History/PE ■ Look for a strong family history of asthma, eczema, and allergic rhinitis (“atopic triad”) as well as food allergies. ■ Patients are at ↑ risk for 2° bacterial (Staphylococcus aureus or Streptococcus pyogenes) and viral (HSV or molluscum) infection due to constant waxing and waning cycles of pruritus and excoriation. ■ Triggers include climate, food, skin irritants, allergens, and emotional factors. ■ Manifestations by age group: ■ Infants: Erythematous, edematous, weeping, pruritic vesicles, papules, and plaques on the face, scalp, and extensor surfaces of the extremities. The diaper area is often spared. ■ Children: Dry, scaly, pruritic, excoriated vesicles, papules, and plaques in the flexural areas and neck. ■ Adults: Lichenification and dry, fissured skin in a flexural distribution. Often, there is hand or eyelid involvement. Diagnosis Characteristic exam findings and history are sufficient. Excluding contact dermatitis by history and anatomic distribution is important. KOH prep can help distinguish chronic eczema from tinea. Mild peripheral eosinophilia and ↑IgE may be seen but have no diagnostic value.

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Erythema toxicum neonatorum typically begins 1–3 days after delivery and presents with red papules, pustules, and/or vesicles with surrounding erythematous halos. ↑ Eosinophils are present in the pustules or vesicles. This benign eruption usually resolves in 1–2weeks with no treatment.

F I G U R E 2 . 2 - 4 .   (Reproduced with permission from Dr. Richard Usatine).

An infant with a history of eczema treated with corticosteroids is brought in with a new-onset rash and fever. Physical exam reveals grouped monomorphic vesicles involving eczematous areas of the infant’s extremities and face (see Figure 2.2-4). What is the appropriate therapy?

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DERMATOLOGY Treatment ■ The primary goal of therapy is to break the itch-scratch cycle with agents targeted at inflammation, pruritus, and xerosis (dry skin). ■ Topical corticosteroids are first-line therapy for flares, but watch out for atrophy, telangiectasias, and rebound flares with prolonged use. Topical calcineurin inhibitors (eg, tacrolimus) are useful as steroid-sparing agents for moderate to severe eczema for patients > 2 years of age. ■ H1-blockers may be used for relief of pruritus. Choose a first-generation H1-blocker (eg, hydroxyzine) for nighttime use. ■ Aggressive use of emollients, avoidance of harsh soaps, and limiting hot showers after resolution of acute flares will prevent future episodes. CONTACT DERMATITIS

A type IV hypersensitivity reaction that results from contact with an allergen to which the patient has previously been exposed and sensitized such as nickel, poison ivy, perfumes/deodorants, and neomycin. More common in adults.

FIGURE 2.2-5. 

Contact dermatitis.

Shown are erythematous papules and vesicles with serous weeping localized to areas of contact with the offending agent. (Reproduced with permission from Hurwitz

RM. Pathology of the Skin: Atlas of Clinical-Pathological Correlation, 2nd ed. Stamford, CT: Appleton & Lange; 1998.)

KEY FACT Remember that patch testing results are affected by topical steroids and calcineurin inhibitors but not antihistamines, since type IV hypersensitivity reactions are not histamine-mediated.

History/PE ■ Presents with pruritus and an eczematous rash, with the distribution of the rash often mimicking the contact event (see Figure 2.2-5). Characteristic distributions are seen where makeup, clothing, perfume, nickel jewelry, and plants come into contact with the skin. ■ Often described as a “linear” or “angular” rash. It can spread over the body via transfer of allergen by the hands or via circulating T-lymphocytes. ■ Frequently implicated allergens: Poison ivy, poison oak, nickel, topical antibiotics, cosmetics, and latex. Diagnosis Characteristic exam findings and history are sufficient. Excluding atopic dermatitis (eczema) is important. Patch testing can be used to establish the causative allergen after the acute-phase eruption has been treated. Treatment The best initial treatment is topical corticosteroids and allergen avoidance. In severe cases, a systemic corticosteroid may be needed. SEBORRHEIC DERMATITIS

A common chronic inflammatory skin disease that may be caused by a reaction to Malassezia furfur, a generally harmless yeast found in sebum and hair follicles. It has a predilection for areas with sebaceous glands.

This infant has eczema herpeticum, a medical emergency that is due to the propensity for HSV infection to spread systemically, potentially affecting the brain. IV acyclovir must be started immediately!

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History/PE ■ Rash presentation varies with age: ■ Infants: Severe, red diaper rash with yellow scale, erosions, and blisters. Scaling and crusting (“cradle cap”) may be seen on the scalp (see Figure 2.2-6A). ■ Children/adults: Ill-defined red, scaly thin plaques are seen around the ears, eyebrows, nasolabial fold, midchest, and scalp (see Figure2.2-6B). ■ Patients with HIV/AIDS, psychotic disorders, and Parkinson disease can develop severe, widespread seborrheic dermatitis.

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A

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B

F I G U R E 2 . 2 - 6 .   Seborrheic dermatitis. (A) Seborrheic dermatitis (cradle cap) in an infant. Note the yellow, scaly crust present on the infant’s scalp with an area of erosion. (B)Photo-exacerbated seborrheic dermatitis, affecting the face only at sites of predilection for the seborrheic eruption. (Image A reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011. Image B reproduced with permission from Goldsmith LA et al. Fitzpatrick’s Dermatology in General Medicine, 8th ed. New York, NY: McGraw-Hill; 2012.)

Diagnosis Characteristic exam findings and history are sufficient. Can be confused with atopic dermatitis, contact dermatitis, tinea, or psoriasis. Treatment Treat adults with ketoconazole, selenium sulfide or zinc pyrithione shampoos for the scalp, and topical antifungals (ketoconazole cream) and/or topical corticosteroids for other areas. Cradle cap often resolves with routine bathing and application of emollients in infants. STASIS DERMATITIS

Lower extremity dermatitis due to venous hypertension forcing blood from the deep to the superficial venous system. Venous hypertension is often a result of venous valve incompetence or flow obstruction. It commonly involves the medial ankle in patients with deep vein thrombosis (DVT) history, chronic edema, and long periods of standing. If untreated, the area can become inflamed, exudative, and hyperpigmented from hemosiderin deposition (see Figure 2.2-7). Stasis ulcers may develop. Treat early with leg elevation, compression stockings, emollients, and topical steroids. PSORIASIS

A T-cell–mediated inflammatory dermatosis characterized by well-demarcated, erythematous plaques with silvery scales (see Figure 2.2-8A) due to dermal inflammation and epidermal hyperplasia. Psoriasis can begin at any age. History/PE ■ Lesions are classically found on the extensor surfaces, including the elbows and knees. Scalp and lumbosacral regions are often involved. Nails are frequently affected with pitting, “oil spots,” and onycholysis (lifting of the nail plate, see Figure 2.2-8B).

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FIGURE 2.2-7. 

Stasis dermatitis.

Venous ulceration with stasis dermatitis, edema, and varicosities. (Reproduced with permission from Goldsmith LA et al. Fitzpatrick’s Dermatology in General Medicine, 8th ed. New York, NY: McGraw-Hill; 2012.)

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A

B

F I G U R E 2 . 2 - 8 .   Psoriasis. (A) Skin changes. The classic sharply demarcated plaques with silvery scales are commonly located on the extensor surfaces (eg, elbows, knees). (B) Nail changes. Note the pitting, onycholysis, and “oil spots.” (Image A reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas and Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2013. Image B reproduced with permission from Hurwitz RM. Pathology of the Skin: Atlas of Clinical-Pathological Correlation, 2nd ed. Stamford, CT: Appleton & Lange; 1998.)

Lesions initially appear small but may become confluent and can be provoked by local irritation or trauma (Koebner phenomenon). Some medications such as β-blockers, lithium, and ACE inhibitors (ACEIs), can worsen psoriatic lesions. ■ Up to 30% develop psoriatic arthritis (affecting small joints of the hands and feet). ■

KEY FACT If a rash involves the extensor surfaces, think psoriasis. If a rash involves the flexor surfaces, think atopic dermatitis.

KEY FACT “Sausage digits” and pencil-in-cup x-ray findings are suggestive of psoriatic arthritis.

Diagnosis ■ Characteristic exam findings and history are sufficient. Classical presentation: Auspitz sign (pinpoint bleeding when scale is scraped) overlying well-demarcated, erythematous plaques with silvery “micaceous” scale. ■ Perform a biopsy if diagnosis is uncertain. Histology shows a thickened epidermis, elongated rete ridges, an absent granular cell layer, preservation of nuclei in the stratum corneum (parakeratosis), and a sterile neutrophilic infiltrate in the stratum corneum (Munro microabscesses). Treatment ■ Local disease: Manage with topical steroids, calcipotriene (vitamin D derivative), and retinoids such as tazarotene or acitretin (vitamin A derivative). ■ Severe disease or presence of psoriatic arthritis: Methotrexate or anti– tumour necrosis factor (TNF) biologics (etanercept, infliximab, adalimumab). Newer agents such as ustekinumab (anti-interleukin [IL]-12/23), secukinumab (anti-IL17), and UV light therapy can be used for extensive skin involvement (except in immunosuppressed patients who can develop skin cancer from UV light). ■ Before starting methotrexate or anti-TNF biologics, patients should at a minimum get a complete blood count (CBC), comprehensive metabolic panel (CMP), hepatitis panel, and a purified protein derivative (PPD). URTICARIA (HIVES)

Results from the release of histamine and prostaglandins from mast cells in a type I hypersensitivity response. Sharply demarcated edematous plaques with

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F I G U R E 2 . 2 - 9 .   Urticaria (hives) and angioedema. This patient has urticaria occurring on the face, neck, and shoulders with orbital angioedema. (Reproduced with permission from Goldsmith LA et al. Fitzpatrick’s Dermatology in General Medicine, 8th ed. New York, NY: McGraw-Hill; 2012.)

surrounding erythema (“wheal and flare”) are seen, with each lesion lasting 6 weeks). History/PE ■ Urticaria lesions (wheals) are reddish or white transient papules or plaques representing dermal edema. Lesions may be widespread and last a few hours. ■ In severe allergic reactions, extracutaneous manifestations can include tongue swelling, angioedema (deep, diffuse swelling often around the eyes and mouth; see Figure 2.2-9), asthma, GI symptoms, joint swelling, and fever. ■ Acute urticaria is a response to some often-unidentified trigger: food, drug, virus, insect bite, or physical stimulus (cold, heat, sun). Chronic urticaria is usually idiopathic. Diagnosis Characteristic exam findings and history are sufficient. Positive dermatographism (formation of wheals where the skin is stroked) may help. If in doubt, drawing a serum tryptase (coreleased with histamine from mast cells) can help clinch the diagnosis. It can often be difficult to determine the cause of urticaria. Treatment Treat urticaria with systemic antihistamines. Anaphylaxis (rare) requires intramuscular epinephrine, antihistamines, IV fluids, and airway support. DRUG ERUPTION

Drug eruptions can range from a mild morbilliform rash (most common, see Figure 2.2-10) to the rare but life-threatening toxic epidermal necrolysis (TEN). Maintain a high suspicion for a cutaneous drug reaction in patients who are hospitalized and develop rashes. Drugs can cause all four types of hypersensitivity reactions, and the same drug may cause different types of reactions in different persons.

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A 23-year-old woman is seen for an itchy, linear rash on her right leg. She returned from a camping trip 4 days ago and denies using any new makeup, clothing, or jewelry. What features of this presentation favor a contact dermatitis?

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F I G U R E 2 . 2 - 1 0 .   Morbilliform rash. Morbilliform rash following drug administration. (Reproduced with permission from Longo DL et al. Harrison’s Principles of Internal Medicine, 18th ed. New York, NY: McGraw-Hill; 2011.)

KEY FACT Patients with drug eruptions often have peripheral eosinophilia and eosinophils on histopathology.

History/PE ■ Non-anaphylactoid eruptions usually occur 7–14 days after exposure: If a patient reacts within 1–2 days of starting a new drug, it is probably not the causative agent. ■ Eruptions are generally widespread, relatively symmetric, and pruritic. ■ Most disappear within 1–2 weeks following removal of the offending agent. ■ Extreme complications of drug eruptions include erythroderma, drug reaction with eosinophilia, and systemic symptoms (DRESS), StevensJohnson syndrome (SJS), and TEN. Diagnosis Characteristic exam findings and history are sufficient. Excluding other causes are important, including viral exanthema, graft-versus-host disease, and autoimmune dermatoses. A skin biopsy may be helpful if the diagnosis is not clear. Treatment Discontinue the offending agent; treat symptoms with antihistamines and topical steroids to relieve pruritus. In severe cases, systemic steroids and/or intravenous immunoglobulin may be used.

KEY FACT EM is often triggered by infections such as HSV or mycoplasma. SJS/TEN are typically caused by drugs. Both are type IV hypersensitivity reactions.

The asymmetric involvement of the rash, its linear arrangement (possibly from contact with a plant during the camping trip), and the time from exposure to rash presentation all point to contact dermatitis.

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ERYTHEMA MULTIFORME

A cutaneous reaction pattern with classic targetoid lesions (see Figure 2.2-11) that has many triggers and is often recurrent. History/PE ■ Typically, lesions start as erythematous, dusky macules that become centrally clear (classic targets have three different color zones) and then develop a blister. The palms and soles are often affected. ■ In its minor form, the disease is uncomplicated and localized to the skin. ■ Erythema multiform (EM) major involves mucous membranes. It is a distinct entity from SJS, and there is no risk for progression to TEN. ■ May have systemic symptoms, including fever, myalgias, arthralgias, and headache. Diagnosis Characteristic exam findings and history are sufficient. As opposed to SJS or TEN, in EM the Nikolsky sign is ⊝.

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FIGURE 2.2-11. 

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Erythema multiforme. (Reproduced with permission from Dr. Richard Usatine.)

Treatment ■ Symptomatic treatment is all that is necessary; systemic corticosteroids are of no benefit. ■ Minor cases can be managed supportively; major cases should be treated as burns. STEVENS-JOHNSON SYNDROME/TOXIC EPIDERMAL NECROLYSIS

SJS and TEN constitute two different points on the spectrum of life-threatening exfoliative mucocutaneous diseases that are often caused by a drug-induced immunologic reaction. The epidermal separation of SJS involves 30% of BSA. Mucosal involvement is present in > 90% of cases of SJS/TEN. History/PE ■ Exam reveals severe mucosal erosions with widespread erythematous, dusky red or purpuric macules, or atypical targetoid lesions (see Figure 2.2-12). The epidermal lesions often become confluent and show a ⊕ Nikolsky sign (separation of the superficial skin layers with slight rubbing) and epidermal detachment. ■ Mucous membranes (eyes, mouth, and genitals) often become eroded and hemorrhagic. ■ Associated with first-time exposure to drugs: sulfonamides, penicillin, seizure medications (phenytoin, carbamazepine), quinolones, cephalosporins, steroids, nonsteroidal anti-inflammatory drugs (NSAIDs). Diagnosis ■ SJS/TEN: Biopsy shows full-thickness eosinophilic epidermal necrosis. ■ Include staphylococcal scalded-skin syndrome (SSSS), graft-vs-host reaction (usually after bone marrow transplant), radiation therapy, and burns on the differential diagnosis.

KEY FACT Always include SJS and TEN in your differential diagnosis if a ⊕ Nikolsky sign is present.

KEY FACT Do not confuse SJS and TEN with SSSS. SSSS is usually seen in children < 6 years of age and does not present with targetoid lesions. SJS/TEN is generally seen in adults and is usually caused by a drug reaction.

Treatment ■ High risk for mortality. Early diagnosis and discontinuation of offending agent are critical in improving survival. ■ Patients have the same complications as burn victims—thermoregulatory and electrolyte disturbances and 2° infections, so cover the skin and manage fluids and electrolytes.

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F I G U R E 2 . 2 - 1 2 .   Toxic epidermal necrolysis. Note the diffuse erythematous bullae and areas of sloughing 2° to the full-thickness necrosis of the epidermis. (Reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011.)

MNEMONIC Causes of erythema nodosum—

NODOSUM NO cause (60% idiopathic) Drugs: sulfa, NSAIDs, iodides Oral contraceptives Sarcoidosis Ulcerative colitis/Crohn disease Microbiology (TB, leprosy, histoplasmosis, chronic infection)

Data on pharmacologic therapy with steroids, cyclosporine, and IVIG is mixed.

ERYTHEMA NODOSUM

A panniculitis (inflammatory process of the subcutaneous adipose tissue) triggered by infection (Streptococcus, Coccidioides, Yersinia, TB), drugs (sulfonamides, antibiotics, oral contraceptive pills [OCPs]), and chronic inflammatory diseases (sarcoidosis, Crohn disease, ulcerative colitis, Behçet disease). History/PE ■ Painful, erythematous nodules appear on the patient’s anterior shins (see Figure 2.2-13) and slowly spread, turning brown or purple. Patients may present with fever and joint pain. ■ Patients with erythema nodosum may have a false-⊕ venereal disease research laboratory (as in systemic lupus erythematosus). Diagnosis Characteristic exam findings and history are sufficient. A biopsy may help establish the diagnosis. Workup with an ASO titer, PPD in high-risk patients, an chest x-ray (CXR) to rule out sarcoidosis, or inflammatory bowel disease workup based on the patient’s complaints.

F I G U R E 2 . 2 - 1 3 .   Erythema nodosum. Erythematous plaques and nodules

are commonly located on pretibial areas. Lesions are painful and indurated but heal spontaneously without ulceration.

(Reproduced with permission from Hurwitz RM. Pathology of the Skin: Atlas of Clinical-Pathological Correlation, 2nd ed. Stamford, CT: Appleton & Lange; 1998.)

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Treatment Investigate and treat the underlying disease. Cool compresses, bed rest, and NSAIDs are helpful. Potassium iodide may be considered for persistent cases. BULLOUS PEMPHIGOID/PEMPHIGUS VULGARIS

Table 2.2-3 contrasts the clinical features of bullous pemphigoid with those of pemphigus vulgaris. Figure 2.2-2 shows the location of antibodies.

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TA B L E 2.2 - 3. 

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Acquired, Autoimmune Blistering Dermatoses

Variable

Bullous Pemphigoid

Pemphigus Vulgaris

Location of blisters

Basement membrane zone

Intraepidermal

Autoantibodies

Against hemidesmosomal proteins

Anti-desmoglein; desmoglein is responsible for keratinocyte adhesion

Blister appearance

Firm, stable blisters (see Image A); may

Erosions are more common than intact blisters (see Image B)

be preceded by urticaria

because of the lack of keratinocyte adherence

Nikolsky sign

Mucosal involvement

Rare

Common

Patient age

Usually > 60 years of age

Usually 40–60 years of age

Associated medication triggers

Generally idiopathic

ACEIs, penicillamine, phenobarbital, penicillin

Mortality

Rare and milder course

Possible

Diagnosis

Look for tense bullae on the trunk. Most

Look for flaccid/unroofed bullae and erosions on the extremi-

accurate test: skin biopsy with direct

ties and mucous membranes

immunofluorescence, and/or ELISA Treatment

High-dose steroids (prednisone) + immunomodulatory therapy

Topical steroids can be sufficient

(azathioprine, mycophenolate mofetil, IVIG, rituximab)

A

  B

Images reproduced with permission from Wolff K, Johnson RA. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 6th ed. New York, NY: McGraw-Hill; 2009.

Infectious Disease Manifestations of the Skin VIRAL DISEASES

Herpes Simplex

Painful, recurrent vesicular eruption of the mucocutaneous surfaces due to infection with HSV. HSV-1 usually produces oral-labial lesions, whereas HSV-2 usually causes genital lesions. The virus spreads through epidermal cells, fusing them into giant cells. The local host inflammatory response causes erythema and swelling.

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KEY FACT Dermatitis herpetiformis (DH) has vesicles and erosions like herpes but is caused by HSV. DH consists of pruritic papules, vesicles, bullae, and erosions on the elbows (see Figure 2.2-14), knees, buttocks, neck, and scalp, and it is associated with celiac disease (15–25%). Treat with dapsone and a gluten-free diet.

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F I G U R E 2 . 2 - 1 4 .   Dermatitis herpetiformis. This disorder typically dis-

plays pruritic, grouped papulovesicles on elbows, knees, buttocks, and posterior scalp. Vesicles are often excoriated due to associated pruritus. (Reproduced with per-

mission from Longo DL et al. Harrison’s Principles of Internal Medicine, 18th ed. New York, NY: McGraw-Hill; 2011.)

KEY FACT No multinucleated giant cells on Tzanck smear? Tzanck goodness it’s not herpes!

DERMATOLOGY History/PE ■ The initial infection is by direct contact, after which the herpesvirus remains dormant in local nerve ganglia. 1° Episodes are generally longer and more severe than recurrences. ■ Onset is preceded by prodromal tingling, burning, or pain but can also present with lymphadenopathy, fever, discomfort, malaise, and edema of involved tissue. ■ Recurrences are limited to mucocutaneous areas innervated by the involved nerve. ■ Recurrent oral herpes (HSV-1): The common “cold sore,” or herpes labialis, which presents as a cluster of crusted vesicles on an erythematous base (see Figure 2.2-15A). Often triggered by sun and fever. ■ Recurrent genital herpes (HSV-2): Unilateral and characterized by a cluster of blisters on an erythematous base, but with less pain and systemic involvement than the 1° infection. Diagnosis ■ Clinical diagnosis. ■ Most accurate test: Viral culture or polymerase chain reaction (PCR) test of lesion. Direct fluorescent antigen is the most rapid test. ■ Classic multinucleated giant cells on Tzanck smear (Figure 2.2-15B) support the diagnosis. Treatment ■ First episode: Immunocompetent patients with small lesions only need supportive therapy, but acyclovir, famciclovir, or valacyclovir may be given to speed healing and reduce shedding. ■ Immunocompromised patients or those with a severe painful outbreak should receive an antiviral drug within 72 hours of the start of the outbreak. ■ Recurrent episodes: Minor lesions can be managed supportively. Acyclovir, famciclovir, or valacyclovir can be given during the episode to reduce healing time by ∼ 2 days. ■ Severe frequent recurrences (> 6 outbreaks per year): Daily prophylaxis with acyclovir, famciclovir, or valacyclovir. ■ In AIDS patients, HSV can persist, with ulcers remaining resistant to antiviral therapy. Symptomatic HSV infection lasting > 1 month can be considered an AIDS-defining illness.

A

B

F I G U R E 2 . 2 - 1 5 .   Herpes simplex. (A) Herpes labialis. (B) Positive Tzanck smear in genital herpes (HSV-2). Note multinucleated giant cells (arrows). (Image A reproduced with permission from the US Department of Health and Human Services and Dr. Herrmann. Image B reproduced with permission from Yale Rosen.)

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Varicella-Zoster Virus

Varicella-zoster virus (VZV) causes two different diseases, varicella and herpes zoster—with transmission occurring via respiratory droplet or by direct contact. VZV has an incubation period of 10–20 days, with contagion beginning 24 hours before the eruption appears and lasting until lesions have crusted. History/PE ■ Varicella: ■ A prodrome of malaise, fever, headache, and myalgia occurs 24 hours before the rash. ■ Pruritic lesions appear in crops over 2–3 days, evolving from red macules to vesicles that then crust over. ■ At any given time, patients may have all stages of lesions present. The trunk, face, scalp, and mucous membranes are involved. ■ In adults, chickenpox is often more severe, with systemic complications such as pneumonia and encephalitis. ■ Zoster: ■ Herpes zoster (shingles) represents the recurrence of VZV in a specific nerve, with lesions cropping up along the nerve’s dermatomal distribution. Outbreaks are usually preceded by intense local pain followed by grouped blisters on an erythematous base (see Figure 2.2-16). Zoster can become disseminated in immunocompromised persons. ■ Older patients with zoster can develop postherpetic neuralgia (severe nerve pain that persists for months at the infection site). Diagnosis Characteristic exam findings and history are sufficient. Treatment ■ Varicella is self-limited in healthy children. A vaccine is available. ■ Adults should be treated with systemic acyclovir to treat symptoms and prevent complications. Pain control with neuropathic agents (gabapentin, tricyclic antidepressants). ■ Postexposure prophylaxis is rarely needed, as most patients in the United States have been vaccinated or had childhood varicella. If needed, immunocompromised individuals, pregnant women, and newborns should receive varicella-zoster immune globulin within 10 days of exposure. Immunocompetent adults should receive a varicella vaccine within 5 days of exposure.

FIGURE 2.2-16. 

Varicella zoster.

The unilateral dermatomal distribution of the grouped vesicles on an erythematous base is characteristic. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 5th ed. New York, NY: McGraw-Hill; 2005.)

KEY FACT Immunocompromised patients, cancer patients (especially those undergoing chemotherapy), the elderly, and severely stressed individuals are more susceptible to zoster infection.

KEY FACT If you see giant molluscum contagiosum, think HIV or ↓ cellular immunity.

Molluscum Contagiosum

A poxvirus infection that is most common in young children and in AIDS patients. It is spread by direct skin-to-skin contact (sports, sex) or sharing infected clothing or towels. History/PE ■ Presents as tiny flesh-colored dome-shaped waxy papules, frequently with central umbilication. In children, lesions are found on the trunk, extremities, or face (see Figure 2.2-17). In adults, they are commonly found on the genitalia and in the perineal region. Typically spares palms and soles. ■ Lesions are asymptomatic unless they become inflamed or irritated.

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A 28-year-old African-American woman is seen by her physician for a new-onset, painful rash. She noticed the erythematous nodules on both lower legs 3 days ago. She has a history of uveitis. What is the next best step to identify the underlying cause of this rash?

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DERMATOLOGY Diagnosis ■ Characteristic exam findings and history are sufficient. ■ Most accurate test: If the diagnosis is uncertain, the most accurate test is the presence of large inclusion or molluscum bodies seen under the microscope.

F I G U R E 2 . 2 - 1 7 .   Molluscum contagiosum. (Reproduced with permission from Dr. Richard Usatine.)

Treatment ■ Local destruction: Curetting, freezing, or applying cantharidin (a blistering agent) to the lesions. ■ In children, lesions resolve spontaneously over months to years and are occasionally left untreated. Verrucae (Warts)

Warts are caused by human papillomavirus (HPV) and can occur on skin, mucous membranes, and other epithelia. Although usually benign, some subtypes of HPV (especially 16 and 18) lead to squamous malignancies. Spread is by direct contact. History/PE ■ Common warts are most often seen on the hands, though they can occur anywhere. ■ Classic genital warts (condyloma acuminatum, caused by HPV subtypes 6 and 11) are cauliflower-like papules or plaques appearing on the penis, vulva, or perianal region (see Figure 2.2-18). ■ Mothers with genital HPV can transmit laryngeal warts to the infant by aspiration during delivery. Diagnosis ■ Characteristic exam findings and history are sufficient. Acetic acid turns lesions white and can be used to visualize mucosal lesions. ■ Most accurate test: PCR of the lesion for HPV. Treatment Genital warts are treated locally with cryotherapy, podophyllin, trichloroacetic acid, imiquimod, or 5-FU. Cervical lesions are monitored for evidence of malignancy (see Gynecology chapter).

CXR to look for bilateral hilar adenopathy, which is suggestive of sarcoidosis. Erythema nodosum is the most common nonspecific cutaneous manifestation of sarcoidosis, after cutaneous sarcoidosis.

A

B

F I G U R E 2 . 2 - 1 8 .   Verrucae (warts) caused by HPV. (A) Soft, tan-colored, cauliflower-like papules on hands. (B) Condyloma acuminatum on genitals. (Reproduced with permission from Dr. Richard Usatine.)

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BACTERIAL INFECTIONS

Skin and soft-tissue bacterial infections are a diverse group of diseases that manifest in different ways: red, inflamed papules, and pustules centered around hair follicles are characteristic of folliculitis, while rapidly expanding crepitant dusky plaques suggest necrotizing fasciitis. Often, the clinical manifestation and treatment approach are dictated by the causative organism and the location of the infectious process within the layers of the skin and soft tissues. See Figure 2.2-19 for an illustration of the layers of the skin. Impetigo

Local infection of the epidermis that primarily occurs in children and is caused by both group A streptococcal and staphylococcal organisms. It is transmitted by direct contact. Streptococcal impetigo can be complicated by poststreptococcal glomerulonephritis. History/PE ■ Common type: Pustules and honey-colored crusts on an erythematous base, often on the face around the mouth, nose, or ears (see Figure2.2-20). ■ Bullous type: Characterized by bulla in addition to crusts that can involve the acral surfaces. Bullous impetigo is almost always caused by S aureus and can evolve into SSSS. Diagnosis Clinical. Obtaining a culture is rarely useful. Treatment ■ Use antibiotics with antistaphylococcal activity based on severity and suspicion of methicillin-resistant Staphylococcus aureus (MRSA): ■ Mild localized disease: Topical antibiotics (mupirocin) are sufficient. ■ Severe disease (non-MRSA): Oral cephalexin, dicloxacillin, or erythromycin.

Folliculitis Impetigo

Epidermis

Erysipelas Dermis Hair follicle Cellulitis

Subcutaneous fat Necrotizing fasciltis

Fascia Muscle FIGURE 2.2-19. 

Skin layers (blue) and depths of infection (red).

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F I G U R E 2 . 2 - 2 0 .   Impetigo. Dried pustules with a superficial golden-brown crust are most commonly found around the nose and mouth. (Reproduced with permission from Bondi EE. Dermatology: Diagnosis and Therapy. Stamford, CT: Appleton & Lange; 1991.)

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Severe disease (MRSA likely): Oral trimethoprim-sulfamethoxazole, clindamycin, or doxycycline.

KEY FACT Scarlet fever: “Sandpaper” rash or “sunburn with goose bumps” appearance; strawberry tongue. Caused by Streptococcus pyogenes. Treat with penicillin.

KEY FACT Salmonella typhi: Small pink papules on the trunk (“rose spots”) in groups of 10–20 plus fever and GI involvement. Treat with fluoroquinolones and thirdgeneration cephalosporins. Consider cholecystectomy for chronic carrier state.

KEY FACT Ludwig angina is a bilateral cellulitis of the submental, submaxillary, and sublingual spaces that usually results from an infected tooth. It presents with dysphagia, drooling, fever, and a red, warm mouth, and can lead to death from asphyxiation.

Cellulitis

A deeper skin infection involving dermis and subcutaneous tissue. Commonly caused by staphylococci or group A streptococci originating from damaged skin or a systemic source. Community-acquired MRSA is an increasingly common cause of purulent cellulitis. Risk factors include diabetes mellitus (DM), IV drug use, venous stasis, and immune compromise. History/PE ■ Presents with red, hot, swollen, tender skin. Fever and chills are common. ■ Erysipelas is a type of cellulitis usually caused by streptococcus that is confined to the dermis and lymphatic tissue, creating a characteristically raised, indurated, well-demarcated, erythematous area of skin (see Figure2.2-21). Diagnosis ■ Characteristic exam findings and history are sufficient. Wound and/or blood cultures may aid in diagnosis and help determine antibiotic sensitivities. ■ Rule out abscess, osteomyelitis, and necrotizing fasciitis. Treatment ■ Topical antibiotics are ineffective due to depth of infection. ■ Use 5–10 days of oral antibiotics. IV antibiotics are used if there is evidence of systemic toxicity, comorbid conditions, DM, extremes of age, or hand or orbital involvement. Antibiotic choices like those used to treat impetigo. Necrotizing Fasciitis

Deep infection along a fascial plane causing severe pain followed by anesthesia and necrosis. It is usually caused by a mixed infection of anaerobic and aerobic bacteria that includes S aureus, Escherichia coli, and Clostridium perfringens. Ten percent of cases are caused by S pyogenes. A history of trauma or recent surgery to the affected area is sometimes elicited. History/PE ■ Acute onset of pain and swelling progressing to anesthesia at the site of trauma or surgery. ■ An area of erythema quickly spreads over the course of hours to days. Margins move out into normal skin, and skin becomes dusky or purplish near the site of insult, ultimately leading to necrosis (see Figure 2.2-22). ■ If a necrotic area is open, gloved fingers can easily pass between two layers to reveal yellow-green necrotic fascia (infection spreads quickly in deep fascia). ■ Important signs of tissue necrosis are gas production (crepitus on physical exam), a putrid discharge, bullae, severe pain, lack of inflammatory signs, and intravascular volume loss.

F I G U R E 2 . 2 - 2 1 .   Erysipelas of the face. (Reproduced from Goldsmith LA et al. Fitzpatrick’s Dermatology in General Medicine, 8th ed. New York, NY: McGraw-Hill; 2012.)

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Diagnosis Strong suspicion of necrotizing fasciitis based on clinical exam and imaging (showing gas in soft tissue) requires immediate surgical exploration and debridement; tissue culture helps determine the organisms involved.

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F I G U R E 2 . 2 - 2 2 .   Necrotizing fasciitis of the lower extremity. Patient presented with hypotension due to late necrotizing fasciitis and myositis due to β-hemolytic streptococcal infection. (Reproduced with permission from Brunicardi FC et al. Schwartz’s Principles of Surgery, 9th ed. New York, NY: McGraw-Hill; 2010.)

Treatment ■ Surgical emergency: Early and aggressive surgical debridement is critical. ■ In most cases, broad-spectrum coverage is necessary. If Streptococcus is the principal organism involved, penicillin G is the drug of choice. Clindamycin is added to ↓ exotoxin production. For anaerobic coverage, give metronidazole or a third-generation cephalosporin. Folliculitis

Inflammation and/or infection of a hair follicle. Typically caused by infection with Staphylococcus, Streptococcus, and gram ⊝ bacteria. Occasionally can be caused by yeast such as Candida albicans or Malassezia furfur. Can occur on any body area with follicles. History/PE ■ Presents as a tiny pustule at the opening of a hair follicle with a hair penetrating it. When the infection is deeper, a furuncle, or hair follicle abscess, develops. Furuncles may disseminate to adjacent follicles to form a carbuncle (see Figure 2.2-23). ■ Patients with DM or immunosuppression are at ↑ risk. Eosinophilic folliculitis can occur in AIDS patients, in whom the disease is intensely pruritic and resistant to therapy.

F I G U R E 2 . 2 - 2 3 .   Carbuncle due to methicillin-sensitive S aureus. A very

large, inflammatory plaque studded with pustules, draining pus, on the nape of the neck. Infection extends down to the fascia and has formed from a confluence of many furuncles. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY, McGrawHill; 2013.)

KEY FACT Fournier gangrene is a form of necrotizing fasciitis that is localized to the genital and perineal area.

KEY FACT Pseudomonas aeruginosa infection leads to “hot tub folliculitis.”

Diagnosis Characteristic exam findings and history are sufficient. KOH prep or biopsy may be needed if fungus or eosinophilic folliculitis is suspected. Treatment Topical antibiotics (mupirocin) treat mild superficial disease. More severe disease is treated similarly to impetigo, with cephalexin or dicloxacillin orally, escalating to clindamycin or doxycycline if MRSA is suspected. Acne Vulgaris

A skin disease common among adolescents. The pathogenesis involves hormonal activation of sebaceous glands, the development of the comedo

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A 7-year-old girl presents with fever, sore throat, and a facial rash. Physical exam reveals an erythematous pharynx without exudates and a red, painful patch on the child’s cheek that the mother notes has been expanding. What is the appropriate therapy?

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(plugged pilosebaceous unit), and involvement of Propionibacterium acnes in the follicle, causing inflammation. Acne lesions can be caused by medications (lithium, corticosteroids) or by topical occlusion (cosmetics).

KEY FACT Ironically, erythromycin does not cause erythema with sun exposure. It is tetracycline and doxycycline that can cause photosensitivity!

KEY FACT General progression of acne treatment based on severity: topical benzoyl peroxide, retinoid, or antibiotic → oral antibiotic → oral isotretinoin.

KEY FACT Antibiotics are not needed for pilonidal cysts unless cellulitis is present; if antibiotics are prescribed, both aerobic and anaerobic coverage is required.

History/PE ■ There are three stages of acne lesions as follows: ■ Comedonal: Open (“blackheads”) or closed (“whiteheads”) comedones. ■ Inflammatory: The comedones rupture, creating inflammatory papules, pustules, nodules, and cysts. ■ Scar: May develop as inflammation heals. Picking at lesions exacerbates scarring. ■ Acne develops at puberty and typically persists for several years. Male adolescents are more likely to have severe cystic acne than are their female contemporaries. ■ Women in their 20s can have a variant that flares cyclically with menstruation, with fewer comedones but more painful lesions on the chin. ■ Drug-induced acne is a common side effect of glucocorticoid use. These lesions are monomorphic papules without comedones, nodules, or cysts, and do not respond to standard acne therapy. However, they usually resolve with discontinuation of the steroids. Diagnosis Characteristic exam findings and history are sufficient. Treatment ■ Mild–moderate acne: Topical retinoids are the most effective topical agent for comedonal acne. Topical benzoyl peroxide kills Propionibacterium acnes. Consider adding a topical antibiotic (clindamycin, erythromycin) if response to other topicals is inadequate. ■ Moderate–severe acne: In addition to topical treatment as above, add oral antibiotics such as doxycycline or minocycline. When acne is severe and all treatments are failing, oral retinoids (isotretinoin) are the most effective treatment. All other medications are stopped. ■ Isotretinoin is a teratogen and elevates LFTs. Patients require periodic blood tests to check liver function, cholesterol, and triglycerides. Given the teratogenicity of isotretinoin, female patients must be monitored with baseline and serial pregnancy tests. Pilonidal Cysts

Abscesses in the sacrococcygeal region. Thought to be a foreign body reaction to entrapped hairs. Most common in 20- to 40-year-old men. History/PE Presents as an abscess at the superior gluteal cleft that can be tender, fluctuant, and warm—sometimes associated with purulent drainage or cellulitis. Systemic symptoms are uncommon, but cysts can develop into perianal fistulas. This child has erysipelas, a rash commonly caused by group A streptococci. It can present as a small red patch on the cheek or extremities that turns into a painful, shiny red plaque. Patients often have a history of chronic cutaneous ulcers, lymphedema, or pharyngitis. Treat with penicillin.

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Diagnosis Characteristic exam findings and history are sufficient. Treatment ■ Treat with incision and drainage of the abscess followed by sterile packing of the wound. ■ Good local hygiene and shaving of the sacrococcygeal skin can help prevent recurrence.

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B

F I G U R E 2 . 2 - 2 4 .   Tinea versicolor. (A) Note the discrete, hypopigmented patches extensively involving the patient’s back. Tinea versicolor may also present as hyperpigmented macules or patches in some individuals. (B) KOH preparation shows the characteristic “spaghetti and meatballs” pattern. (Image A reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGrawHill; 2011. Image B reproduced with permission from Wolff K et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008.)

Leprosy

Disease of skin and peripheral nerves, found in southwest United States and developing countries. Caused by acid-fast bacterium Mycobacterium leprae and causes chronic granuloma formation. Patients present with loss of peripheral sensation and muscle atrophy. Treat with dapsone and rifampin. FUNGAL INFECTIONS

Tinea Versicolor

Caused by Malassezia species, a yeast that is part of normal skin flora. Humid and sweaty conditions as well as oily skin can make the organism pathogenic. Cushing syndrome and immunosuppression are also risk factors. History/PE ■ Presents with small scaly patches of varying color on the chest or back (see Figure 2.2-24A). ■ Patches can be hypopigmented as a result of interference with melanin production, or hyperpigmented/pink due to inflammation. Diagnosis ■ Characteristic exam findings and history are sufficient. ■ Best initial test: KOH preparation of the scale revealing “spaghetti and meatballs” pattern of hyphae and spores (see Figure 2.2-24B). Treatment Treat lesions with topical ketoconazole or selenium sulfide. Candidiasis

Yeast infection or thrush, candidiasis can be caused by any Candida species but is most commonly caused by C albicans. In immunocompetent patients, it typically presents as eroded erythematous papules and plaques in moist areas such as the groin, skin folds, axillae, vagina, and below the breasts. Oral thrush is common in infancy, but in adults it is often a sign of a weakened immune system.

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A 42-year-old man is admitted for cellulitis after injuring his leg while swimming. He is febrile and has a well-demarcated area of erythema on the anterior aspect of his right knee. Antibiotics are started. Six hours later, the patient is in excruciating pain. The erythema has spread circumferentially around the knee, and the anterior aspect of the knee now has a purplish hue. What is the next best step?

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DERMATOLOGY

F I G U R E 2 . 2 - 2 5 .   Cutaneous candidiasis with satellite lesions. (Reproduced with permission from Goldsmith LA et al. Fitzpatrick’s Dermatology in General Medicine, 8th ed. New York, NY: McGraw-Hill; 2012.)

History/PE ■ Patients often have history of antibiotic or steroid use, DM, or immunocompromise. ■ Oral candidiasis: Presents with painless white plaques that can be easily scraped off to reveal erosions. ■ Candidiasis of the skin: Presents as markedly erythematous papules and plaques with occasional erosions and smaller satellite lesions (see Figure 2.2-25) seen nearby, often in skin folds. In infants, infection is often seen in the diaper area and along the inguinal folds. Diagnosis ■ Characteristic exam findings and history are sufficient. ■ Best initial test: KOH preparation of a scraping of the affected area. KOH dissolves the skin cells but leaves the Candida untouched such that candidal spores and pseudohyphae become visible. ■ Most accurate test: Fungal culture. Treatment ■ Oral candidiasis: Oral fluconazole tablets; nystatin swish and swallow, clotrimazole troches. ■ Superficial (skin) candidiasis: Topical antifungals; keep skin clean and dry. ■ Diaper rash: Topical nystatin. FIGURE 2.2-26. 

Tinea corporis.

Note the ringworm-like rash with a scaly, erythematous, distinct border and central clearing. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008.)

Emergent surgical consult for debridement given the clinical suspicion for necrotizing fasciitis, a surgical emergency.

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Dermatophyte Infections

Dermatophytes only live in tissues with keratin (skin, nails, and hair) and are commonly seen. Causative organisms include Trichophyton (most common), Microsporum, and Epidermophyton species. Risk factors include DM, ↓peripheral circulation, immune compromise, and chronic maceration of skin (from athletic activities). History/PE Varies according to subtype: ■ Tinea corporis: Scaly, pruritic eruption with a sharp, irregular border, often with central clearing (see Figure 2.2-26). Can be seen in

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B

A FIGURE 2.2-27. 

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C

Cutaneous mycoses. (A) Tinea pedis; (B) tinea cruris; (C) tinea capitis. (Reproduced with permission from Dr. Richard Usatine.)

immunocompromised patients or in children following contact with infected pets. ■ Tinea pedis/manuum (see Figure 2.2-27A): Presents as chronic interdigital scaling with erosions between the toes (athlete’s foot) or as a thickened, scaly skin on the soles (moccasin distribution). In addition, involvement of one hand is typical in the “one hand two feet syndrome.” ■ Tinea cruris (jock itch) (see Figure 2.2-27B): A fungal infection of the groin (typically sparing the scrotum) that is usually associated with tinea pedis. ■ Tinea capitis (see Figure 2.2-27C): A fungal scalp infection causing scaling and hair loss with scarring. A large inflammatory boggy mass caused by tinea capitis is called a kerion. Diagnosis ■ Clinical. ■ Best initial test: KOH skin scraping showing hyphae. ■ Most accurate test: Fungal culture. Treatment Start with topical antifungals; escalate to oral griseofulvin or terbinafine if infection is widespread or unresponsive to topicals. Treat tinea capitis with oral medications to penetrate into hair follicles; consider oral treatment for immunocompromised patients. Sporotrichosis

Infection caused by Sporothrix schenckii, a fungus found in plant matter. Often called “rose-gardener disease.” Acquired by direct contact, which causes a papule that drains odorless fluid. Additional lesions form over time along lines of lymphatic drainage, although lymphadenopathy is absent. Treat with itraconazole. PARASITIC INFECTIONS

Lice

Lice live off blood and on specific parts of the body, depending on their species (head lice, body lice, pubic lice). Lice are spread through body contact or by the sharing of bedclothes and other garments or hair accessories. They secrete local toxins that lead to pruritus.

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DERMATOLOGY History/PE ■ Patients with lice often experience severe pruritus, and 2° bacterial infection of the excoriations is a risk. Classroom breakouts of head lice are common. ■ Body lice are seen in persons with inadequate hygiene or in those with crowded living conditions. Pubic lice (called “crabs” because of their squat, crablike body shape) contain anticoagulant in their saliva, so their bites often become ecchymotic. Diagnosis Lice and their eggs (nits) can be seen on hairs or in clothes with the naked eye. Microscopy can reveal the arthropods, their eggs, and their droppings. Treatment ■ Head lice: Treat with topical permethrin, pyrethrin, benzyl alcohol, and mechanical removal. ■ Body lice: Wash body, clothes, and bedding thoroughly. Rarely, topical permethrin is needed. ■ Pubic lice: Treat with the same medications as for head lice. Scabies

Caused by Sarcoptes scabiei. The burrowing of this arthropod into the epidermis leads to pruritus that ↑ in intensity once an allergy to the mite or its products develops. 2° Bacterial infections due to scratching are common. Scabies mites are spread through close contact.

KEY FACT Lice can be seen with the naked eye. Scabies are too small and can only be identified with a microscope/ dermatoscope.

History/PE ■ Patients present with intense pruritus, especially at night and after hot showers, and erythematous papules with linear tracks, representing the burrows of the mite. ■ The most commonly affected sites are the skin folds of the hands (often includes the interdigital finger webs), wrists, axillae, and genitals. Diagnosis A history of pruritus in several family members is suggestive. The mite may be identifiable by scraping an intact tunnel and looking under the microscope for the arthropods, their eggs, and their droppings. Treatment ■ Patients should be treated with 5% permethrin from the neck down (head to toe for infants) for at least two treatments separated by 1 week, and their close contacts should be treated as well. Oral ivermectin is also effective. ■ Pruritus can persist up to 2 weeks after treatment. ■ Clothes and bedding should be thoroughly washed as for lice. Cutaneous Marva Migrans

Erythematous, serpentine, migratory rash due to infection with hookworm larvae, commonly acquired by walking barefoot on grass or sand. Treat with ivermectin.

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Ischemic Skin Disorders DECUBITUS ULCERS

Result from ischemic necrosis following continuous pressure on an area of skin that restricts microcirculation. History/PE Ulcers are commonly seen in bedridden patients who lie in the same spot for too long. An underlying bony prominence or lack of fat ↑ the likelihood of ulcer formation (sacrum, heels). Patients lacking mobility or cutaneous sensation are also at ↑ risk. Incontinence of urine or stool may macerate the skin, facilitating ulceration. Diagnosis Characteristic exam findings and history are sufficient. Occasionally, a biopsy can be performed on a nonhealing ulcer to rule out infection and/or pyoderma gangrenosum. Treatment ■ Prevention is key: Routinely reposition bedridden patients (at least once every 2 hours); special beds can distribute pressure. ■ If an ulcer develops, low-grade lesions can be treated with routine wound care, including hydrocolloid dressings. High-grade lesions require surgical debridement. GANGRENE

Necrosis of body tissue. There are three subtypes as follows: ■ Dry gangrene: Due to insufficient blood flow to tissue, typically from atherosclerosis. ■ Wet gangrene: Involves bacterial infection, usually with skin flora. ■ Gas gangrene: Due to C perfringens infection. History/PE ■ Dry gangrene: Early signs are a dull ache, cold, and pallor of the flesh. As necrosis sets in, the tissue (toes, fingers) becomes bluish-black, dry, and shriveled. Diabetes, vasculopathy, and smoking are risk factors. ■ Wet gangrene: The tissue appears bruised, swollen, or blistered with pus. ■ Gas gangrene: Occurs at sites of large trauma/surgery compromising blood flow to a region, bringing about an anaerobic environment. Bacteria rapidly destroy tissue, producing gas that separates healthy tissue and exposes it to infection. Associated with dirty wounds contaminated with dirt or bowel/fecal matter. Subcutaneous injection of black tar heroin is a risk factor. Presents with swelling and pale or dark-red skin around the injury. A medical emergency. Diagnosis Characteristic exam findings and history are sufficient. Air in soft tissue on x-ray is very suggestive of necrosis (see Figure 2.2-28).

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A 17-year-old girl is seen by a dermatologist for severe cystic acne that has been refractory to both topical and systemic antibiotics. She inquires about isotretinoin. Given this drug’s potentially hazardous side effects, what laboratory tests would be performed monthly if this patient were to be placed on isotretinoin?

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DERMATOLOGY

F I G U R E 2 . 2 - 2 8 .   Gas gangrene. X-ray of the foot showing gas tracking through soft tissues, most clearly seen overlying the calcaneus. (Reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011.)

Treatment ■ Emergency surgical debridement, with amputation if necessary, is the mainstay of treatment. Antibiotics alone do not suffice by virtue of inadequate blood flow, but they should be given as an adjuvant to surgery. ■ Hyperbaric oxygen (toxic to the anaerobic C perfringens) can be used after debridement to help with treatment.

Miscellaneous Skin Disorders ACANTHOSIS NIGRICANS F I G U R E 2 . 2 - 2 9 .   Acanthosis nigricans. Velvety, dark-brown epidermal

thickening of the armpit is seen with prominent skin fold and feathered edges.

(Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2013.)

A condition in which the skin in the intertriginous zones (neck folds, genitals, axillae) becomes hyperkeratotic and hyperpigmented with a velvety appearance (see Figure 2.2-29). ■ Associated with DM, Cushing disease, polycystic ovarian syndrome, and obesity. May also be a paraneoplastic sign of underlying adenocarcinoma (usually GI). ■ Tx: Typically not treated. Encourage weight loss, and treat the underlying endocrinopathy. ■

LICHEN PLANUS

A self-limited, recurrent, or chronic inflammatory disease affecting the skin, oral mucosa, and genitalia. Lesions classically described using the 6 P’s (planar, purple, polygonal, pruritic, papules, and plaques). It may be induced by drugs (thiazides, quinines, β-blockers) and is associated with HCV infection. ■ Hx/PE: Presents with violaceous, flat-topped, polygonal papules (see Figure 2.2-30). Wickham striae (lacy white lines) may be present on the lesion. Lesions may demonstrate prominent Koebner phenomena (lesions that appear at the site of trauma). ■

Serum or urine β-human chorionic gonadotrophin (to rule out pregnancy), liver function tests (LFTs), cholesterol, and triglycerides.

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Tx: Mild cases are treated with topical corticosteroids. For severe disease, systemic corticosteroids and phototherapy may be used.

ROSACEA

A chronic disorder of pilosebaceous units of which the etiology is unclear. Diagnosis Presentation can vary depending on the subtype as follows: Erythematotelangiectatic rosacea: Presents with central facial erythema with telangiectasias. ■ Papulopustular rosacea: Develops papules and pustules. ■ Phymatous rosacea: May lead to severe overgrowth of nasal connective tissue known as rhinophyma (see Figure 2.2-31). ■ Ocular rosacea: Can predispose to blepharitis, stye, and chalazion formation. ■

History/PE ■ Patients are middle-aged with fair skin and often have an abnormal flushing response to hot drinks, spicy foods, alcohol, and sun. There is a female predominance. ■ Often referred to as “adult acne” because it can present similarly to acne but involves an older age group.

FIGURE 2.2-30. 

Lichen planus.

Flat-topped, polygonal, sharply defined papules of violaceous color are grouped and confluent. The surface is shiny and reveals fine white lines (Wickham striae). (Reproduced with permission from Wolff K et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008.)

Treatment Topical metronidazole. For severe or ocular disease, use oral doxycycline. PITYRIASIS ROSEA

An acute dermatitis of unknown etiology that has been hypothesized to represent a reaction to a viral infection with human herpesvirus (HHV) 7 because it tends to occur in mini-epidemics among young adults.

F I G U R E 2 . 2 - 3 1 .   Rhinophyma. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2008.)

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DERMATOLOGY

F I G U R E 2 . 2 - 3 2 .   Pityriasis rosea. The round to oval erythematous plaques are often covered with a fine white scale (“cigarette paper”) and are often found on the trunk and proximal extremities. Plaques are often preceded by a larger herald patch (inset). (Reproduced with permission from Tintinalli JE et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 7th ed. New York, NY: McGraw-Hill; 2011.)

KEY FACT Pityriasis rosea spares palms and soles, whereas 2° syphilis does not.

History/PE ■ Initial lesion is classically a herald patch that is erythematous with a peripheral scale. ■ Days to weeks later, a 2° eruption appears: multiple scaling papules and plaques with a fine “cigarette paper” scale (see Figure 2.2-32). Papules are arranged along skin lines, giving a classic “Christmas tree” pattern on the patient’s back. Diagnosis Diagnosis is clinical. Confirm with KOH exam to rule out fungus (the herald patch may be mistaken for tinea corporis). Consider testing for secondary syphilis, which can present similarly. Treatment Rash heals in 6–8 weeks without any treatment. Supportive therapy to manage symptoms includes emolliation and antihistamines. VITILIGO

Autoimmune destruction of melanocytes leading to well-demarcated areas of depigmentation. Frequently associated with other autoimmune diseases, such as hypothyroidism and type I DM. Hx/PE: Sharply demarcated, depigmented macules or patches on otherwise normal skin, often on the hands, face, or genitalia (see Figure2.2-33). Vitiligo can present at any age and vary from small areas of involvement with or without progression to large areas of depigmentation. ■ Dx: Many patients have serologic markers of autoimmune disease (eg, antithyroid antibodies, DM, pernicious anemia) and occasionally present with these diseases. ■ Tx: Topical steroids, tacrolimus ointment, UV and laser therapy are used. Sunscreen prevents burns. Cover-up makeup can help with cosmetic concerns. ■

F I G U R E 2 . 2 - 3 3 .   Vitiligo of the hands. (Reproduced with permission from Dr.Richard Usatine.)

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EYELID LESIONS

Xanthelasma: Soft yellow plaques seen on the medial aspects of the eyelids bilaterally, occasionally associated with hyperlipidemia and 1° biliary cirrhosis. Serum total cholesterol is often normal. ■ Hordeolum: Painful acute eyelid gland infection (stye), usually due to Saureus and located on the edge of the lid. ■ Chalazion: Chronic inflammatory painless cyst due to a blocked eyelid gland. ■

EPIDERMAL INCLUSION CYSTS

F I G U R E 2 . 2 - 3 4 .   Inflamed epidermal inclusion cyst. (Reproduced with permission from Steven Fruitsmaak.)

Dome-shaped, firm or freely movable cyst often surrounding a hair follicle (see Figure 2.2-34). Erythema, mild tenderness, and cheeselike discharge may be seen. ■ Does not dimple when pinched (in contrast with dermatofibroma). ■ Usually resolves spontaneously but can recur, thus excision of large cysts is preferred. ■

DERMATOFIBROMA

Dome-shaped, firm, brown-pink, nontender nodule, < 1 cm in diameter resulting from fibroblast proliferation (see Figure 2.2-35). ■ Dimples when pinched (dimple or buttonhole sign). ■ Benign. Treatment with shave biopsy or excision for cosmetic reasons. ■

HIDRADENITIS SUPPURATIVA

F I G U R E 2 . 2 - 3 5 .   Dermatofibroma. (Reproduced with permission from Diluvio L, Torti C, Terrinoni A, et al. Dermoscopy as an adjuvant tool for detecting skin leiomyomas in patient with uterine fibroids and cerebral cavernomas. BMC Dermatol. 2014;14:7.doi:10.1186/1471-5945-14-7.)

Chronic inflammation of folliculopilosebaceous units causing inflamed, painful nodules that may progress to form sinus tracts and scars that secrete a malodorous discharge (see Figure 2.2-36). It is more common in African-Americans, smokers, diabetics, and the obese. ■ Common in intertriginous areas (axilla, groin), and often has a chronic relapsing course. ■ Dx: Clinical. No biopsy needed. ■ Tx: Oral antibiotics, drainage, and marsupialization of sinus tracts and wound care. ■

ICHTHYOSIS VULGARIS

Disorder of diffuse, dry dermal scaling that resembles fish scales (ichthyosis means “fishlike” in Greek). See Figure 2.2-37. ■ Inherited mutation in filaggrin gene; worse in homozygous individuals. ■ Diagnosis is clinical. ■ Treat with emollients, keratolytics, and topical retinoids. ■

F I G U R E 2 . 2 - 3 6 .   Hidradenitis suppurativa. (Reproduced with permission from Alharbi Z, Kauczok J, Pallua N. A review of wide surgical excision of hidradenitis suppurativa. BMC Dermatol. 2012;12:9.)

AGE-RELATED SKIN CHANGES

The elastic fibers in perivascular connective tissue deteriorate with age, causing wrinkles. Chronically photoaged skin will develop solar elastosis (thickened yellow skin with deep wrinkles). Botulinum toxin may be used for cosmetic purposes to reduce development of wrinkles. Senile purpura (ecchymoses in elderly patients in areas exposed to repetitive trauma such as extensor surfaces) is a benign finding and does not warrant further workup.

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F I G U R E 2 . 2 - 3 7 .   Ichthyosis vulgaris. (Reproduced with permission from Dr. Richard S. Hibbets, Centers for Disease Control and Prevention, Atlanta, GA.)

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DERMATOLOGY

SUN PROTECTION

Ultraviolet radiation from the sun causes hyperpigmentation and destruction of dermal structural proteins, such as collagen and elastin. Sun avoidance is the best way to prevent sun-associated skin damage. When going outside, apply sunblock of at least sun protection factor (SPF) 30, 30 minutes prior to exposure in order for a protective film to develop that prevents sunburn. SPF of greater than 50 has diminishing returns on effective sun protection. SUNBURN

Erythematous, occasionally blistering lesions caused by prolonged exposure to ultraviolet radiation. Fever, headache, vomiting, and symptoms of heat exhaustion may also be seen. Treat with cool, moist compresses and NSAIDs for mild cases. Consider hospitalization, intravenous fluids, and wound care for severe cases.

Neoplasms of the Skin SEBORRHEIC KERATOSIS F I G U R E 2 . 2 - 3 8 .   Seborrheic keratosis. (Reproduced with permission from Dr. Richard Usatine.)

A very common skin tumor that appears in almost all persons after 40 years of age. The etiology is unknown. Lesions have no malignant potential (see Figure 2.2-38). History/PE ■ Present as exophytic, waxy brown papules and plaques with superficial keratin cysts (see Figure 2.2-38). Lesions may appear in great numbers and have a “stuck on” appearance. ■ Lesions can become irritated either spontaneously or by external trauma. Diagnosis Characteristic exam findings and history are sufficient. As some may appear similar to melanoma, a biopsy may be prudent in these cases. Treatment Cryotherapy, shave excision, or curettage. ACTINIC KERATOSIS

Flat areas of erythema and scale caused by exposure to the sun. These lesions should be treated to prevent the possible transformation into squamous cell carcinoma. Hx/PE: Lesions appear on sun-exposed areas (face, arms) and primarily affect older patients, who often have multiple such lesions. They are erythematous with a gritty texture that can become thick and crusted (see Figure 2.2-39). ■ Dx: Clinical. ■ Tx: Cryosurgery, topical 5-FU, or topical imiquimod can be used to destroy the lesion. If carcinoma is suspected, perform a biopsy. Patients should be advised to use sun protection. ■

FIGURE 2.2-39. 

Actinic keratosis.

The discrete patch above has an erythematous base and a rough white scale. (Reproduced with permission from Hurwitz RM. Pathology of the Skin: Atlas of Clinical-Pathological Correlation, 2nd ed. Stamford, CT: Appleton & Lange; 1998.)

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CUTANEOUS SQUAMOUS CELL CARCINOMA

The second most common skin cancer, with locally destructive effects as well as the potential for metastasis and death. Sun exposure is the most common causative factor, but exposure to chemical carcinogens, prior radiation therapy, sites of burns or chronic trauma (as in draining infectious sinuses in osteomyelitis), and chronic immunosuppression (as in transplant recipients) also predispose patients to developing SCC. History/PE ■ SCCs have many forms, and a single patient will often have multiple variants. ■ Most SCCs occur in older adults with sun-damaged skin, arising from actinic keratoses, presenting as an erythematous, ulcerated papule or nodule (see Figure 2.2-40). ■ Marjolin ulcer is a type of rare SCC that arises in sites of scars, burns, or ulcers. ■ Arsenic exposure is a rare cause of multiple SCCs in a palmoplantar distribution. ■ SCCs from actinic keratoses rarely metastasize, but those that arise on lips and ulcers are more likely to do so. SCC occurs on the lower lip more commonly than basal cell carcinoma.

F I G U R E 2 . 2 - 4 0 .   Squamous cell carcinoma. Note the crusting and ulcer-

ation of this erythematous plaque. Most lesions are exophytic nodules with erosion or ulceration. (Reproduced with permis-

sion from Hurwitz RM. Pathology of the Skin: Atlas of Clinical-Pathological Correlation, 2nd ed. Stamford, CT: Appleton & Lange; 1998.)

Diagnosis Characteristic exam findings and history are sufficient. Confirm with shave biopsy, which may show keratin pearls and full-thickness atypical keratinocytes with invasion into the dermis. Treatment Surgical excision or Mohs surgery (very thin slices are excised and examined with a microscope via frozen section, ideally used for cosmetically sensitive areas such as face and distal extremities). Lesions with high metastatic potential may need radiation or chemotherapy. BASAL CELL CARCINOMA

The most common malignant skin cancer, basal cell carcinoma (BCC) is slow growing and locally destructive but has virtually no metastatic potential. Cumulative sun exposure is the main risk factor. Most lesions appear on the face or other sun-exposed areas. Multiple BCCs appearing early in life and on non–sun-exposed areas are suggestive of inherited basal cell nevus syndrome. History/PE There are many types of BCC with varying degrees of pigmentation, ulceration, and depth of growth (see Figure 2.2-41). Nodular, superficial, and sclerosing are the three main types. Diagnosis Confirm with shave biopsy, which will show nests of basophilic cells invading into the dermis. Treatment Excision via curettage, cautery, cryotherapy, superficial radiation, and Mohs surgery.

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F I G U R E 2 . 2 - 4 1 .   Nodular basal cell carcinoma. A smooth, pearly nodule with

telangiectasias. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 5th ed. New York, NY: McGrawHill; 2005.)

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MNEMONIC The ABCDEs of melanoma— Asymmetric Irregular Border Variations in Color Diameter > 6 mm Evolution: changing or new lesions

DERMATOLOGY

MELANOMA

The most common life-threatening dermatologic disease. Risk factors include fair skin and a tendency to burn; intense bursts of sun exposure (especially in childhood and with intermittent exposure); and the presence of large congenital melanocytic nevi, an ↑ number of nevi, or dysplastic nevi. Immunosuppression also ↑ risk. Some patients inherit a predisposition to melanoma with the familial atypical mole and melanoma (FAM-M) syndrome. There are several subtypes (see Table 2.2-4). History/PE ■ Malignant melanomas begin in the epidermal basal layer, where melanocytes are found. ■ Malignant melanomas may metastasize anywhere in the body (eg, lung, liver, brain, fat). Three percent to 5% of patients with metastatic melanoma have no known 1° lesion.

KEY FACT Bacillary angiomatosis, caused by Bartonella henselae and Bartonella quintana, can mimic Kaposi sarcoma (KS) and should be excluded in suspected KS patients; erythromycin is the treatment of choice.

Diagnosis ■ Early recognition and treatment are essential. Screening exams using the ABCDE criteria, and dermoscopy may detect melanoma early when it is curable (see Table 2.2-4). An excisional biopsy should be performed on any suspicious lesion. Malignancy is determined histologically. ■ A biopsy should be performed on a mole that is substantially different from nearby moles to assess for melanoma. This is the “ugly duckling sign” and has greater than 90% sensitivity for melanoma. ■ Malignant melanomas are staged by Breslow thickness (depth of invasion in millimeters) and by tumor-node-metastasis (TNM) staging. Ulceration is a poor prognostic sign. Treatment ■ Lesions confined to the skin are treated by excision with margins. Sentinel lymph node biopsy is useful for staging but does not ↑ survival. Chemotherapy, biologic therapy, and radiation therapy may be used for recurrent or metastatic melanoma. ■ Patients with early melanoma are at low risk for recurrence but are at high risk for the development of subsequent melanomas. More advanced melanomas may recur or metastasize at a higher rate. Patient surveillance is thus essential. KAPOSI SARCOMA

A vascular proliferative disease that has been attributed to a herpesvirus (HHV-8), also called Kaposi sarcoma–associated herpesvirus (KSHV).

FIGURE 2.2-42. 

Kaposi sarcoma.

Note the multiple violaceous papules on the neck, back, and face. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 5th ed. New York, NY: McGraw-Hill; 2005.)

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History/PE ■ Presents with multiple red to violaceous macules, papules, or nodules that can progress to plaques on the lower limbs, back, face, mouth, and genitalia (see Figure 2.2-42). ■ Plaques can also be found in the GI tract and lung. ■ HIV-associated (epidemic) KS is an aggressive form of the disease, and although less common since the advent of HAART, it remains the most common HIV-associated malignancy. Diagnosis Diagnosed by history, clinical impression, and histology.

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TA B L E 2.2 - 4. 

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Types of Melanoma

Type

Presentation

Superficial

60% of all melanomas; can occur at any age but is seen in young adults

spreading

Often presents on the trunk in men and on the legs in women A prolonged horizontal growth (see Image A) allows for early diagnosis when it is still confined to the epidermis

Nodular

Lesions have a rapid vertical growth phase and appear as a fast-growing reddish-brown nodule with ulceration (see Image B)

Acral

Begins on the palms, soles (see Image C), and nailbed as a slowly spreading,

lentiginous

pigmented patch Most commonly seen in Asians and African-Americans

Lentigo

Arises in a solar lentigo

maligna

Usually found on sun-damaged skin of the face (see Image D)

Amelanotic

Presents as a lesion without clinical pigmentation Difficult to identify; this variant of melanoma can be further classified into any of the above types

A

  B

C

  D

Images reproduced with permission from Dr. Richard Usatine.

Treatment Start HAART therapy if patient is HIV⊕. Small local lesions can be treated with radiation or cryotherapy. Widespread or internal disease is treated with systemic chemotherapy (doxorubicin, paclitaxel, or interferon-α [IFN-α]).

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A 72-year-old man presents to a new internist after moving to Florida. The internist notes a chronic wound on the patient’s right lower leg. The patient states that the wound followed an episode of cellulitis and has been present for 3 years. What is the next best step?

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DERMATOLOGY

MYCOSIS FUNGOIDES (CUTANEOUS T-CELL LYMPHOMA)

Not a fungus but a slow, progressive neoplastic proliferation of epidermotropic T cells. The disease is chronic and more common in men. History/PE ■ Early lesions are nonspecific, psoriatic-appearing plaques or patches that are often pruritic with a predilection for the trunk and buttocks. Later lesions are characterized by skin tumors with palpable lymph nodes (see Figure 2.2-43). ■ Patients may have dermatopathic lymphadenopathy without tumor involvement of the node. However, the internal organs can be involved, including the lymph nodes, liver, and spleen. ■ Sézary syndrome is the leukemic phase of cutaneous T-cell lymphoma, characterized by circulating Sézary cells in the peripheral blood, erythroderma, and lymphadenopathy. FIGURE 2.2-43. 

Mycosis fungoi-

des. Massive nodular infiltration of the face leads to a leonine facies. (Reproduced with permission from Wolff K et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008.)

Diagnosis ■ Diagnosed by clinical features and histology, with immunophenotypic characterization showing clonal T cells and electron microscopy showing the typical Sézary or Lutzner cells (cerebriform lymphocytes). ■ Early lesions are clinically indistinguishable from dermatitis, so histologic diagnosis is indicated for any dermatitis that is chronic and resistant to treatment. Treatment Phototherapy and skin-directed topical treatments are the mainstay of treatment for many patients. Early localized disease is amenable to total skin electron beam irradiation. For more extensive or advanced disease, radiation therapy is an effective option. Treatment modalities, including steroids, chemotherapy, retinoids, monoclonal antibodies, and IFN-α, are often combined. CHERRY ANGIOMAS (HEMANGIOMAS)

F I G U R E 2 . 2 - 4 4 .   Cherry hemangioma. (Reproduced with permission from Dr.Richard Usatine.)

Small, vascular, red papules that can appear anywhere on the body (see Figure 2.2-44). It is the most common benign vascular tumor, and it often appears with age. No treatment necessary, but can be excised for cosmetic reasons. Similar lesions known as infantile hemangiomas are seen in infants during the first few weeks of life. They are also benign and usually regress spontaneously after an initially rapid growth phase. Involution typically begins at 9 months to 1 year of age. Persistent lesions may be treated with topical or oral β-blockers.

Perform a biopsy to rule out squamous cell carcinoma.

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ENDOCRINOLOGY Disorders of Glucose Metabolism

90

Pituitary and Hypothalamic Disorders

106

Type 1 Diabetes Mellitus

90

Hypopituitarism

106

Type 2 Diabetes Mellitus

92

Cushing Syndrome

107

Metabolic Syndrome

94

Acromegaly

109

Hyperprolactinemia

110

Diabetes Insipidus

111

Syndrome of Inappropriate Antidiuretic Hormone Secretion

112

Thyroid Disorders

95

Testing of Thyroid Function

95

Hyperthyroidism/Thyrotoxicosis

96

Hypothyroidism

99

Adrenal Gland Disorders

113

Thyroiditis

100

Adrenal Insufficiency

113

Thyroid Neoplasms

100

Pheochromocytoma

114

Hyperaldosteronism

115

Congenital Adrenal Hyperplasia

116

Bone and Mineral Disorders

102

Osteoporosis

102

Paget Disease of Bone

104

Hyperparathyroidism

105

Multiple Endocrine Neoplasias

117

89

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ENDOCRINOLOGY

Disorders of Glucose Metabolism TYPE 1 DIABETES MELLITUS

Type 1 diabetes mellitus (DM) is caused by autoimmune pancreatic β-cell destruction, leading to insulin deficiency and abnormal glucose metabolism. TA B L E 2.3 - 1. 

Treatment of Type 2 Diabetes Mellitus

Lifestyle Modifications Diet

Personalized diet to encourage weight loss; avoid saturated fats and added sugars

Exercise

Moderate-intensity exercise for 30-60 minutes 5 days per week

Pharmacotherapy (Monotherapy or Combination Therapy if Poor Glycemic Control) Mechanism

Drug Metformin (first-line)

Side Effects

Contraindications

Inhibits hepatic gluconeogenesis and

Weight loss, GI upset, and rarely,

Contraindicated in the

↑ peripheral sensitivity to insulin

lactic acidosis

elderly (age >80 years) and in renal insufficiency, hepatic failure, or heart failure

Sulfonylureas (glipizide,

↑ Endogenous insulin secretion

Hypoglycemia and weight gain

↑ Insulin sensitivity

Weight gain, edema, hepatotox-

Contraindicated in patients

icity, and bone loss

with heart failure

glyburide, glimepiride) Thiazolidinediones (rosiglitazone, pioglitazone)

a

DPP-4 inhibitors (sitagliptin,

Inhibit degradation of GLP-1; ↑ insulin

linagliptin, and other -liptins)

secretion and ↓ glucagon secretion

Incretins (exenatide,

GLP-1 agonists. Delay absorption of

Injected subcutaneously. Slow GI

liraglutide, and other -tides)

food; ↑ insulin secretion and ↓ glu-

motility, nausea, and, rarely, pan-

cagon secretion

creatitis. Can cause weight loss

SGLT2 inhibitors (dapagliflozin

Inhibit SGLT2 in proximal tubule to ↓

UTIs, vulvovaginal candidiasis.

and other -flozins)

glucose reabsorption

Can cause weight loss and ↓

Weight neutral

blood pressure α-glucosidase inhibitors

↓ Intestinal absorption of

Flatulence, diarrhea, and

(acarbose, miglitol)

carbohydrates

hypoglycemia

Insulin

Given alone or in conjunction with

Weight gain and hypoglycemia

oral agents. Types of insulin include regular, short-acting (lispro, aspart, glulisine), NPH, long-acting (detemir, glargine), and combination preparations (longer + shorter-acting agents like 70 NPH/30 regular) In September 2010, the US Food and Drug Administration restricted access to rosiglitazone because of concern for increased cardiovascular risks. The drug is still available but is restricted to patients currently on the medication who acknowledge that they understand the risks and to patients who cannot achieve adequate glycemic control with other medication. a

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ENDOCRINOLOGY History/PE ■ Classically presents with polyuria, polydipsia, polyphagia, and rapid, unexplained weight loss. Patients may also present with ketoacidosis. ■ Usually affects nonobese children or young adults. ■ Associated with HLA-DR3 and -DR4. ■ Type 1 DM diagnosed as an adult is known as latent autoimmune diabetes of adults (LADA). Diagnosis ■ At disease onset, anti–islet cell, anti–glutamic acid decarboxylase (antiGAD) antibodies, anti–insulin or anti–Zn transporter antibodies may be present in serum. ■ At least one of the following is required to make the diagnosis: ■ A random plasma glucose level ≥ 200 mg/dL plus symptoms. ■ A fasting (> 8-hour) plasma glucose level ≥ 126 mg/dL on two separate occasions. ■ A 2-hour postprandial glucose level ≥ 200 mg/dL following an oral glucose tolerance test. Hemoglobin A1c (HbA1c) > 6.5%. Treatment ■ Insulin injections (see Table 2.3-1 and Figure 2.3-1) to maintain blood glucose in the normal range (80−130 mg/dL preprandial levels, 250 mg/dL

Glucose > 600 mg/dL

Metabolic acidosis (bicarbonate < 18 mEq/L)

No acidosis (bicarbonate > 18 mEq/L)

↑ Urine and serum ketones

No ketones

↑ Anion gap

Normal anion gap

Serum osmolality normal

Serum osmolality > 320 mOsm/kg

Fluids and continuous insulin (caution: will ↓ potassium, monitor

Aggressive fluids, electrolyte replacement, and

and replace). Bicarbonate rarely used (only if pH is < 6.9). Treat

insulin. Treat the initiating event

Lab values

Treatment

initiating event. Monitor response to treatment by closure of the anion gap

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ENDOCRINOLOGY

TA B L E 2.3 - 4. 

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HIGH-YIELD FACTS IN

Chronic Complications of Diabetes Mellitus

Complication

Description

Retinopathy

Appears when diabetes has been present for at least 3–5 years (see Figure 2.3-2). Preventive measures include control

(nonproliferative,

of hyperglycemia and hypertension, annual eye exams, anti-VEGF (nonproliferative), and laser photocoagulation

proliferative)

therapy (focal for nonproliferative vs panretinal for proliferative)

Diabetic

Characterized by glomerular hyperfiltration followed by microalbuminuria, macroproteinuria, and progression to CKD.

nephropathy

Seen in patients with diabetes for > 10 years. Preventive measures include ACEIs or ARBs. BP control more effective than glucose control. Kimmelstiel-Wilson nodules seen on kidney biopsy

Neuropathy

Peripheral nerves: Most common neuropathy. Symmetric sensorimotor polyneuropathy leading to burning pain, foot trauma, infections, and ulcers Small fiber neuropathy: Pain and paresthesia Large fiber neuropathy: Absence of sensation Ischemic CN III damage: down-and-out eye, ptosis, diplopia, with preserved pupil response Treat with preventive foot care and analgesics (amitriptyline, gabapentin, NSAIDs). Monofilament testing predicts ulcer risk GI: Gastroparesis with delayed gastric emptying. Treat with metoclopramide or erythromycin. Can also get esophageal dysmotility, diarrhea/constipation GU: Neurogenic bladder with decreased sensation to void, overflow incontinence, high postvoid residuals. Can also have erectile dysfunction Cardiovascular: Orthostatic hypotension

Macrovascular

Cardiovascular, cerebrovascular, and peripheral vascular disease. Cardiovascular disease is the most common cause of

complications

death in diabetic patients. See Table 2.3-2 for risk modification guidelines

VEGF, Vascular endothelial growth factor.

History/PE ■ Patients may present with symptoms of hyperglycemia (polyuria, polydipsia, polyphagia, blurred vision, fatigue). ■ Onset is more insidious than that of type 1 DM, and patients often present with complications.

A

B

F I G U R E 2 . 3 - 2 .   Diabetic retinopathy. (A) Nonproliferative retinopathy presents with exudates, dot-blot hemorrhages, and microaneurysms. (B) Proliferative retinopathy presents with macular edema, vitreous traction, and neovascularization of the retinal vasculature. (Reproduced with permission from USMLE-Rx.com.)

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ENDOCRINOLOGY

Nonketotic hyperosmolar hyperglycemic state (HHS) may be seen in the setting of poor glycemic control (see Table 2.3-3). ■ Usually occurs in older adults with obesity (often abdominal) and has a strong genetic predisposition; diagnosed increasingly in obese children. ■ Risk factors include obesity, rapid weight gain, ⊕ family history, sedentary lifestyle, increasing age, ethnicity (Asian, Hispanic, and AfricanAmerican), and other components of metabolic syndrome (see later). ■

MNEMONIC Diabetes complications—

KNIVE Kidney (nephropathy) Neuromuscular (peripheral neuropathy) Infectious (UTIs, pneumonia, soft-tissue infections, TB) Vascular (coronary/cerebrovascular/ peripheral artery disease) Eye (cataracts, retinopathy)

Diagnosis ■ Diagnostic criteria are the same as those for type 1 DM. ■ Anti–islet cell and anti-GAD antibodies will be ⊝. ■ Screening recommendations: ■ Screening tests: Fasting glucose (first-line due to cost-effectiveness), HbA1c level (> 6.5% is diagnostic), and 2-hour oral glucose tolerance test. ■ Consider screening all patients with risk factors for diabetes (eg, hypertension, obesity, family history, racial/ethnic minorities). ■ Patients with no risk factors: Test HbA1c at 45 years of age; retest every 3 years if HbA1c is < 5.7% and no other risk factors develop. ■ Patients with impaired fasting glucose (> 100 mg/dL but 65 years of age who are at risk for hypoglycemia. Complications See Tables 2.3-3 and 2.3-4 for an outline of the complications associated withDM. METABOLIC SYNDROME

MNEMONIC Criteria for metabolic syndrome—

WEIGHHT Waist Expanded Impaired Glucose Hypertension HDL ↓ Triglycerides ↑

Also known as insulin resistance syndrome or syndrome X, metabolic syndrome is associated with an ↑ risk for CAD and mortality from a cardiovascular event. History/PE Presents with abdominal obesity, high BP, impaired glycemic control, and dyslipidemia. Diagnosis Three out of five of the following criteria must be met: Abdominal obesity (↑ waist girth): ≥ 40 inches (102 cm) in men and ≥35inches (88 cm) in women. ■ Triglycerides ≥ 150 mg/dL. ■ HDL < 40 mg/dL in men and < 50 mg/dL in women. ■ BP ≥ 130/85 mm Hg or a requirement for antihypertensive drugs. ■ Fasting glucose ≥ 100 mg/dL. ■

Treatment ■ Best initial treatment: Lifestyle modifications (diet, exercise, intensive weight loss).

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HIGH-YIELD FACTS IN

95

Also consider additional prevention of diabetes with metformin and mitigation of cardiovascular risk with aggressive cholesterol management and BP control.

Thyroid Disorders See Figure 2.3-3 for an overview of thyroid hormone synthesis and Figure 2.3-4 for a review of the hypothalamic-pituitary-thyroid axis. TESTING OF THYROID FUNCTION

Thyroid function tests (TFTs) include the following (see also Table 2.3-5): TSH measurement: Single best test for the screening of thyroid disease and for the assessment of thyroid function, unless there is a history of brain injury (eg, tumor, radiation, trauma), in which case free T4 should also be checked. ■ Free T4 measurement: Preferred screening test for thyroid hormone levels. ■ Total T4 measurement: Not an adequate screening test. Ninety-nine percent of circulating T4 is bound to thyroxine-binding globulin (TBG). Total T4 levels can be altered by changes in levels of binding proteins. ■ Radioactive iodine uptake (RAIU) test and scan: Measures the thyroid’s level and distribution of iodine uptake. Determines if a nodule is functioning, in the case of hyperthyroidism, or nonfunctioning, and requires a biopsy for malignancy workup. See Table 2.3-6. ■

Thyroid follicles

Blood

Follicular cells

KEY FACT ↑ TBG can be found in pregnancy, estrogen administration, and infection. You do not need to treat.

KEY FACT Exophthalmos, pretibial myxedema, and thyroid bruits are specific for Graves disease.

Colloid

Oxidation I-

I Anions (perchlorate, pertechnetate, thiocyanate)

MIT DIT DIT DIT

Thyroglobulin

Propylthiouracil, methimazole

T4

T3

Lysosome

T4

T3

T4 T3 Thyroglobulin

F I G U R E 2 . 3 - 3 .   Overview of thyroid synthesis and mechanism of antithyroid medications. Iodide (I−) is taken up from the bloodstream by follicular thyroid cells, transported to

the colloid of the follicle, and oxidized to iodine (I). I combines with thyroglobulin to form monoiodotyrosine (MIT) and diiodotyrosine (DIT). Two DIT molecules combine to form T4; MIT and DIT combine to form T3. Iodinated thyroglobulin is transported back to the follicular cells and is cleaved in lysosomes; T4 and T3 are then released into the circulation.

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ENDOCRINOLOGY

Glucocorticoids, dopamine, somatostatin and rexinoids

Hypothalamus

TRH

SS

Posterior pituitary

Anterior pituitary

TSH

TSI

Thyroid follicular cells

T3 ,T4

F I G U R E 2 . 3 - 4 .   The hypothalamic-pituitary-thyroid axis. SS, somatostatin; T3, triiodothyronine; T4, thyroxine; TSH, thyroid-stimulating hormone; TSI, thyroid-stimulating immunoglobulin; TRH, thyrotropin-releasing hormone. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT TSH receptor–stimulating antibodies are found in patients with Graves disease.

HYPERTHYROIDISM/THYROTOXICOSIS

Hyperthyroidism is a state of ↑ synthesis of T3/T4; thyrotoxicosis is a state of ↑ levels of T3/T4. Most commonly caused by Graves disease, but can also result from other causes (see Table 2.3-5). Graves disease: An autoimmune cause of hyperthyroidism. TSH receptorstimulating antibodies ↑ synthesis of T3/T4. ■ Toxic adenoma/toxic multinodular goiter: Result in hyperthyroidism caused by autonomous hyperactive thyroid nodules. ■ Thyroiditis: Caused by transient inflammation of the thyroid gland with release of previously synthesized thyroid hormone; causes a temporary ↑ in circulating T3/T4. A hypothyroid phase may follow the hyperthyroid phase with eventual return to normal in many patients. ■ Fetal thyrotoxicosis: Classically in an infant born to a mother with Graves disease. TSH-stimulating antibodies are IgG and can cross the placenta. ■

KEY FACT When screening for thyroid dysfunction, measure serum TSH: ■ If normal—no further tests ■ If high—measure free T4 ■ If low—measure free T4 and T3

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ENDOCRINOLOGY

TA B L E 2.3 - 5. 

HIGH-YIELD FACTS IN

97

Thyroid Function Tests in Thyroid Disease

Diagnosis 1° Hyperthyroidism

TSH

T4

T3

Causes

Graves disease, toxic multinodular goiter, toxic adenoma, amiodarone, postpartum thyrotoxicosis, postviral thyroiditis

2° Hyperthyroidism

Nl/↑

Rare. Caused by TSH-producing pituitary adenoma. TSH often inappropriately normal (not suppressed)

1° Hypothyroidism

Hashimoto thyroiditis, iatrogenic (radioactive ablation, excision), drugs (lithium, amiodarone)

2° Hypothyroidism

Often caused by pituitary nonfunctioning macroadenomas, infiltrative diseases, or post– pituitary surgery

Subclinical

Nl

Nl

hypothyroidism Euthyroid sick syndrome

Often with mild elevations in TSH, asymptomatic

Nl

Nl/↓

Caused by any serious illness. Will have ↑reverse T3 (nonfunctional), as T4 is converted

KEY FACT

to rT3 instead of T3. Thought to be caused by caloric deprivation and increased cytokines. May have transient ↑ in TSH during recovery period

History/PE ■ Presents with weight loss, heat intolerance, anxiety, palpitations, ↑bowel frequency, myopathy/proximal muscle weakness, insomnia, and menstrual abnormalities. ■ Exam reveals warm, moist skin, goiter, hypertension, sinus tachycardia, or atrial fibrillation (AF), fine tremor, lid lag, and hyperactive reflexes. Exophthalmos (direct stimulation of orbital fibroblasts by antibodies), pretibial myxedema, acropachy, and thyroid bruits are seen only in Graves disease (see Figure 2.3-5). ■ Cardiac findings are a result of increased heart rate and contractility. Diagnosis Best initial test: Serum TSH level, followed by T4 levels and, rarely, T3 (unless TSH is low and free T4 is not elevated). May need additional information provided by RAI scans (see Figure 2.3-6) and thyroglobulin levels. See Tables 2.3-5 and 2.3-6. Treatment ■ Symptomatic treatment: Propranolol (or metoprolol, atenolol) to manage adrenergic symptoms. ■ Pharmacologic treatment: Antithyroid medications (methimazole or propylthiouracil). Generally used for mild disease, and for stabilizing treatment before definitive treatment.

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Thyroid storm is an acute, lifethreatening form of thyrotoxicosis that may present with AF, fever, and delirium. Administer β-blockers and antithyroid drugs initially, followed by iodine. Consider steroids if necessary.

1 A 24-year-old woman with hypothyroidism presents at 10 weeks’ gestation for a prenatal visit. Her only medication is levothyroxine. What adjustment is probably needed to her levothyroxine dose?

2 A 10-year-old boy presents to the ED with 2 weeks of polyuria and polydipsia and new-onset lethargy. Physical exam reveals signs of severe dehydration, and labs reveal a blood glucose level of 500 mg/dL. A diagnosis of DKA is made, and the patient is started on insulin and non–dextrose-containing IVfluids. His glucose on recheck is 250 mg/dL. What is the next best step in management?

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98

HIGH-YIELD FACTS IN

ENDOCRINOLOGY

B

A FIGURE 2.3-5.  USMLE-Rx.com.)

Physical signs of Graves disease. (A) Graves ophthalmopathy. (B) Pretibial myxedema. (Reproduced with permission from

Definitive treatment: Radioactive 131I thyroid ablation or total thyroidectomy (less common in the United States). Radioactive iodine may worsen ophthalmopathy from Graves disease. ■ Administer levothyroxine (oral T4 replacement) to prevent hypothyroidism in patients who have undergone ablation or surgery. ■ Administer steroids to treat severe ophthalmopathy (if causing diplopia or threatening vision). ■

KEY FACT Myxedema coma can be triggered in a hypothyroid patient by acute events such as infections, MI, stroke, trauma, sedative drugs, surgery, and levothyroxine noncompliance.

1 Her dose will probably have to be↑ (sometimes by up to 50%!). ↑TBG levels in pregnancy lead to ↓free T3/T4 levels and ↑ TSH.

See Table 2.3-7 for adverse drug reactions associated with antithyroid medications. Complications Thyroid storm is an acute, life-threatening form of thyrotoxicosis. Admit to ICU and treat immediately with β-blockers and high-dose antithyroid medications (propylthiouracil or methimazole). Give high-dose potassium iodide (SSKI) 1 hour after use of an antithyroid medication. The addition of corticosteroids may also be effective. Untreated hyperthyroidism can also lead to long-term bone loss. TA B L E 2.3 - 6. 

Radioactive Iodine Findings in Hyperthyroidism

Diagnosis

RAI % Uptake

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Thyroglobulin

Graves disease

Diffuse uptake

N/A

Multinodular goiter

Nl/↑

Multiple nodules of ↑

N/A

uptake

2 Add 5% dextrose to the IV fluids. In the management of DKA, it is important to start IV fluids and insulin immediately. Initially, the goal is to rehydrate the patient and ↓ blood glucose, but as blood glucose reaches 250–300 mg/dL, it is important to add 5% dextrose to ↓ the risk for hypoglycemia.

RAI Scan Findings

Toxic adenoma

Nl/↑

One area of ↑ uptake

N/A

Thyroiditis, iodine expo-

Low uptake

Low uptake

sure, extraglandular production Exogenous thyroid hormone

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ENDOCRINOLOGY

A

HIGH-YIELD FACTS IN

99

B

F I G U R E 2 . 3 - 6 .   Radioactive iodine uptake scans. 99m-Technetium pertechnetate thyroid scans showing (A) multinodular areas of increased uptake and (B) diffuse uptake as seen in Graves disease. (Image A reproduced with permission from Cho EA, et al. A case of masked toxic adenoma in a patient with non-thyroidal illness. BMC Endocr Disord. 2014;14:1. Image B reproduced with permission from Coutinho E, et al. Graves’ disease presenting as pseudotumor cerebri: a case report. J Med Case Reports. 2011;5:68.)

HYPOTHYROIDISM

A state involving ↓ levels of T3/T4. Most commonly caused by Hashimoto thyroiditis, but can result from other causes (see Table 2.3-5). Hashimoto thyroiditis (autoimmune hypothyroidism): Associated with ⊕ antithyroglobulin and antithyroid peroxidase (anti-TPO) antibodies that precipitate thyroid destruction. ■ Thyroiditis (postpartum, postviral, subacute/de Quervain): Can have a hypothyroid phase that follows the hyperthyroid phase. Hypothyroidism can be permanent. Subacute thyroiditis is usually painful. ■ Secondary hypothyroidism: Caused by pituitary tumors or pituitary surgery. ■ Congenital hypothyroidism: Most common etiology is thyroid dysgenesis. Presents as failure to thrive, hypotonia, umbilical hernias, prolonged jaundice. ■ Generalized resistance to thyroid hormone: Rare. Elevated T3/T4, normal to elevated TSH. ■

History/PE ■ Presents with weakness, fatigue, cold intolerance, constipation, weight gain, depression, hair loss, menstrual irregularities, myopathy, and hoarseness. ■ Exam reveals dry, cold, puffy skin accompanied by edema, bradycardia, and delayed relaxation of deep tendon reflexes. TA B L E 2.3 - 7. 

Adverse Drug Reactions for Thyrotoxicosis Treatments

Drug/Treatment Propylthiouracil

Adverse Reactions Allergic reaction, rash, arthralgias, agranulocytosis, vasculitis, liver failure (black box warning). Safe to use in pregnancy

Methimazole

Allergic reaction. Contraindicated in pregnancy. Agranulocytosis. Cholestasis

Radioactive 131I

Most common side effect is hypothyroidism (most common when

thyroid ablation

treating patients with Graves disease). Contraindicated in pregnancy. Will initially worsen ophthalmopathy

Total thyroidectomy

Hypothyroidism, hypoparathyroidism, damage to nearby structures (recurrent laryngeal nerve)

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100

HIGH-YIELD FACTS IN

ENDOCRINOLOGY Diagnosis Best initial test: Serum TSH level, followed by free T4 levels. See Table 2.3-5. Other lab abnormalities include high LDL, ↑ triglycerides, ↑CK, hyponatremia. Treatment For uncomplicated hypothyroidism (eg, Hashimoto disease), administer levothyroxine. In subclinical hypothyroidism (↑ TSH, normal T4), treat with levothyroxine if TSH > 10 mU/L. Complications ■ Increased risk for thyroid lymphoma in patients with Hashimoto disease. ■ Myxedema coma: Severe hypothyroidism with ↓ mental status, hypothermia, hypotension, bradycardia, hypoglycemia, and hypoventilation. Mortality is 30–60%. Admit to the ICU and treat urgently with IV levothyroxine and IV hydrocortisone (if adrenal insufficiency not excluded).

KEY FACT Subacute thyroiditis is not a “cute” thyroiditis—it is painful!

MNEMONIC Thyroid neoplasms—

The most Popular is Papillary Papillae (branching) Palpable lymph nodes “Pupil” nuclei (“Orphan Annie” nuclei) Psammoma bodies within lesion (often) Also has a Positive Prognosis

THYROIDITIS

Inflammation of the thyroid gland. Common subtypes include subacute granulomatous, radiation-induced, autoimmune, postpartum, infectious, and druginduced (eg, amiodarone) thyroiditis. History/PE ■ The subacute form presents with a tender thyroid, malaise, and URI symptoms. ■ All other forms are associated with painless goiter. Diagnosis Thyroid dysfunction (typically thyrotoxicosis followed by hypothyroidism), with ↓ uptake on RAI scan during the hyperthyroid phase. Treatment ■ β-blockers for hyperthyroidism; levothyroxine for hypothyroidism if TSH > 10 mU/L. ■ Subacute thyroiditis is usually self-limited; for severe cases, treat with NSAIDs or with oral corticosteroids. THYROID NEOPLASMS

Thyroid nodules are very common and show an ↑ incidence with age. Most (∼ 95%) are benign. History/PE ■ Usually asymptomatic on initial presentation; discovered incidentally. ■ Hyperfunctioning nodules present with hyperthyroidism. ■ Large nodules adjacent to the trachea/esophagus may cause dysphagia, dyspnea, cough, and choking sensation. ■ An ↑ risk for malignancy is associated with a history of childhood neck irradiation, “cold” nodules (minimal uptake on RAI scan), female sex, age < 20 or > 70, firm and fixed solitary nodules, ⊕ family history, and rapidly growing nodules with hoarseness. ■ Check for anterior cervical lymphadenopathy. Carcinoma (see Table 2.3-8) may be firm and fixed.

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ENDOCRINOLOGY

TA B L E 2.3 - 8. 

101

Types of Thyroid Carcinoma

Typea Papillary

HIGH-YIELD FACTS IN

Characteristics

Prognosis

Represents 75–80% of thyroid cancers. The female-to-male

90% of patients survive ≥ 10 years after diagnosis; the prog-

ratio is 3∶1. Slow growing; found in thyroid hormone–pro-

nosis is poorer in patients > 45 years of age or those with

ducing follicular cells. Associated with psammoma bodies.

large tumors

Lymphatic spread Follicular

Accounts for 17% of thyroid cancers; found in thyroid

Same as above

hormone–producing follicular cells. Hematologic spread Medullary

Responsible for 6–8% of thyroid cancers. Found in calcitonin-

80% of patients survive at least 10 years after surgery. Con-

producing C cells; the prognosis is related to degree of

sider MEN 2A or 2B based on family history

vascular invasion Anaplastic

Accounts for < 2% of thyroid cancers; rapidly enlarges and

10% of patients survive for > 3 years

metastasizes Tumors may contain mixed papillary and follicular pathologies.

A

Medullary thyroid carcinoma is associated with multiple endocrine neoplasia (MEN) type 2.

KEY FACT

Check calcitonin levels if medullary cancer is suspected!

Diagnosis See Figure 2.3-7 for a diagnostic workup of thyroid nodules. Treatment ■ Benign fine-needle aspiration (FNA): Follow with physical exam/ ultrasonography to assess for continued nodule growth or for development of suspicious characteristics (eg, microcalcifications, ↑ vascular flow).

KEY FACT Hyperfunctioning (hot) thyroid nodules are not malignant.

Thyroid nodule > 1cm (palpation and/or ultrasonography)

History and examination; TSH

Normal/high TSH

Low TSH

FNAC or US guided biopsy

Malignant

Benign

Inadequate

Surgery

Follow

Repeat FNA; if still inadequate then consider surgery

FIGURE 2.3-7.  USMLE-Rx.com.)

TC 99 scan,

Indeterminate FLUS/AUS or follicular neoplasm Consider I scan if not performed. Surgery if hot 123

Cold nodule

123

I scan

Hot nodule Rx for hyperthyroidism

Diagnostic steps in the workup of a thyroid nodule. (Reproduced with permission from

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ENDOCRINOLOGY

Malignant FNA: Surgical resection with hemi- or total thyroidectomy is best initial treatment; adjunctive radioiodine ablation following excision is appropriate for some follicular lesions. ■ Indeterminate FNA: Watchful waiting vs hemithyroidectomy (10–30% chance of malignancy). If resected, await final pathology to guide further treatment. ■

Bone and Mineral Disorders KEY FACT Do not confuse osteoporosis with osteomalacia. Osteomalacia is a mineralization defect often caused by severe vitamin D deficiency that presents with bone pain, ↓ calcium/ phosphate, and 2° hyperparathyroidism.

Figure 2.3-8 reviews calcium and phosphate regulation. OSTEOPOROSIS

A common metabolic bone disease characterized by low bone mass. It most often affects thin postmenopausal women, especially white and Asian individuals, with risk doubling after 65 years of age. Men are also at risk for osteoporosis, but the diagnosis is often overlooked. History/PE ■ Commonly asymptomatic even in the presence of a vertebral fracture. ■ Risk factors: Smoking, advancing age, excessive alcohol intake, a history of estrogen-depleting conditions in women (eg, amenorrhea, eating disorders, early menopause) or hypogonadism in men, physical inactivity, uncontrolled hyperthyroidism, hyperparathyroidism, chronic inflammatory disease, corticosteroid use, Cushing syndrome.

PTH activity ionized Ca , PO43– , or 1,25-(OH)2 D3 2+

Feedback inhibition of PTH synthesis

Four parathyroid glands

Vitamin D activity 25-OH D3

PTH released into circulation

PO43– 1α-hydroxylase

1,25-(OH)2 D3

1,25-(OH)2 D3

Renal tubular cells

1,25-(OH)2 D3 synthesis Reabsorption: Ca2+, PO43– Urine: Ca2+, PO43–

Bone

Intestines/ kidneys

Ca2+and PO43– released from bone

absorption of Ca2+and PO43–

Ca2+ and PO43– Ca2+ and PO43– FIGURE 2.3-8. 

Overview of calcium and phosphate regulation. PTH, parathyroid hor-

mone. (Reproduced with permission from USMLE-Rx.com)

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Exam may reveal hip fractures, vertebral compression fractures (loss of height and progressive thoracic kyphosis), and/or distal radius fractures (Colles fracture) following minimal trauma (see Figure 2.3-9).

Diagnosis ■ Diagnostic test: Dual-energy x-ray absorptiometry (DEXA). Recommended as screening test for all women > 65 years of age and men > 70 years of age, and those with other risk factors for osteoporosis. ■ Osteoporosis: Bone mineral density (T-score) is 2.5 standard deviations (SDs) less than normal. ■ Osteopenia: T-score between 1 and 2.5 SDs below normal. ■ Lab tests: Look for secondary causes by measuring calcium, phosphate, parathyroid hormone (PTH), TSH, free T4, liver enzymes, creatinine, and electrolytes. If estrogen deficiency or hypogonadism is suspected, measure FSH, LH, estradiol, and testosterone. Treatment ■ Lifestyle modifications: Adequate calcium and vitamin D intake (supplementation can be used for prevention), smoking cessation, avoiding heavy alcohol use, and weight-bearing exercises. ■ Best initial treatment: Bisphosphonates (eg, alendronate, risedronate, ibandronate, zoledronic acid) are used in the treatment of osteoporosis, not osteopenia. ■ Other drugs: Teriparatide (PTH analogue), denosumab (a monoclonal antibody to RANK-L), selective estrogen receptor modulators (eg, raloxifene). Complications Fracture is the most devastating consequence of low bone mineral density/ osteoporosis, carrying a 50% ↑ in mortality in the year following hip fracture.

KEY FACT Osteoporosis is the most common cause of pathologic fractures in thin women and men > 60 years of age.

KEY FACT Upper gastrointestinal side effects such as reflux, esophagitis, and esophageal ulcers are common reasons for oral bisphosphonate (alendronate and risedronate) intolerance.

F I G U R E 2 . 3 - 9 .   Radiographic findings in osteoporosis. Lateral thoracic spine radiograph shows osteoporosis and an anterior wedge deformity of a lower thoracic vertebral body with associated kyphosis. This is a typical insufficiency fracture in osteoporotic patients. (Reproduced with permission from Fauci AS, et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

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KEY FACT Increased serum alkaline phosphatase with normal gamma-glutamyl transpeptidase (GGT) points to bone etiology, not a liver etiology.

MNEMONIC Symptoms and signs of Paget disease of bone—

PANICS Pain Arthralgia Nerve compression/Neural deafness Increased bone density Cardiac failure Skull involvement/Sclerotic vertebra

ENDOCRINOLOGY

PAGET DISEASE OF BONE

Characterized by an ↑ rate of bone turnover with both excessive resorption and formation of bone, leading to a “mosaic” lamellar bone pattern appearance on x-ray. Suspected to be caused by the effects of a latent viral infection in genetically susceptible individuals. Associated with 1° hyperparathyroidism and ↑ risk for osteosarcoma. The disease can affect one (monostotic) or more (polystotic) bones, with the skull, vertebral bodies, pelvis, and long bones most commonly affected. History/PE ■ Usually asymptomatic. ■ May present with aching bone or joint pain, bony deformities, fracture at a pagetoid site, nerve entrapment, headaches, and hearing loss (latter two occur if involving the skull). Diagnosis ■ Best initial test: Plain film x-rays (lytic and sclerotic lesions; see Figure 2.3-10) usually diagnostic. ■ Radionuclide bone scan necessary to characterize extent and sites of disease (see Figure 2.3-11).

F I G U R E 2 . 3 - 1 0 .   Radiographic findings in Paget disease. Pelvic radiograph

demonstrates a thickened cortex (arrow), thickened trabeculae (arrowhead), and expansion of the right femoral head, classic signs of Paget disease. (Reproduced with permission from Fauci AS, et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

F I G U R E 2 . 3 - 1 1 .   Radionuclide bone scan in Paget disease. Dark areas represent increased bone-seeking isotope uptake and depicts severe disease in the left femur. (Reproduced with permission from Takigami I, et al. Functional bracing for delayed union of a femur fracture associated with Paget’s disease of the bone in an Asian patient: a case report. J Orthop Surg Res. 2010;5:33.)

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ENDOCRINOLOGY Lab values: ↑ Serum alkaline phosphatase with normal calcium and phosphate levels. Must be distinguished from metastatic bone disease.

Treatment ■ Most patients are asymptomatic and require no treatment. ■ There is no cure, but goal is to reduce pain and disease progression. ■ Pharmacologic: Bisphosphonates (first-line), calcitonin (if intolerant to bisphosphonates), calcium and vitamin D supplementation, analgesics (NSAIDs and acetaminophen). ■ Adjunctive therapy: Physiotherapy, occupational therapy. ■ Surgery: If necessary in the case of fractures, severe deformities, and osteoarthritis.

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KEY FACT Bone pain and hearing loss → think Paget disease.

Complications Osteoarthritis, pathologic fractures, high-output cardiac failure (from AV connections), osteosarcoma (up to 1%). HYPERPARATHYROIDISM

See Figure 2.3-8 for the effects of PTH on serum calcium and phosphate regulation. For a more thorough review of hypo- and hypercalcemia, see the Renal/Genitourinary chapter. 1° Hyperparathyroidism: Most cases (80%) are caused by a single hyperfunctioning adenoma, with the rest (15%) resulting from parathyroid hyperplasia and, rarely (5%), parathyroid carcinoma. ■ 2° Hyperparathyroidism: A physiologic ↑ of PTH in response to renal insufficiency (caused by ↓ production of 1-25 dihydroxyvitamin D), calcium deficiency, or vitamin D deficiency. ■ 3° Hyperparathyroidism: Seen in dialysis patients with long-standing 2°hyperparathyroidism that leads to hyperplasia of the parathyroid glands. When one or more of the glands become autonomous, 3° hyperparathyroidism results. ■ Pseudohypoparathyroidism: PTH resistance. ↑ PTH levels but ineffective at target organs. Hypocalcemia and hyperphosphatemia. Associated with Albright hereditary osteodystrophy (may have shortened fourth and fifth metatarsal or metacarpal bones). ■

History/PE Most cases of 1° hyperparathyroidism are asymptomatic but may show signs and symptoms of hypercalcemia (see Renal/Genitourinary chapter). Diagnosis ■ Lab results in 1° hyperparathyroidism reveal hypercalcemia, hypophosphatemia, and hypercalciuria. Intact PTH is inappropriately ↑ relative to total and ionized calcium (see Table 2.3-9). ■ A 99mTc sestamibi scan, in conjunction with thyroid ultrasonography, can help localize a solitary adenoma. ■ DEXA may reveal low bone mineral density or frank osteoporosis in the distal radius or other sites. ■ Consider renal imaging to look for nephrocalcinosis and nephrolithiasis.

KEY FACT Hypercalcemia is associated with “stones, bones, moans, groans, and psychiatric overtones.” Administer IVfluids (first-line) and calcitonin. Add bisphosphonates if malignancy.

KEY FACT Etiologies of hypoparathyroidism include iatrogenic (postsurgical), autoimmune, congenital (DiGeorge), infiltrative (hemochromatosis, Wilson) diseases.

Treatment ■ Best initial treatment: For acute hypercalcemia, IV fluids and calcitonin. Consider IV bisphosphonates for long term. ■ Parathyroidectomy if the patient is symptomatic or if certain criteria are met (↑↑ calcium, ↑ creatinine, ↓ Bone mineral density, < 50 years of age). In the case of a solitary adenoma, 1 gland can be removed. In the setting of hyperplasia, 3.5 glands must be removed.

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ENDOCRINOLOGY

TA B L E 2.3 - 9. 

Lab Values in Hyperparathyroidism

PTH

Calcium

PO4

Nl/↓

↑ (when etiology is renal failure)

Ectopic PTHrP a

Nl/↓

PTH-related peptide (PTHrP) is a member of the PTH family and acts on the same PTH receptors. Some tumors (eg, breast, lung) produce PTHrP, causing hypercalcemia of malignancy.

a

In patients with chronic kidney disease, administer oral phosphate binders (calcium salts, sevelamer hydrochloride, and lanthanum carbonate) and restrict dietary phosphate intake to prevent 2° hyperparathyroidism. ■ Cinacalcet is a calcimimetic that acts to lower serum PTH levels and is approved for use in hyperparathyroidism caused by renal failure or in patients who cannot undergo surgery. ■

KEY FACT Hyperparathyroidism can be caused by ectopic PTHrP production, particularly from carcinomas of the breast, lung, and head and neck.

Complications Hypercalcemia is the most severe complication of 1° hyperparathyroidism. Postparathyroidectomy, watch for hungry bone syndrome (severe and prolonged hypocalcemia caused by acute reversal of PTH and ↑ in bone uptake of calcium, phosphate, and magnesium).

Pituitary and Hypothalamic Disorders Figure 2.3-12 illustrates the hypothalamic-pituitary axis. The following sections outline the manner in which the components of this axis interact with target organs in various pathologic states. HYPOPITUITARISM

Caused by mass lesions (tumors, cysts), surgery, radiation, Sheehan syndrome (pituitary infarction seen in severe postpartum hemorrhage), apoplexy

F I G U R E 2 . 3 - 1 2 .   The hypothalamic-pituitary axis. ACTH, adrenocorticotropic hormone; CRH, corticotropin-releasing hormone; FSH, follicle-stimulating hormone; GH, growth hormone; GHRH, growth hormone-releasing hormone; GnRH, gonadotropin-releasing hormone; LH, luteinizing hormone ; TRH, thyrotropin-releasing hormone; TSH, thyroidstimulating hormone. (Reproduced with permission from USMLE-Rx.com.)

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(hemorrhage), infiltrative disorders (hemochromatosis), infections. Gonadotropins and growth hormone are often affected first.

Stress Circadian rhythm

Hypothalamus

History/PE See corresponding sections for presentation of pituitary hormone deficiencies. May present suddenly (apoplexy, Sheehan syndrome) or gradually (radiation, infiltrative diseases). Diagnosis Measure 8 am cortisol (on at least two separate occasions), free T4 (TSH not diagnostic), testosterone/estradiol levels, insulin-like growth factor 1 (IGF-1).

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CRH

Anterior pituitary Endorphins MSH

Treatment Treat underlying disorder. See corresponding sections for treatments of specific hormone deficiencies.

Pro-opio-melano-cortin (POMC)

ACTH

Cortisol

CUSHING SYNDROME

Elevated serum cortisol levels and most frequently from prolonged treatment with exogenous corticosteroids. The most common endogenous cause is hypersecretion of ACTH from a pituitary adenoma (known as Cushing disease; see Figure 2.3-13). Other endogenous causes include excess adrenal secretion of cortisol (eg, bilateral adrenal hyperplasia, adrenal adenoma, adrenal cancer) and ectopic ACTH production from an occult neoplasm (eg, carcinoid tumor, medullary thyroid cancer, small cell lung cancer). History/PE See Figure 2.3-14 for classic signs and symptoms of Cushing syndrome.

Downstream cortisol function F I G U R E 2 . 3 - 1 3 .   The hypothalamicanterior pituitary axis (hypophyseal portal system): Cushing disease.

ACTH,adrenocorticotropic hormone; CRH, corticotropin-releasing hormone. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT Emotional disturbance Enlarged sella turcica Moon facies

Cushing syndrome: Too much cortisol. Cushing disease: Too much cortisol from an ACTH-producing pituitary adenoma.

Osteoporosis Hypertension Buffalo hump Obesity Adrenal tumor or hyperplasia Thin, wrinkled skin Abdominal striae Amenorrhea Muscle weakness Purpura Skin ulcers (poor healing)

FIGURE 2.3-14.  USMLE-Rx.com.)

Physical findings in Cushing syndrome. (Reproduced with permission from

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An asymptomatic 36-year-old man presents for his annual physical. Routine labs reveal a serum calcium level of 11.3 mg/dL. He returns in 2weeks, and his serum calcium level remains elevated. Additional studies show a normal serum PTH level and a low 24-hour urinary calcium level. What is the most likely diagnosis?

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KEY FACT In Cushing disease, cortisol secretion remains elevated with the low-dose (1 mg) dexamethasone test but is suppressed with the high-dose (8 mg) dexamethasone test.

ENDOCRINOLOGY Diagnosis Diagnosis follows a stepwise progression of tests. See Figure 2.3-15 for the diagnostic algorithm. Table 2.3-10 outlines important lab findings that aid in diagnosis. Treatment ■ Exogenous: Gradually withdraw and stop glucocorticoids. ■ Endogenous: Surgical resection of the source (pituitary, adrenal, ectopic neoplasm). Permanent hormone replacement therapy to correct deficiencies after treatment or resection of the 1° lesion.

MNEMONIC Clinical suspicion of Cushing syndrome

Cushing syndrome symptoms—

CUSHINGOID Cataracts Ulcers Skin (striae, bruising, thinning, ulcer) Hirsutism, hypertension Infections Necrosis (femur head) Glycosuria Obesity, osteoporosis Immunosuppression Diabetes

Perform 24-hour urinary free cortisol or 1 mg overnight dexamethasone suppression of plasma cortisol Suppression = normal

Not Cushing syndrome

No suppression by 1 mg dexamethasone confirm with elevated urinary free cortisol

Probable Cushing syndrome

Measure plasma ACTH

Plasma ACTH low or suppressed

Plasma ACTH high or not suppressed (normal)

Adrenal tumor (confirm with adrenal CT/MRI)

ACTH-dependent Cushing syndrome

MRI of the pituitary

Familial hypocalciuric hypercalcemia (FHH), an inherited disorder caused by mutations in a calcium-sensing receptor present in the parathyroid and kidney, presents with elevated serum calcium levels. Unlike patients with 1° hyperparathyroidism, these patients are asymptomatic and have low urinary calcium levels. No treatment is required.

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FIGURE 2.3-15. 

Definitive adenoma (size > 6mm, hypointense after gadolinium)

No adenoma or small lesions (< 6mm)

Cushing disease

Petrosal sinus sampling with CRH

Presence of a centralperipheral ACTH gradient

No central-peripheral ACTH gradient

Cushing disease

Ecotopic ACTH-dependent Cushing syndrome

Diagnostic algorithm for Cushing syndrome. ACTH, adrenocortico-

tropic hormone. (Reproduced with permission from USMLE-Rx.com.)

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TA B L E 2.3 - 10. 

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Laboratory Findings in Cushing Syndrome

24-hour urinary free

Cushing Disease (Pituitary Hypersecretion)

Exogenous Steroid Use

Ectopic ACTH Secretion

Adrenal Cortisol Hypersecretion

cortisol Salivary cortisol ACTH Dexamethasone suppression test morning cortisol level:

N/Aa

N/Aa

Low dose 

High dose

A dexamethasone suppression test is not required once the diagnosis of ACTH-independent Cushing syndrome is made.

a

ACROMEGALY

Elevated growth hormone (GH) levels in adults, most commonly caused by a benign pituitary GH-secreting adenoma (see Figure 2.3-16). Children with excess GH production present with gigantism. History/PE ■ Presents with enlargement of the skull (frontal bossing, wide-spaced teeth), hands, and feet, coarsening of facial features, large tongue, and skin tags. Associated with an ↑ risk for carpal tunnel syndrome, obstructive sleep apnea, type 2 DM, heart disease (diastolic dysfunction), hypertension, colon cancer, and arthritis. ■ Bitemporal hemianopsia may result from compression of the optic chiasm by a pituitary adenoma. ■ Excess GH may also lead to glucose intolerance, diabetes, and cardio­ myopathy. Diagnosis ■ Lab tests: Measure IGF-1 levels (↑ with acromegaly); confirm diagnosis with an oral glucose suppression test (GH levels will remain elevated despite glucose administration). Baseline GH is not a reliable test. ■ Imaging: MRI shows a sellar lesion. Treatment ■ Surgery: Transsphenoidal surgical resection. ■ Medical therapy: Octreotide or lanreotide (somatostatin analogues) can be used to suppress GH secretion; pegvisomant (a GH receptor antagonist) can be used to block the peripheral actions of GH. ■ Radiation: Effective when surgical and medical therapies fail.

KEY FACT Measure IGF-1 levels to confirm acromegaly, not GH levels!

Complications The leading cause of death is from cardiovascular complications (congestive heart failure).

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Sleep Hypoglycemia Stress

Aging Obesity Glucose

GHRH SS

Posterior pituitary

Anterior pituitary

Growth hormone

Amino acid uptake Protein synthesis DNA and RNA synthesis Chondroitin sulfate Collagen Cell size and number

IGF-I

Amino acid uptake Protein synthesis

Glucose uptake Lipolysis

F I G U R E 2 . 3 - 1 6 .   The hypothalamic–anterior pituitary axis (hypophyseal portal system): acromegaly. GHRH, growth hormone-releasing hormone; IGF-1, insulin-like growth factor 1. (Reproduced with permission from USMLE-Rx.com.)

HYPERPROLACTINEMIA

KEY FACT Rule out pregnancy in all cases of hyperprolactinemia!

Elevated prolactin levels, most commonly caused by a pituitary adenoma (see Figure 2.3-17). Prolactinoma is the most common functioning pituitary tumor. Other causes include pituitary stalk compression from other masses (eg, craniopharyngioma, meningioma, nonsecreting pituitary tumor), drugs (eg, dopamine antagonists), renal failure, and cirrhosis. History/PE Elevated prolactin inhibits GnRH secretion and consequently lowers LH and FSH secretion, manifesting as infertility, galactorrhea, gynecomastia, impotence, and amenorrhea. Bitemporal hemianopsia may also be present. Diagnosis ■ Serum prolactin level is typically > 200 ng/mL. ■ Pregnancy test (exclude pregnancy). ■ MRI shows a sellar lesion.

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Sight/cry of baby

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Higher cortical centers

Hypothalamus Dopamine antagonists Chest wall injury (via ANS) Nipple stimulation

Dopamine

↑ Plasma T3/T4

TRH

Posterior pituitary

Anterior pituitary Estrogen

Pregnancy FSH

Prolactin

Renal failure

GnRH LH

Via reduced prolactin elimination

Progesterone

Ovulation Spermatogenesis

Milk production Suckling

F I G U R E 2 . 3 - 1 7 .   The hypothalamic–anterior pituitary axis (hypophyseal portal system): prolactin regulation. ANS, autonomic nervous system; FSH, follicle-stimulating hormone; GnRH, gonadotropin-releasing hormone; LH, luteinizing hormone; TRH, thyrotropinreleasing hormone. (Reproduced with permission from USMLE-Rx.com.)

Treatment ■ Best initial treatment: Dopamine agonists (eg, cabergoline, bromocriptine). ■ Surgery: Indicated in adenomas refractory to medical management or with compressive effects (eg, visual loss). ■ Radiation: Rarely indicated.

KEY FACT In patient suspected of diabetes insipidus, ensure to check serum or urinary glucose to rule out diabetes mellitus.

DIABETES INSIPIDUS

Inability to produce concentrated urine as a result of antidiuretic hormone (ADH) dysfunction. The two subtypes of diabetes insipidus (DI) are as follows: Central DI (ADH deficiency): The posterior pituitary gland fails to secrete ADH. Causes include tumor, ischemia (Sheehan syndrome), pituitary hemorrhage, traumatic brain injury, infection, metastatic disease, and autoimmune disorders (see Figure 2.3-18). ■ Nephrogenic DI (ADH resistance): The kidneys fail to respond to circulating ADH. Causes include renal disease and drugs (eg, lithium, demeclocycline). ■

History/PE ■ Presents with polydipsia, polyuria, and persistent thirst with dilute urine. Most cases are normonatremic. ■ If access to water is limited (eg, in the institutionalized or elderly), patients may present with dehydration and severe hypernatremia leading to altered mental status, lethargy, seizures, and coma.

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ENDOCRINOLOGY Diagnosis ■ Lab tests: Serum osmolality > urine osmolality, ↓ urinary sodium, and possible hypernatremia. ■ Water deprivation test: In psychogenic polydipsia and normal renal physiology, water restriction will lead to more concentrated urine. In central and nephrogenic DI, patients excrete a high volume of inappropriately dilute urine. ■ Desmopressin acetate replacement test: ■ Also known as DDAVP, a synthetic analogue of ADH. ■ Central DI: ↓ Urine output and ↑ urine osmolarity (by 50–100%). ■ Nephrogenic DI: No effect is seen on urine output or urine osmolarity. ■ MRI may show a pituitary or hypothalamic mass in central DI. Treatment ■ Treat the underlying cause. ■ Central DI: Administer DDAVP intravenously, intranasally, or orally. ■ Nephrogenic DI: Salt restriction, reduced water intake, hydrochlorothiazide, amiloride. SYNDROME OF INAPPROPRIATE ANTIDIURETIC HORMONE SECRETION

Syndrome of inappropriate antidiuretic hormone secretion (SIADH) is a common cause of euvolemic hyponatremia that results from persistent ADH release independent of serum osmolality (see Figure 2.3-19). Hypothalamus Hypothalamus

Posterior Posterior

Anterior

Central DI ADH

ADH

ADH

ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH ADH

Nephrogenic DI

↑ Plasma osmolality

↓ Plasma osmolality

F I G U R E 2 . 3 - 1 8 .   The hypothalamicpituitary axis: diabetes insipidus. ADH,

F I G U R E 2 . 3 - 1 9 .   The hypothalamicpituitary axis: SIADH. ADH, antidiuretic

antidiuretic hormone; DI, diabetes insipidus.

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Anterior

hormone.

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History/PE May be associated with: CNS disease (eg, head injury, tumor), pulmonary disease (eg, sarcoid, COPD, pneumonia), ectopic tumor production/paraneoplastic syndrome (eg, small cell lung carcinoma), and drugs (eg, antipsychotics, antidepressants, NSAIDs). Euvolemic on physical exam. Diagnosis ■ Serum osmolality < 280 mOsm/kg (hypotonic). ■ Urine osmolality > 100 mOsm/kg in the setting of serum hypo­ osmolarity without a physiologic reason for ↑ ADH (eg, congestive heart failure, cirrhosis, hypovolemia). ■ Urinary sodium level often ≥ 20 mEq/L. Treatment ■ Explore and address the underlying cause. ■ Best initial treatment: Restrict fluid. ■ Persistent or symptomatic hyponatremia (< 120 mEq/L): IV hypertonic saline therapy. ■ Severe SIADH: ADH antagonists (eg, tolvaptan, conivaptan). ■ Chronic SIADH: Demeclocycline.

KEY FACT Fluid restriction is the cornerstone of SIADH treatment.

KEY FACT Correct hyponatremia slowly to prevent osmotic demyelination syndrome.

Adrenal Gland Disorders

KEY FACT

See Figure 2.3-20 for an overview of adrenal anatomy, regulatory control, and secretory products.

Dehydroepiandrosterone (DHEAS) is produced only by the adrenal gland.

ADRENAL INSUFFICIENCY

Inadequate production of adrenal hormones, including glucocorticoids and/ or mineralocorticoids. Adrenal insufficiency (AI) may be 1° or 2°/3°. Etiologies are as follows: ■

1°: In the United States, most commonly caused by autoimmune adrenal cortical destruction (Addison disease). Other causes include congenital enzyme deficiencies, adrenal hemorrhage (Waterhouse-Friderichsen syndrome from Neisseria meningitidis), and infections (HIV, histoplasmosis, TB).

ANATOMY Adrenal gland CORTEX

HISTOLOGY

1˚ REGULATION BY

HORMONE CLASS

1˚ HORMONE PRODUCED

Zona glomerulosa

Angiotensin II

Mineralocorticoids

Aldosterone

Zona fasciculata

ACTH, CRH

Glucocorticoids

Cortisol

ACTH, CRH

Androgens

DHEA

Preganglionic sympathetic fibers

Catecholamines

Epi, NE

Capsule

Zona reticularis Superior surface of kidney

MEDULLA

Chromaffin cells

F I G U R E 2 . 3 - 2 0 .   Overview of adrenal anatomy, regulatory control, and secretory products. ACTH, adrenocorticotropic hormone; CRH, corticotropin-releasing hormone; DHEA, dehydroepiandrosterone; Epi, epinephrine; NE, norepinephrine. (Reproduced with permission from USMLE-Rx.com.)

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ENDOCRINOLOGY

TA B L E 2.3 - 11. 

KEY FACT 1° AI is associated with ↑ skin pigmentation, ↓ glucocorticoids, and ↓ mineralocorticoids. 2° AI is only associated with ↓ glucocorticoids and does not have skin pigmentation or hyperkalemia.

MNEMONIC The 4 S’s of adrenal crisis management— Salt: 0.9% saline Steroids: IV hydrocortisone 100 mg every 8 hours Support Search for the underlying illness

KEY FACT Do not delay the administration of steroids in a patient with suspected AI.

MNEMONIC Pheochromocytoma rule of 10’s— 10% Extra-adrenal 10% Bilateral 10% Malignant 10% Occur in children 10% Familial

1° Adrenal

Laboratory Findings in Adrenal Insufficiency

Cortisol

Aldosterone

ACTH

Sodium

Potassium

↑↑

Normal

Nl/↓

Nl

insufficiency 2°/3° Adrenal insufficiency

2°/3°: Caused by ↓ ACTH production by the pituitary gland or ↓ CRH production by the hypothalamus; most often caused by cessation of longterm glucocorticoid treatment (often during higher doses and longer duration of therapy).

History/PE ■ Most symptoms are nonspecific. ■ Weakness, fatigue, and anorexia with weight loss are common. ■ Hyperpigmentation (caused by ↑ ACTH secretion) and non–anion gap metabolic acidosis (caused by ↓ aldosterone deficiency) is seen in Addison disease. ■ Hypotension, confusion, and coma is seen in acute adrenal crisis (eg, stopping long-term steroids). Diagnosis ■ Lab tests: Hypoglycemia, electrolyte imbalances (see Table 2.3-11). ■ 8 am plasma cortisol levels and ACTH levels (see Table 2.3-11). An 8 am plasma cortisol level < 3 μg/dL in the absence of exogenous glucocorticoid administration is diagnostic of AI. ■ A synthetic ACTH stimulation (cosyntropin) test is the test of choice if morning cortisol levels are nondiagnostic. Failure of cortisol to rise > 20 μg/dL following ACTH administration confirms the diagnosis. Treatment ■ 1°: Glucocorticoid and mineralocorticoid replacement. ■ 2°/3°: Only glucocorticoid replacement is necessary (mineralocorticoid production is not ACTH dependent). ■ Acute adrenal crisis: Provide IV steroids, correct electrolyte abnormalities as needed, provide 50% dextrose to correct hypoglycemia, and initiate aggressive volume resuscitation. ■ ↑ Steroids during periods of stress (eg, major surgery, trauma, infection). ■ In patients on chronic steroid therapy, taper slowly to prevent 2°/3° AI. PHEOCHROMOCYTOMA

A tumor of chromaffin tissue that secretes catecholamines and is found either in the adrenal medulla or in extra-adrenal sites. Most commonly associated with MEN 2A and 2B. History/PE ■ Presents with paroxysmal tachycardia, palpitations, chest pain, diaphoresis, hypertension, headache, tremor, and anxiety. ■ Obtain a family history to rule out genetic causes of pheochromocytoma (eg, MEN 2A/2B, von Hippel–Lindau disease, neurofibromatosis).

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A

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B

F I G U R E 2 . 3 - 2 1 .   Pheochromocytoma. (A) MRI showing left suprarenal mass (arrow). (B) Pheochromocytoma postsurgical resection. (Reproduced with permission from Roghi A, et al. Adrenergic myocarditis in pheochromocytoma. J Cardiovasc Magn Reson. 2011;13:4.)

Diagnosis ■ Best initial test: Look for ↑ 24-hour urine metanephrines and catecholamines or plasma-fractionated metanephrines. ■ Imaging (only after labs): CT or MRI of adrenal glands (see Figure 2.3-21). A nuclear metaiodobenzylguanidine (MIBG) scan can localize extra-adrenal lesions and metastatic disease. Treatment ■ Surgical resection. ■ Preoperatively, use α-adrenergic blockade first (phenoxybenzamine) to control hypertension, followed by β-blockade to control tachycardia. Never give β-blockade first, as unopposed α-adrenergic stimulation can lead to severe hypertension. HYPERALDOSTERONISM

Results from excessive secretion of aldosterone from the zona glomerulosa of the adrenal cortex. It is usually caused by bilateral adrenocortical hyperplasia (60–70%) but can also result from unilateral adrenal adenoma (Conn syndrome). History/PE ■ Presents with hypertension, headache, polyuria, and muscle weakness (caused by hypokalemia). ■ Consider hyperaldosteronism in younger adults who are diagnosed with hypertension without risk factors or a family history of hypertension. Diagnosis ■ Lab tests: Hypokalemia, metabolic alkalosis, hypomagnesemia, hyperaldosteronism, ↑ aldosterone-to-plasma renin activity ratio (usually > 30). ■ Imaging: Only after labs. CT or MRI may reveal an adrenal mass. ■ Adrenal venous sampling (will show ↑ aldosterone) may be needed to localize the adenoma or to confirm bilateral adrenal hyperplasia. Treatment ■ Adenoma: Surgical resection (after correction of BP and potassium). ■ Bilateral hyperplasia: Aldosterone receptor antagonist (eplerenone preferred over spironolactone as has fewer side effects).

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MNEMONIC The 5 P’s of pheochromocytoma— Pressure (BP) Pain (headache) Perspiration Palpitations Pallor

KEY FACT In pheochromocytoma, administer α-blockers before β-blockers to prevent hypertensive crisis.

1 A 23-year-old man with a history of schizophrenia presents with complaints of fatigue, weakness, cramps, and headache for the past several days. He denies any other symptoms, although he had to urinate several times while in the office. Routine labs reveal hyponatremia. With water deprivation, his urine osmolality↑. What is the most likely diagnosis?

2 An asymptomatic 36-year-old woman presents with a 2-cm thyroid mass. TFTs are unremarkable, but FNA reveals medullary carcinoma. Total thyroidectomy with thyroid hormone replacement is recommended. What is the most important screening test to perform prior to surgery?

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TA B L E 2.3 - 12. 

ENDOCRINOLOGY

Overview of Congenital Adrenal Hyperplasia

Sex Enzyme Deficiency

Mineralocorticoids

Cortisol

Hormones

BP

[K+]

17α-hydroxylasea

Laboratory tests ↓ Androstenedione

Presentation XY: pseudohermaphroditism (ambiguous genitalia, undescended testes) XX: lack secondary sexual development

21-hydroxylasea

↑ Renin activity

Most common

↑ 17-hydroxyprogesterone

Presents in infancy

↓ Sodium

(salt wasting) or

↓ Chloride

childhood (precocious puberty) XX: virilization

11β-hydroxylasea

↓ Aldosterone

↓ Renin activity

XX: virilization

↑ 11-deoxycorticosterone (results in ↑ BP) All congenital adrenal enzyme deficiencies are characterized by an enlargement of both adrenal glands caused by ↑ ACTH stimulation (caused by ↓ cortisol). a

Reproduced with permission from Le T, Bhushan V. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill; 2018.

1 1° (psychogenic) polydipsia, a condition in which patients consume large volumes of fluid, resulting in polyuria. It most often occurs in patients with psychiatric disorders. Patients present with symptoms similar to DI, but following a water deprivation test, urine osmolality ↑(vs DI, in which urine remains dilute).

2 VMA and metanephrines. Medullary carcinoma of the thyroid is associated with MEN type 2A/2B, an autosomal dominant condition that predisposes patients not only to medullary carcinoma but also to parathyroid adenomas and pheochromocytomas. Screening for pheochromocytoma with urine VMA and metanephrines prior to surgery can prevent potentially life-threatening hypertensive crises during thyroidectomy.

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CONGENITAL ADRENAL HYPERPLASIA

Inherited enzyme defects that impair cortisol synthesis and result in the accumulation of cortisol precursors. Most cases are caused by 21-hydroxylase deficiency (95%, autosomal recessive), but other causes include 11- and 17-hydroxylase deficiencies. History/PE See Table 2.3-12. Diagnosis ■ Lab tests: Electrolyte abnormalities (see Table 2.3-12). In severe cases, mineralocorticoid deficiency may lead to life-threatening salt wasting. ■ Elevated serum 17-hydroxyprogesterone level is diagnostic of 21-hydroxylase deficiency. Treatment ■ Immediate fluid resuscitation and salt repletion. Administer cortisol to ↓ ACTH and adrenal androgens. Fludrocortisone is appropriate for severe 21-hydroxylase deficiency. ■ Possible surgical correction of ambiguous genitalia. ■ Refer to the Gynecology chapter for information on the diagnosis and treatment of late-onset CAH.

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ENDOCRINOLOGY

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Multiple Endocrine Neoplasias A family of tumor syndromes with autosomal dominant inheritance (see Figure 2.3-22). MEN type 1 (Wermer syndrome): ■ Pancreatic islet cell tumors. ■ Gastrinomas: Zollinger-Ellison syndrome. ■ Insulinomas: Recurrent hypoglycemia with elevated insulin and C-peptide levels. ■ VIPomas: Watery diarrhea, hypokalemia, hypochlorhydria. ■ Glucagonoma: New-onset diabetes, necrolytic migratory erythema. ■ Parathyroid hyperplasia. ■ Pituitary adenomas. ■ MEN type 2A (Sipple syndrome): Medullary carcinoma of the thyroid, pheochromocytoma or adrenal hyperplasia, parathyroid gland hyperplasia. Caused by mutations in the RET proto-oncogene. ■ MEN type 2B: Medullary carcinoma of the thyroid, pheochromocytoma, oral and intestinal ganglioneuromatosis (mucosal neuromas), marfanoid habitus. Caused by mutations in the RET proto-oncogene. ■

117

KEY FACT Congenital aromatase deficiency will present similarly to CAH in female newborns with external virilization and ambiguous external genitalia. However, the patient will have no electrolyte or blood pressure abnormalities.

MNEMONIC MEN 1 affects “P” organs— Pancreas Pituitary Parathyroid

Pituitary Pancreas

Parathyroids

Thyroid (medullary carcinoma) Pheochromocytomas

Mucosal neuromas

MEN 1 = 3 P’s: Pituitary, Parathyroids, and Pancreas MEN 2A = 2 P’s: Parathyroids and Pheochromocytomas MEN 2 B = 1 P: Pheochromocytomas FIGURE 2.3-22.  Rx.com.)

Multiple endocrine neoplasias (MEN). (Reproduced with permission from UMSLE-

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NOTES

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HIGH-YIELD FACTS IN

EPIDEMIOLOGY Assessment of Disease Frequency

120

Assessment of Diagnostic Studies

120

Sensitivity and Specificity

120

Positive and Negative Predictive Values

121

Likelihood Ratio

122

Measures of Effect

122

Survival Curves

123

Types of Clinical Studies

123

Cross-Sectional Study

124

Cohort Study

124

Case-Control Study

124

Randomized Controlled Trial

125

Evaluating Clinical Studies

126

Bias

126

Statistical Testing

127

Prevention

128

Vaccination

128

Behavioral Counseling

130

Screening Recommendations

132

Causes of Death

133

Reportable Diseases

134

119

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EPIDEMIOLOGY

KEY FACT Incidence can be measured in a cohort study; prevalence can be measured in a cross-sectional study.

Assessment of Disease Frequency The prevalence of a disease is the number of existing cases in the population at a specific moment in time. total number of cases in the population at one point in time total population The incidence of a disease is the number of new cases in the disease-free population (“population at risk”) that develop over a period of time. Prevalence =

KEY FACT As the mortality of a disease ↓, the prevalence of that disease ↑ (eg, HIV infection), because the duration of disease has lengthened. Remember: P = I × D.

KEY FACT

Incidence =

number of new cases in the population over a given time period total population at riisk during the specified time period

Prevalence depends on incidence and duration. Prevalence (P) = incidence (I) × average duration of disease (D) For incidence, remember to subtract any preexisting cases of the disease from the total population at risk, as these individuals are no longer at risk.

Accuracy (and validity) measures bias. Accuracy requires correct measurements. Precision (and reliability) measures random error. Precision↑ with ↑ sample size.

Assessment of Diagnostic Studies SENSITIVITY AND SPECIFICITY

Physicians often use tests to narrow and confirm possible diagnoses. The sensitivity and specificity of these tests allow physicians to determine how often false⊕ and false⊝ results occur (see Figure 2.4-1). Both sensitivity and specificity are independent of disease prevalence. Sensitivity: The probability that a patient with a disease will have a ⊕ test result. ■ A sensitive test will rarely miss people with the disease and is therefore good at ruling out those who do not have the disease. A high sensitivity means there is a low false⊝ rate. ■ Desirable early in a diagnostic workup or screening test, when it is necessary to reduce a broad differential diagnosis. ■ Example: An initial ELISA test for HIV infection.

MNEMONIC SNOUT—SeNsitive tests rule OUT disease. SPIN—SPecific tests rule IN disease.

False⊝ ratio = 1 − sensitivity Specificity: The probability that a patient without a disease will have a ⊝ test result. ■ A specific test will rarely determine that someone has the disease when in fact they do not and is therefore good at ruling in those who have the disease. A high specificity means there is a low false⊕ rate.

Disease present

No disease

Positive test

a

b

PPV = a / (a + b) LR+ = Sensitivity / (a − Specificity)

Negative test

c

d

NPV = d / (c + d ) LR− = (1 Sensitivity) / Specificity

Sensitivity = a / (a + c) Specificity = d / (b + d) Prevalence = (a + b) / (a + b + c + d) F I G U R E 2 . 4 - 1 .   Sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV). Presence or absence of disease is typically assessed using a “gold standard”

test, or the most accurate test available for a given disease.

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Number of people

EPIDEMIOLOGY

No disease

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121

Disease POSSIBLE CUTOFF VALUES A = 100% sensitivity cutoff value B = practical compromise between specificity and sensitivity C = 100% specificity cutoff value

A

FIGURE 2.4-2. 

B Test results

C

Effect of cutoff values on sensitivity and specificity. (Modified with permission from USMLE-RX.com.)

Desirable when confirming a likely diagnosis. ↑ Specificity ↓ the number of false⊕ results. ■ Example: A Western blot confirmatory HIV test. ■

False⊕ ratio = 1 − specificity The ideal test is both sensitive and specific, but a trade-off must often be made between sensitivity and specificity (see Figure 2.4-2). For a given test, when sensitivity ↑, specificity ↓ (and vice versa). Occasionally, you will be asked to compare different diagnostic tests using their receiver operating characteristic (ROC) curves, where sensitivity is plotted on the y-axis and 1 – specificity is plotted on the x-axis (see Figure 2.4-3). The best diagnostic test will have a curve that “hugs” the x- and y-axes (curveX). POSITIVE AND NEGATIVE PREDICTIVE VALUES

Once a test has been administered and a patient’s result has been made available, that result must be interpreted through use of predictive values. Remember, unlike sensitivity and specificity, positive predictive value (PPV) and negative predictive value (NPV) depend both on the test characteristics and the underlying disease prevalence. PPV: The probability that a patient with a ⊕ test result truly has the disease. The higher the disease prevalence, the higher the PPV of the test for that disease. A change in test cutoff point which ↑ both TP and FP will ↓ the PPV.

1 X

0.8

Y

Specificity

0.6 0.4 0.2 0 0

FIGURE 2.4-3. 

0.2

0.4 0.6 1-sensitivity

0.8

1

Receiver operating characteristic (ROC) curves. Curve X represents a bet-

ter diagnostic test than curve Y. (Reproduced with permission of USMLE-Rx.com.)

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Your hospital is considering adopting a new diagnostic test for pheochromocytoma. In Figure 2.4-2, the current diagnostic test (urinary metanephrines) falls close to pointB. The new test falls closer to pointA. How will the false positive and false negative rates of this new test compare to urinary metanephrines?

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HIGH-YIELD FACTS IN

EPIDEMIOLOGY NPV: The probability that a patient with a ⊝ test result truly does not have the disease. The lower the disease prevalence, the higher the NPV of the test for that disease.

LIKELIHOOD RATIO

The likelihood ratio (LR) expresses the extent to which a given test result is likely in diseased people as opposed to people without disease: ⊕ LR shows how much the odds (or probability) of disease are ↑ if the test result is ⊕. ■ ⊝ LR shows how much the odds (or probability) of disease are ↓ if the test result is ⊝. ■

LR+ = sensitivity/(1 − specificity) LR− = (1 − sensitivity)/specificity Posttest odds = pretest odds × LR

Measures of Effect A central aim of epidemiology is to assess the relationship between an exposure event and an outcome measure. The likelihood or risk of observing an outcome following an exposure is quantified using measures of effect. There are several ways to express and compare risk. These include the following: Absolute risk: The incidence of disease. Attributable risk (or risk difference): The difference in risk between the exposed and unexposed groups.

■ ■

Attributable risk = incidence of disease in exposed − incidence in unexposed = (RR − 1)/RR Number needed to treat (NNT): Number of individuals that need to be treated for one patient to benefit.

NNT = 1/absolute risk reduction Relative risk (or risk ratio; RR): Expresses how much more likely an exposed person is to get the disease in comparison to an unexposed person. This indicates the relative strength of the association between exposure and disease, making it useful when one is considering disease etiology.

incidence in exposed incidence in unexposed RR > 1 suggests ↑ risk

RR =

RR < 1 suggests ↓ risk Odds ratio (OR): An estimate of relative risk that is used in case-control studies. The OR tells how much more likely it is that a person with a disease has been exposed to a risk factor than someone without the disease. The lower the disease prevalence, the more closely it approximates RR. In case-control studies, the OR also describes how many times more likely an exposed individual is to have disease compared to an unexposed individual (see Figure 2.4-4). ■ Hazard ratio (HR): An estimate of the chances that an event occurs in the treatment arm of a trial vs the nontreatment arm. Calculated similarly to ■

The false positive rate will ↑ (capturing more of the “no disease” cohort), but the false negative rate will ↓ (capturing the little tail of the “disease” cohort).

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EPIDEMIOLOGY

Disease develops

No disease

Exposure

a

b

No exposure

c

d

FIGURE 2.4-4. 

Relative risk (RR) vs odds ratio (OR).

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123

a / (a + b) Absolute risk = (a + c) / (a + b + c + d) c / (c + d) Attributable risk = a / (a + b) − c / (c + d) OR = ad / bc Number needed to treat = 1/AR RR =

OR. Values < 1 indicate that the treatment arm had a ↓ event rate and values > 1 indicate the event rate ↑. OR =

odds that a diseased person is exposed odds that a nondiseased person is exposed

Survival Curves Once a diagnosis has been established, it is important to be able to describe the associated prognosis. Survival analysis is used to summarize the average time from one event (eg, presentation, diagnosis, or start of treatment) to any outcome that can occur only once during follow-up (eg, death or recurrence of cancer). The usual method is with a Kaplan-Meier curve (see Figure 2.4-5) describing the survival in a cohort of patients, with the probability of survival ↓ over time as patients die or drop out from the study.

Types of Clinical Studies Studies are typically used to evaluate diagnosis, treatment, and screening for a disease. Although the gold standard for such evaluation is a randomized, double-blind controlled trial, other types of studies may be used as well (eg, an observational study, in which the exposure in question is a therapeutic intervention). In descending order of strength of evidence, published studies regarding treatment options include randomized controlled trials (RCTs),

KEY FACT Randomization minimizes bias and confounding; double-blind studies prevent observation bias.

100

Survival (%)

Chemotherapy plus radiation

50 Radiation alone

0 5

10 Years

15

F I G U R E 2 . 4 - 5 .   Example of a Kaplan-Meier curve. Tick marks indicate right-censoring, or patients who did not fulfill the outcome measure during follow-up. In this example, the blue curve represents a more favorable prognosis compared to the red curve.

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EPIDEMIOLOGY

observational studies, and case series/case reports. Meta-analyses are often used to systematically synthesize information across studies to help summarize the totality of the evidence. Randomization is successful when the baseline characteristics of patients in each group are statistically similar. CROSS-SECTIONAL STUDY

KEY FACT A cross-sectional study that is undertaken to estimate prevalence is called a prevalence study.

A cross-sectional study is an observational study that assesses risk factors and outcomes at a snapshot in time. This study does not prove temporal relationships because it measures correlation, not causation. Advantages of cross-sectional studies are as follows: Provide an efficient means of examining a population, allowing simultaneous assessment of people with the disorder and those without it. ■ Can be used as a basis for diagnostic testing. ■

Disadvantages include the following: Causal relationships cannot be determined because information is obtained only at a single point in time. ■ Risk or incidence of disease cannot be directly measured. ■

COHORT STUDY

In a cohort study, a group of people sharing certain characteristics (eg, age, gender, occupation, or date of birth) is assembled to study the relationships between exposures and outcomes of interest. For each possible risk factor, the members of the cohort are classified as either exposed or unexposed. All the cohort members are then followed over time, and the incidence of outcome events is compared in the two exposure groups. Example: The Framingham Heart Study followed a group of men and women over time to see how different exposures (eg, diet, exercise, aspirin) affected the incidence of heart disease. KEY FACT

Advantages of cohort studies are as follows: Only way to directly determine incidence (because they follow a cohort over time to assess disease development). ■ Can be used to assess the relationship of a given exposure to many diseases. ■ In prospective studies, exposure is elicited without bias from a known outcome. ■

Cohort studies are also known as longitudinal studies or incidence studies, from which both OR and RR can be calculated.

Disadvantages include the following: KEY FACT

Can be time-consuming and expensive. Studies assess only the relationship of the disease to the few exposure factors recorded at the start of the study. ■ Requirements for many subjects makes it difficult to study rare diseases. ■ ■

In cohort studies, the researcher determines whether the participants are exposed or unexposed and follows them over time for disease development.

Cohort studies can be either prospective, in which a cohort is assembled in the present and followed into the future, or retrospective, in which a cohort is identified from past records and is followed to the present. CASE-CONTROL STUDY

In a case-control study, a series of cases are identified and a set of controls are sampled from the underlying population to estimate the frequency of exposure in the population at risk for the outcome. In such a study, a researcher compares the frequency of exposure to a possible risk factor between the case

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EPIDEMIOLOGY

and control groups. Example: A study examines patients with heart disease (cases) and without heart disease (controls) and compares exposures to red meat between both groups. Validity depends on appropriate selection of cases and controls, the way exposure is measured, and the way with which confounding variables are dealt. ■ External validity (also known as generalizability) is the applicability of the results to a new population. ■ Cases and controls should be comparable in terms of opportunity for exposure (ie, they should be members of the same base population with an equal opportunity of risk factor exposure). ■ “Matching” occurs when the researcher chooses controls that match cases on a particular characteristic. ■ Example: If matching on gender, female cases would be matched to female controls and male cases would be matched to male controls. ■ The purpose of matching is to ↓ confounding. ■

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125

KEY FACT In case-control studies, the researcher controls the number of cases and controls. Only ORs can be calculated from case-control studies.

Advantages of case-control studies are as follows: Use smaller groups than cohorts, thereby reducing cost. Can be used to study rare diseases and can easily examine multiple risk factors. This is because in case-control studies the odds ratio is a close approximation of relative risk, known as “rare disease assumption.”

■ ■

Disadvantages include the following: Studies cannot calculate disease prevalence, or incidence, or directly estimate the relative risk because the numbers of subjects with and without a disease are determined artificially by the investigator, not by nature. However, an OR can be used to estimate a measure of RR, if the prevalence is low. ■ Retrospective data can be inaccurate because of recall or survivorship biases. ■

RANDOMIZED CONTROLLED TRIAL

An experimental, prospective study in which subjects are randomly assigned to a treatment or control group. Random assignment helps remove confounding and ensure that the two groups are truly comparable. The control group may be treated with a placebo or with the accepted standard of care. The study can be masked in one of two ways: single blind, in which patients do not know which treatment group they are in, or double blind, in which neither the patients nor their physicians know who is in which group. Double-blind studies are the gold standard for studying treatment effects. ■ Factorial design involves several rounds of randomization with two or more variables. ■ Example: A trial studies the role of aspirin in preventing MI by giving one randomized group a baby aspirin daily and the control group a placebo. The rates of MI are then measured. ■

Advantages of RCTs are as follows (see also Table 2.4-1): Minimize bias. Have the potential to demonstrate causal relationships, because exposure is assigned randomly, which minimizes confounding.

1 A local child care center that was built before the 1950s was found to have elevated lead levels in its paint. A student organization at your medical school is hosting a lead-screening event to test all children at the center. Which initial screening test would be more appropriate: a test that has high sensitivity or one that has high specificity?

2

Disadvantages include the following: Costly and time-intensive. Some interventions (eg, surgery) are not amenable to masking.

■ ■

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What happens to the PPV and NPV when prevalence ↓?

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TA B L E 2.4 - 1. 

Comparison of Study Designs

Variable Purpose

EPIDEMIOLOGY

RCT

Cohort

Tests causality through random assignment of exposure

Follows groups of patients over a specified period

Cross-Sectional Determines prevalence in a snapshot of time

Case Control Tests association (usually retrospectively, but

to capture the associa-

outcome first, then looks

tion of risk factors to the

for risk factors)

development of disease Measures

Varied, including response to treatment, adverse effects, sur-

RR, OR, incidence, prevalence

Prevalence (not

OR

incidence)

vival during follow-up Design

Subjects are randomly assigned to be in treatment or placebo arms

Advantages

Subjects are not assigned

mizes bias and confounding

and controls (no disease) groups first and then

in exposed or unexposed

determine the direc-

goes backward to deter-

groups and follows them

tionality of association

mine if they are exposed

until they develop the

between exposure

or not (the opposite of

disease (or do not)

and outcome

RCT and cohort studies)

Temporality can be determined; incidence can be

Less time-consuming and costly

determined Disadvantages

RCT is not possible when:

Follows large groups over

Treatment has a known adverse

long periods Selection bias in retrospec-

outcome

tive cohort studies

Disease is very rare

Treatment is in widespread use

Identifies cases (disease)

point in time; cannot

Determines if subjects are

Can determine causality; mini-

Determines disease prevalence at one

to groups

Predetermined number of cases; less timeconsuming and costly

Directionality of asso-

Recall bias, selection bias

ciation cannot be determined Incidence cannot be determined

or represents the best option (because it is unethical to withhold treatment)

1 A test with high sensitivity, such as a fingerstick lead test (capillary blood), is preferred for initial screening because it can ensure that no children who might have the disease—and who might benefit from further testing and treatment—will be missed. The children with a ⊕ fingerstick test should subsequently have a serum blood level drawn (higher specificity).

Evaluating Clinical Studies BIAS

Any process that causes results to systematically differ from the truth. Common types of bias include the following: Selection bias: Occurs when samples or participants are selected that differ from other groups in additional determinants of outcome. ■ Example: Individuals concerned about a family history of breast cancer may be more likely to self-select in entering a mammography program, giving the impression of a prevalence that is higher than it is in reality. ■ Example: If a substantial portion of subjects in one group are lost to follow-up (attrition bias), the study may overestimate the association. This is a special type of selection bias.

2 PPV ↓ and NPV ↑. Remember that if prevalence is low, even a test with high sensitivity or specificity will have a low PPV.

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EPIDEMIOLOGY

Measurement bias: Occurs when measurement or data-gathering methods differ between groups. ■ Example: One group is assessed by CT, while another group is assessed by MRI. ■ Confounding bias: Occurs when a third variable is either positively or negatively associated with both the exposure and outcome variables, inducing an incorrect association. ■ Example: Fishermen in an area may experience a higher incidence of lung cancer than that found in the general population. However, if smokers are more likely to become fishermen and are also more likely to develop lung cancer than nonsmokers, becoming a fisherman will not in itself lead to lung cancer. Rather, it is the smoking to which those fishermen are exposed that causes the association. ■ Effect modification, on the other hand, occurs when a third variable disproportionately affects two groups. Effect modification shows a meaningful difference, whereas confounding does not. ■ Example: A new chemotherapeutic agent is shown to improve survival in non-Hodgkin lymphoma, but only in patients who are undergoing radiation therapy, whereas those not receiving radiation show no benefit. ■ Recall bias: Results from a difference between two groups in the retrospective recall of past factors or outcomes. ■ Example: A patient with cancer may be more motivated to recall past episodes of chemical exposure than would a healthy individual. ■ Observer bias: Results from investigator’s awareness of the population being studied and its exposure status. ■ Example: A trial for new blood pressure management in the ICU is biased when the attending physician knows which patients are enrolled in the treatment arm. ■ Hawthorne effect: Results from study subjects’ awareness that they are being studied, causing them to change aspects of their behavior. ■ Example: Employees at an automotive factory may work more productively when they realize that their superiors are conducting random audits. ■ Lead-time bias: Results from earlier detection of disease, giving an appearance of prolonged survival when in fact the natural course is not altered. ■ Example: A new and widely used screening test that detects cancer 5years earlier may yield the impression that patients are living longer with the disease. ■ Length bias: Occurs when screening tests detect a disproportionate number of slowly progressive diseases but miss rapidly progressive ones, leading to overestimation of the benefit of the screen. ■ Example: A better prognosis for patients with cancer is celebrated following the implementation of a new screening program. However, this test disproportionately detects slow-growing tumors, which generally tend to be less aggressive. ■

STATISTICAL TESTING

Even with bias reduction, unsystematic random error is unavoidable because of chance variation in studied data. Types of errors are as follows: Type I (𝛂) error: ■ The probability of concluding that there is a difference in treatment effects between groups when in fact there is not (ie, a false⊕ conclusion)—in other words, rejecting the null hypothesis (of no effect) when it should not be rejected.

KEY FACT Studies that are masked and randomized are better protected from the effects of bias, whereas observational studies are particularly susceptible to bias.

KEY FACT Confounding variables reduce the internal validity of a study.

Assume that the data below are from a hypothetical case-control study. Calculate and interpret the OR.

Exposed

Not exposed

Cases

283

263

Controls

182

210

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The P value is an estimate of the probability that differences in treatment effects in a study could have happened by chance alone if no true association exists. Often, differences associated with a P 135/80 mm Hg or taking medi-

starting at 30 years of age

cation for hypertension

Chlamydia test yearly until 24 years of age if sexually active. Women ≥ 25 years of age should be tested only if there is an ↑ risk HIV test at least once to ascertain status Test for gonorrhea and syphilis if at ↑ risk

40–49

BP screening at least

Pap test every 3 years or co-testing every 5 years

Diabetes: Blood glucose or HbA1c screening

once every 2 years

Pelvic exam yearly; chlamydia test if patient has new or

starting if BP > 135/80 mm Hg or taking medi-

Cholesterol screening

50–64

for patients at ↑ risk

HIV test at least once to ascertain status

for heart disease

Test for gonorrhea and syphilis if at ↑ risk

BP screening at least once every 2 years Cholesterol screening

≥ 65

multiple partners

Mammogram once every 1–2 years (can start at 40

cation for hypertension

Diabetes: Blood glucose or HbA1c screening starting if BP > 135/80 mm Hg or taking

years of age, if patient chooses) Pap test every 3 years

medication for hypertension

for patients at ↑ risk

Chlamydia test if patient has new or multiple partners

Bone: Discuss BMD test with physician or nurse

for heart disease

HIV test at least once to ascertain status

Colorectal: FOBT yearly; flexible sigmoidoscopy

Test for gonorrhea and syphilis if at ↑ risk

every 5 years or colonoscopy every 10 years

BP screening at least once every 2 years Cholesterol screening

Mammogram once every 1–2 years until 75years of age

Diabetes: Blood glucose or HbA1c screening

Discuss Pap test with physician or nurse

starting if blood pressure higher than 135/80

Chlamydia test if patient has new or multiple partners

or taking medication for hypertension

for patients at ↑ risk

Discuss HIV test with physician or nurse

Bone: BMD test at least once

for heart disease

Test for gonorrhea and syphilis if at ↑ risk

Colorectal: Screening with fecal occult blood testing, sigmoidoscopy, or colonoscopy every 10 years until 75 years of age

Modified with permission from the US Department of Health and Human Services, Washington, DC.

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TA B L E 2.4 - 5. 

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133

Health Screening Recommendations for Men by Age

Recommendation

Age in Years

Cardiovascular

19–39

BP screening at least once every 2 years Cholesterol screening starting at 20 years of age for patients at

Reproductive Both partners should be tested for

Other N/A

STDs, including HIV, before initiating sexual intercourse Test for syphilis if at ↑ risk

↑ risk for heart disease. Screen all men > 35 years of age 40–49

BP screening at least once every 2 years Cholesterol screening for all men >35years of age

50–64

BP screening at least once every 2 years Cholesterol screening for all men > 35 years of age

Discuss DRE and PSA with physician or nurse HIV test at least once to ascertain status

Diabetes: Blood glucose or HbA1c screening starting if BP > 135/80 mm Hg or taking medication for hypertension

Test for syphilis if at ↑ risk Discuss DRE and PSA with physician or nurse HIV test at least once to ascertain status Test for syphilis if at ↑ risk

Diabetes: Blood glucose or HbA1c screening starting if BP > 135/80 mm Hg or taking medication for hypertension Colorectal: Screening with fecal occult blood testing yearly; flexible sigmoidoscopy every 5 years or colonoscopy every 10 years

≥ 65

BP screening at least once every 2 years Cholesterol screening for all men >35years of age

Discuss DRE and PSA with physician or nurse Discuss HIV test with physician Test for syphilis if at ↑ risk

Diabetes: Blood glucose or HbA1c screening starting if BP > 135/80 mm Hg or taking medication for hypertension Colorectal: Screening with fecal occult blood testing; flexible sigmoidoscopy every 5 years or colonoscopy every 10 years (patients > 75 years of age should discuss with physician) Abdominal aortic aneurysm: One-time screening for men who have ever smoked

Modified with permission from the US Department of Health and Human Services, Washington, DC.

Causes of Death The leading cause of cancer mortality in the United States is lung cancer. Prostate and breast cancers are the most prevalent cancers in men and women, respectively, with lung and colorectal cancers ranking second and third most common in both sexes. Table 2.4-6 lists the principal causes of death in the United States by age group.

A hypothetical study finds a ⊕ association between poor sleep habits and the risk for Parkinson disease. The RR is 10, and the P value is 0.4. How do you interpret these results?

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EPIDEMIOLOGY

TA B L E 2.4 - 6. 

Leading Causes of Death by Gender

Rank

Men

Women

1

Heart disease (24%)

Heart disease (22%)

2

Cancer (23%)

Cancer (21%)

3

Unintentional injuries (7%)

Chronic lower respiratory diseases (6%)

4

Chronic lower respiratory diseases (7%)

Cerebrovascular diseases (6%)

5

Cerebrovascular diseases (4%)

Alzheimer disease (6%)

6

Diabetes (3%)

Unintentional injuries (4%)

7

Suicide (2%)

Diabetes (3%)

8

Alzheimer disease (2%)

Influenza and pneumonia (2%)

9

Influenza and pneumonia (2%)

Kidney disease (2%)

Chronic liver disease and cirrhosis (2%)

Septicemia (2%)

10

Modified with permission from the Centers for Disease Control and Prevention, Atlanta, GA, https://www.cdc.gov/nchs/data/hus/hus16.pdf. Data from 2015.

Reportable Diseases By law, disease reporting is mandated at the state level, and the list of diseases that must be reported to public health authorities varies slightly by state. The CDC has a list of nationally notifiable diseases that states voluntarily report to the CDC. These diseases include but are not limited to those listed in Table 2.4-7. TA B L E 2.4 - 7. 

Common Reportable Diseases

Disease Category

There is no sufficient evidence to reject the null hypothesis, and therefore there is insufficient evidence to support an association between poor sleep habits and the risk for Parkinson disease. Remember that the null hypothesis always assumes that there is no association between the exposure and outcome variables. If the P value is > 0.05, then you cannot reject the null hypothesis.

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Examples

STDs

HIV, AIDS, syphilis, gonorrhea, chlamydia, chancroid, HCV

Tick-borne disease

Lyme disease, ehrlichiosis, Rocky Mountain spotted fever

Potential bioweapons

Anthrax, smallpox, plague

Vaccine-preventable

Diphtheria, tetanus, pertussis, measles, mumps, rubella, polio, vari-

disease

cella, HAV, HBV, H influenzae (invasive), meningococcal disease

Water-/food-borne

Cholera, giardiasis, Legionella, listeriosis, botulism, shigellosis, shiga

disease

toxin–producing E coli, salmonellosis, trichinellosis, typhoid

Zoonoses

Tularemia, psittacosis, brucellosis, rabies

Miscellaneous

TB, leprosy, toxic shock syndrome, SARS, West Nile virus, VRSA, coccidioidomycosis, cryptosporidiosis. MRSA is reportable in several states

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ETHICS AND LEGAL ISSUES General Principles

136

Informed Consent

136

Minors 136

Disclosure 139 Full Disclosure

139

Medical Errors

139

Clinical Research

140

Competence and Decision-Making Capacity

137

Confidentiality 140

End-of-Life Issues

138

Conflict of Interest

Written Advance Directives

138

Withdrawal of Care

138

Euthanasia and Physician-Assisted Suicide

138

Futile Treatment

139

Alternative Treatment

139

140

Malpractice 141

135

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KEY FACT In some cases (eg, psychiatric illness, grave disability), patients can be hospitalized against their will if they are deemed a threat to themselves or to others.

KEY FACT Patients with psychiatric illness can give consent if their decision-making capacity is intact.

General Principles Respect for autonomy: Clinicians are obligated to respect patients as individuals and to honor their preferences. ■ Example: A pregnant women has the right to refuse cesarean section despite potential risk to the fetus. This is called the principle of maternal autonomy—so long as the mother has capacity, she has ultimate rights over her unborn child (in the United States). ■ Beneficence: Physicians have a responsibility to act in the patient’s best interest. Respect for patient autonomy may conflict with beneficence. In general, if a patient is mentally competent, respect for patient autonomy supersedes beneficence even if the physician believes the patient is not acting in his or her best interest. ■ Example: The physician has a responsibility to recommend a life­saving transfusion to a Jehovah’s Witness (beneficence) and respect the patient’s autonomy if he or she should refuse. ■ Nonmaleficence: “Do no harm.” All medical interventions involve benefits and risks, and physicians should generally only recommend treatments where the likely benefits outweigh the known risks. ■ Example: A surgeon declines to perform a procedure, because she thinks the patient will die intraoperatively. ■ Justice: Health care is a scarce resource. Fairness and equality in distribution and delivery of health care are ongoing challenges for health policy and in the clinical arena. ■

MNEMONIC BRAIN of informed consent— Benefits Risks Alternatives Indications Nature

MNEMONIC In the absence of a living will or durable power of attorney for health care—

The SPOUSE CHIPS in For the patient SPOUSE CHIldren Parent Sibling Friend (in this order)

Informed Consent Willing and voluntary acceptance of a medical intervention by a patient after adequate discussion with a physician about the nature of the intervention along with its indications, risks, benefits, and potential alternatives (including no treatment). ■ Patients may change their minds at any time. ■ Informed consent is required for significant procedures except for the following: ■ Emergency treatment is required. ■ Example: An unconscious patient presents with cerebral edema after a motor vehicle collision, or a patient without previously indicated DNR/DNI (do not resuscitate/do not intubate) status undergoes cardiac arrest. ■ Patient lacks decision-making capacity. Consent is still required but must be obtained from a surrogate decision maker. ■ Example: Minors generally require surrogate decision makers until they demonstrate adequate decision-making capacity or are of legal age. ■

Minors In general, minors (persons < 18 years of age) cannot consent for their own medical treatment and require parents or guardians to consent on their behalf (one parent is sufficient as long as that parent has custody), except in the following situations: Life-threatening emergencies when parents cannot be contacted. Legal emancipation: Emancipated minors do not require parental consent for medical care. Although emancipation laws vary from state to state,

■ ■

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in general minors are emancipated if they are married, are in the armed services, or are financially independent of their parents and have obtained legal emancipation. ■ Sexually transmitted infections and substance abuse treatment: Rules concerning contraception, pregnancy, and abortion services and treatment for drug and alcohol dependency vary across the United States. In some states, the physician is left with the decision of informing parents about adolescent use of confidential services in the interest of best serving the patient; other states limit disclosure. ■ Refusal of treatment: A parent has the right to refuse treatment for his or her child as long as those decisions do not pose a serious threat to the child’s well-being (eg, refusing immunizations is not considered a serious threat). If a parental decision is not in the best interest of the child, a physician may provide treatment against parental wishes. In emergent situations, if withholding treatment jeopardizes the child’s safety, treatment can be initiated on the basis of legal precedent. In nonemergent situations, the provider should seek a court order. ■ Example: A physician provides blood transfusion to save the life of a 6-year-old child seriously injured in a motor vehicle collision despite parental requests to withhold such a measure. ■ Prenatal care: Some states allow, but do not require, parental disclosure when a minor seeks prenatal care.

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KEY FACT Brain death is the irreversible loss of all brain activity and is equivalent to cardiopulmonary death. If a patient is brain dead, no consent is needed to stop therapy. Two physicians are required to perform a brain death exam to legally declare a patient brain dead.

1

Competence and Decision-Making Capacity Competence: A person’s global and legal capacity to make decisions and to be held accountable in a court of law. Competence is assessed by the courts and is distinct from the term decision-making capacity. ■ Incompetent patients, as assessed by the courts, or temporarily incapacitated patients may still be able to provide assent for treatment or refuse treatment. However, the need to treat supersedes the refusal of an incapacitated patient in emergency situations. ■ Example: An extremely hypertensive patient with altered mental status who refuses treatment may receive antihypertensive therapy, as this constitutes a medical emergency. ■ Decision-making capacity: The ability of a patient to understand relevant information, appreciate the severity of the medical situation and its consequences, communicate a choice, and deliberate rationally about his or her values in relation to the decision being made. This can be assessed by the physician. ■ Decision-making capacity is best understood as varying with the complexity of the decision involved. ■ Example: The level of capacity needed for a decision about liver transplantation is different from that needed to choose between two types of pain medication for fracture-related pain. ■ In general, patients who have decision-making capacity have the right to refuse or discontinue treatment. ■ Example: Jehovah’s Witnesses can refuse blood products. When a Jehovah’s Witness lacks decision-making capacity (eg, altered mental status or unconscious), the physician is allowed to provide a blood transfusion in an emergency situation. ■ A patient’s decision to refuse treatment can be overruled if the choice endangers the health and welfare of others. ■ Example: A patient with active TB must undergo antibiotic treatment, because not treating would pose a public health threat. ■

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A 47-year-old man is diagnosed with pancreatic cancer. His diagnosis and treatment options are discussed, but the patient refuses any intervention. He states that he would like to go home to his wife and children to die peacefully. What is the most appropriate next step in management?

2 A 5-year-old girl with hydrocephalus needs another revision of her ventriculoperitoneal shunt. There are no satisfactory alternatives available to relieve her symptoms. Her father consents, but her mother refuses, arguing that she has been through enough procedures in her young life. What is the most appropriate next step in management?

3 A 51-year-old man is brought to the emergency department after he was struck by a motor vehicle. He is unresponsive and in need of emergent surgery. His wife and children cannot be reached. What is the most appropriate next step in treatment?

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End-of-Life Issues WRITTEN ADVANCE DIRECTIVES

KEY FACT Do not resuscitate (DNR) and Do not intubate (DNI) orders do not mean “do not treat.”

Living will: Addresses a patient’s wishes to maintain, withhold, or withdraw life-sustaining treatment in the event of terminal disease or a persistent vegetative state when the patient has lost the capacity to make decisions. DNR and DNI orders are based on patient preferences regarding CPR and intubation only. Patients can refuse all nonpalliative treatments or specific therapies (eg, CPR, intubation, antibiotics, feeding tubes). A living will overrides the wishes of the family. ■ Durable power of attorney for health care: Legally designates a surrogate health care decision maker if a patient lacks decision-making capacity. More flexible than a living will. Surrogates should make decisions consistent with the person’s stated wishes. ■ No living will: If no living will or durable power of attorney for health care exists, decisions should be made by close family members (spouse, adult children, parents, and adult siblings) or friends, in that order. ■ Ethics committees or court orders can be helpful when the patient lacks capacity, has no proxy or advance directives, and there is disagreement among family members, or when there is disagreement between the family and health care providers (eg, in cases of medical futility or parental refusal of necessary treatment for minors). ■

WITHDRAWAL OF CARE

Patients and their decision makers have the right to forego or withdraw life-sustaining treatment. Nevertheless, physicians should seek to understand patients and their reasons for refusing beneficial treatments. ■ No ethical distinction is made between withholding a treatment and withdrawing a treatment, because a patient may choose to refuse an intervention either before or after it is initiated. This can include ventilation, fluids, nutrition, and medications such as antibiotics. ■ Hospice care is focused on palliation of symptoms for patients with a prognosis of < 6 months of life. The focus is on pain management, quality of life, and bereavement. ■ If the intent is to relieve suffering and medications administered are titrated for that purpose, it is considered ethical to provide palliative treatment to relieve pain and suffering even if it may hasten a patient’s death (principle of double effect). ■ Example: A physician may prescribe a high-dose opioid analgesic to a patient who is expected to die within 1 day, even though it may suppress respiration and hasten death. ■

1 Respectfully ask the patient about his reasons for not wanting to pursue treatment. Patients often need clarification and reassurance. Ifhe continues to decline treatment, abide by his decision (respect for autonomy).

2 Proceed with the shunt revision. The consent of one parent is sufficient to proceed with the treatment of a minor, particularly when it is unequivocally clear that the decision is in the child’s best interest.

EUTHANASIA AND PHYSICIAN-ASSISTED SUICIDE

Euthanasia is the administration of a lethal agent with the intent to end life. ■ It is opposed by the AMA Code of Medical Ethics and is illegal in all states. ■ Patients who request euthanasia should be evaluated for inadequate pain control and comorbid depression. ■ Physician-assisted suicide consists of prescribing a lethal agent to a patient who will self-administer it to end his or her own life. This is currently ■

3 Proceed with the surgery. A physician may give emergent treatment in the absence of informed consent when immediate intervention is necessary to prevent serious harm or death.

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illegal except in the states of Oregon, Washington, Vermont, Colorado, and California. This is also legal via court order in Montana. Though legal in the aforementioned states, according to the AMA Code of Medical Ethics, physician-assisted suicide is “fundamentally incompatible with the physician’s role as healer.” FUTILE TREATMENT

Physicians are not ethically obligated to provide treatment and may refuse a patient’s or family member’s request for further intervention on the grounds of futility under any of the following circumstances: ■ ■ ■ ■

There is no evidence or pathophysiologic rationale for the treatment. The intervention has already failed. Maximal intervention is currently failing. Treatment will not achieve the goals of care.

KEY FACT Potential signs of elder abuse and neglect: ■ Cuts, bruises, pressure ulcers, burns. ■ Uncommon fractures. ■ Malnutrition or dehydration. ■ Anogenital injury or infection. ■ Evidence of poor caretaking or financial exploitation.

ALTERNATIVE TREATMENT

If a patient is interested in alternative/nontraditional treatment, the physician should obtain more information as to why the patient is interested. While the physician should provide as much information as possible, he or she should not dismiss the patient.

Disclosure KEY FACT FULL DISCLOSURE

Patients have a right to know about their medical status, prognosis, and treatment options (full disclosure). They have the legal right to obtain copies of their medical records within a specified timeframe. ■ A patient’s family cannot require that a physician withhold information from the patient without the knowledge and consent of the patient. A physician should explore why the family member does not want the diagnosis revealed, but ultimately the patient should be told. ■ A physician may withhold information only if the patient requests not to be told, or in the rare and controversial case in which a physician determines that disclosure would cause severe and immediate harm to the patient (therapeutic privilege). ■

Signs of suspected child abuse: ■ History given not consistent with injury. ■ Unusual child or parental behavior. ■ Delay in seeking medical care. ■ Subdural hematomas. ■ Retinal hemorrhages. ■ Spiral, bucket-handle, or rib fractures. ■ Injuries in different stages of healing.

MEDICAL ERRORS

Physicians are obligated to inform patients of mistakes made in their medical treatment. ■ It is not appropriate for a physician to blame another physician for a medical error without obtaining additional information from the original physician. ■ If the cause of a specific error or series of errors is not known, the physician should communicate this with the family promptly and maintain contact with the patient as investigations reveal more facts. ■ One of the largest contributors to medical error is failure to communicate during sign-out and hand-off processes. The best way to avoid communication breakdown is to implement a checklist for hand-off. ■

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A 35-year-old woman visits a primary care physician after hurting her wrist. Physical exam reveals circumferential bruises of her wrist, neck, and arms. The patient admits that the injuries were inflicted by her husband. What is the most appropriate next step in management?

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MNEMONIC Overriding confidentiality—

WAIT a SEC before letting a dangerous patient go! Wounds Automobile-driving impairment Infectious disease Tarasoff (violent crimes) and Human Trafficking Suicide Elder abuse and neglect Child abuse

CLINICAL RESEARCH

Physicians are obligated to inform patients considering involvement in a clinical research protocol about the purpose of the research study and the entire study design as it will affect the patient’s treatment. This includes the possible risks, benefits, and alternatives to the research protocol. ■ An informed consent form approved by the overseeing research institutional review board must be completed for participation in any clinical research protocol. ■ Newly deceased patients may be used for training health care providers. The physician must obtain permission from the family (or patient prior to death), and training must occur as part of a structured training program. ■

Confidentiality KEY FACT Guiding principles for overriding confidentiality: ■ There is an identifiable third party at risk for harm. ■ The harm is significant and probable. ■ Disclosure will help prevent or mitigate the harm. ■ Other measures, such as convincing the patient to self-disclose, have failed.

KEY FACT Mandatory reporting of intimatepartner violence is controversial and varies by state. Nonetheless, physicians should document the encounter, offer support, and have resources available for assistance.

Information disclosed by a patient to his or her physician and information about a patient’s medical condition are strictly confidential and should be discussed and accessed only by those directly involved in the patient’s care, with few exceptions (described later). ■ A patient may waive the obligation of the physician to protect confidentiality (eg, with insurance companies, authorized family members), preferably by way of written or verbal consent. The physician should disclose only the minimally necessary information. ■ It is ethically and legally necessary to override confidentiality in the following situations: ■ Patient intent to commit a violent crime (Tarasoff decision): Physicians have a duty to protect the intended victim through reasonable means (eg, warn the victim, notify police). ■ Suicidal patients. ■ Child abuse/neglect and elder abuse/neglect. ■ Reportable infectious diseases (eg, HIV, sexually transmitted infections, tuberculosis). Duty to warn public officials and identifiable people at risk. It is normally best to encourage patients themselves to inform sexual contacts who are at risk for contracting the illness. ■ Gunshot and knife wounds (duty to notify the police). ■ The patient is a danger to others (eg, impaired automobile drivers). Currently, only six states have mandatory physician reporting laws. ■ Example: A patient begins to drive 1 week after hospitalization for seizures, although the department of motor vehicles in his state requires that licensed drivers be without seizures for at least 3 months. ■

Conflict of Interest Occurs when physicians find themselves having a personal interest in a given situation that influences their professional obligations. ■ Example: A physician may own stock in a pharmaceutical company (financial interest) that produces a drug he is prescribing to his patient (patient care interest). ■ Physicians should disclose existing conflicts of interest to affected parties (eg, patients, institutions, audiences of journal articles or scientific meetings). ■ Accepting gifts from pharmaceutical companies can influence a physician’s practice and should generally be avoided. Nonmonetary gifts should be accepted only if they will directly benefit patient care and are of small monetary value. A physician should never accept cash. ■

Offer support, and acknowledge the courage it takes to discuss abuse. Assess the safety of the woman and of any children involved, introduce the concept of an emergency plan, and encourage the use of community resources. If the patient consents, report the abuse to relevant authorities.

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HIGH-YIELD FACTS IN

Malpractice The essential elements of a civil suit under negligence include the 4 D’s: ■ ■ ■ ■

The physician has a Duty to the patient. Dereliction of duty occurs. There is Damage to the patient. Dereliction is the Direct cause of damage.

Unlike a criminal suit, in which the burden of proof is “beyond a reasonable doubt,” the burden of proof in a malpractice suit is “a preponderance of the evidence.” Physicians may refuse inappropriate requests, such as demanding to be seen after hours. The physician should set clear limits and professional boundaries while remaining calm. If the patient has a nonurgent condition, the physician should not recommend that the patient visit the emergency department.

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KEY FACT Physicians are not obligated to accept everyone coming to them as a patient. Furthermore, physicians have the right to end a doctor-patient relationship but must give the patient the resources and time to find another physician.

MNEMONIC The 4 D’s of malpractice— Duty Dereliction Damage Direct cause

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NOTES

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GASTROINTESTINAL Esophageal Disease

144

Ischemic Colitis

161

Dysphagia/Odynophagia

144

Pilonidal Disease

161

Infectious Esophagitis

144

Diffuse (Distal) Esophageal Spasm

145

Achalasia

Gastrointestinal Bleeding

161

145

Inflammatory Bowel Disease

161

Esophageal Diverticula

146

Esophageal Cancer

147

Hernias 163

Gastroesophageal Reflux Disease

147

Hiatal Hernia

148

Disorders of the Stomach and Duodenum

149

Biliary Disease

165

Cholelithiasis and Biliary Colic

165

Acute Cholecystitis

166

Choledocholithiasis

167

Acute Cholangitis

167

Gallstone Ileus

167

Gastritis

149

Gastric Cancer

150

Peptic Ulcer Disease

150

Zollinger-Ellison Syndrome

151

Liver Disease

Disorders of the Small Bowel

151

Hepatitis

168

Cirrhosis

171

Primary Sclerosing Cholangitis

173

Primary Biliary Cholangitis

173

Diarrhea

151

Malabsorption/Maldigestion

154

Lactose Intolerance

154

Carcinoid Syndrome

154

Irritable Bowel Syndrome

155

Small Bowel Obstruction

155

Ileus

156

Mesenteric Ischemia

157

Appendicitis

157

Disorders of the Large Bowel

158

Diverticular Disease

158

Large Bowel Obstruction

158

Colorectal Cancer

159

Abnormal Liver Function Tests

168 168

Nonalcoholic Fatty Liver Disease

174

Hepatocellular Carcinoma

174

Hemochromatosis

175

Wilson Disease (Hepatolenticular Degeneration)

176

Pancreatic Disease

176

Insulinoma

176

VIPoma

177

Pancreatitis

177

Pancreatic Cancer

177

143

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Esophageal Disease KEY FACT In an immunocompromised person with odynophagia, consider candidiasis.

DYSPHAGIA/ODYNOPHAGIA

Difficulty swallowing (dysphagia) or pain with swallowing (odynophagia) caused by abnormalities of the oropharynx or esophagus. Oropharyngeal Dysphagia

Problem with initiation of swallowing; may lead to aspiration of food into the lungs. ■ Etiology: Neurologic or muscular, including stroke, Parkinson disease, myasthenia gravis, prolonged intubation, and Zenker diverticula. ■ Usually more of a problem with liquids than with solids. ■ Best initial test: Modified barium swallow (video fluoroscopic swallowing exam). Esophagogastroduodenoscopy (EGD) may also be appropriate. ■

Esophageal Dysphagia

Can be caused by an obstruction (eg, strictures, Schatzki rings, webs, carcinoma) or motility disorder (eg, achalasia, scleroderma, esophageal spasm). ■ Obstructions usually more of a problem with solids than with liquids; while motility disorders cause both solid and liquid food dysphagia. ■ Best initial test: EGD; consider pre-EGD barium swallow (aka esophagram) if history of esophageal radiation or strictures as these patients may be at higher risk for esophageal perforation (Boerhaave syndrome). May be followed by manometry in some cases. ■

KEY FACT Esophageal webs are associated with iron deficiency anemia and glossitis (Plummer-Vinson syndrome).

INFECTIOUS ESOPHAGITIS

Seen in immunocompromised patients. Table 2.6-1 outlines the etiology, diagnosis, and treatment of infectious esophagitis. TA B L E 2.6 - 1. 

Causes of Infectious Esophagitis

Etiologic Agent Candida albicans

Exam Findings ± oral thrush

Upper Endoscopy Yellow-white plaques adherent to the mucosa

(see Image A)

Treatment Fluconazole PO (treat with more than a topical agent alone)

A Herpes simplex virus

Oral ulcers

Small, deep ulcerations; multinucleated giant cells

Acyclovir IV

with intranuclear inclusions on biopsy + Tzanck smear Cytomegalovirus

Retinitis, colitis

Large, linear, superficial ulcerations; intranuclear and

Ganciclovir IV

intracytoplasmic inclusions on biopsy Image reproduced with permission from Kantarjian HM, et al. MD Anderson Manual of Medical Oncology. New York: McGraw-Hill; 2006.

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Remember that esophagitis may also be caused by medications, especially tetracyclines, bisphosphonates, NSAIDs, and potassium chloride.

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KEY FACT Candida esophagitis is an AIDS-defining illness.

DIFFUSE (DISTAL) ESOPHAGEAL SPASM

Motility disorder in which normal peristalsis is periodically interrupted by high-amplitude nonperistaltic contractions (see Figure 2.6-1A). History/PE Presents with heartburn, chest pain, dysphagia, and odynophagia. Often precipitated by ingestion of hot or cold liquids; relieved by nitroglycerin. Diagnosis ■ Barium swallow: Shows a corkscrew-shaped esophagus. ■ Esophageal manometry (most accurate test): High-amplitude, simultaneous contractions in greater than 20% of swallows.

KEY FACT The musculature of the upper one-third of the esophagus is skeletal, whereas that of the lower two-thirds is smooth muscle.

Treatment ■ Symptomatic relief: Calcium channel blockers, tricyclic antidepressants (TCAs), or nitrates. ■ Severe, incapacitating symptoms: Surgery (esophageal myotomy) but has limited utility. ACHALASIA

Motility disorder of the esophagus characterized by impaired relaxation of the lower esophageal sphincter (LES) and loss of peristalsis in the distal two-thirds of the esophagus. ■ Etiology: Degeneration of the inhibitory neurons in the myenteric (Auerbach) plexus. ■

History/PE Progressive dysphagia (solids and liquids), chest pain, regurgitation of undigested food, weight loss, and nocturnal cough.

A

B

C

D

F I G U R E 2 . 6 - 1 .   Esophageal disease on barium esophagram. (A) Esophageal spasm. (B)Achalasia. Note the dilated esophagus tapering to a “bird’s beak” narrowing (arrows) at the LES. (C) Barrett esophagus with adenocarcinoma. Note the nodular mucosa of Barrett esophagus (arrow) and the raised filling defect (arrowhead) representing adenocarcinoma in this patient. (D)Peptic stricture (arrows) 2° to GERD above a hiatal hernia (right). (Image A reproduced with permission from USMLE-Rx.com. Image B reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010. Images C and D reproduced with permission from Chen MY et al. Basic Radiology, 1st ed. New York, NY: McGraw-Hill; 2004.)

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Wet swallow 100 LES pressure (mm Hg) 0 100 Proximal esophageal pressure (mm Hg) 0 100

0 100

0 100 Distal esophageal pressure (mm Hg) 0 15 sec F I G U R E 2 . 6 - 2 .   Achalasia. Manometry with incomplete LES relaxation. (Reproduced with permission from Farrokhi F, Vaezi MF. Idiopathic (primary) achalasia. Orphanet J Rare Dis. 2007;2:38.)

Diagnosis ■ Best initial test: Barium swallow; shows esophageal dilation with a “bird’s beak” tapering of the distal esophagus (see Figure 2.6-1B). ■ Most accurate test: Manometry; shows ↑ resting LES pressure, incomplete LES relaxation upon swallowing, and ↓ peristalsis in the body of the esophagus (see Figure 2.6-2). ■ EGD to rule out structural disorders beyond achalasia (ie, mechanical obstruction) that may present similarly to achalasia (pseudoachalasia), especially cancer. Treatment ■ Short term: Nitrates, calcium channel blockers, or endoscopic injection of botulinum toxin into the LES. ■ Long term: Pneumatic balloon dilation or surgical (Heller) myotomy. ESOPHAGEAL DIVERTICULA ■

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Diverticula can be present in any location. Zenker diverticulum is defined as cervical outpouching through the cricopharyngeus muscle and is a posterior, false diverticulum (outpouching only through submucosa and mucosa).

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Hx/PE: Chest pain, dysphagia, halitosis, and regurgitation of undigested food. ■ Dx: Barium swallow will demonstrate outpouchings. ■ Tx: If symptomatic, treat with surgical excision of the diverticulum. For Zenker diverticulum, myotomy of the cricopharyngeus is required to relieve the high-pressure zone. ■

ESOPHAGEAL CANCER

Squamous cell carcinoma (SCC) is the most common type of esophageal cancer worldwide. Adenocarcinoma is the most common type of esophageal cancer in United States, Europe, and Australia. ■ Risk factors: ■ SCC: Alcohol, tobacco use, and nitrosamines. ■ Adenocarcinoma: Barrett esophagus (columnar metaplasia of the distal esophagus 2° to chronic GERD). ■

History/PE Progressive dysphagia, initially to solids and later to liquids, is common. Weight loss, odynophagia, GERD, GI bleeding, and vomiting are also seen. Diagnosis ■ Best initial test: Barium study. Narrowing of esophagus with an irregular border protruding into the lumen (see Figure 2.6-1C). ■ Most accurate test: EGD with biopsy; required to establish the diagnosis. ■ CT and endoscopic ultrasound for tumor staging. Treatment ■ Best initial treatment: Chemoradiation and surgical resection. ■ Resection is also indicated in cases of high-grade Barrett dysplasia. Has a poor prognosis.

KEY FACT Esophageal cancer metastasizes early, because the esophagus lacks a serosa.

KEY FACT SCC of the esophagus tends to occur in the upper and middle thirds of the esophagus, whereas adenocarcinoma occurs in the lower third.

GASTROESOPHAGEAL REFLUX DISEASE

Symptomatic reflux of gastric contents into the esophagus, most commonly from transient LES relaxation. Can also result from an incompetent LES, gastroparesis, or hiatal hernia. History/PE ■ Hx: Heartburn that commonly occurs 30–90 minutes after a meal, worsens with reclining, and often improves with antacids, sitting, or standing; sour taste; a globus sensation; unexplained cough; morning hoarseness; and chest pain mimicking coronary artery disease. ■ PE: Normal unless a systemic disease (eg, scleroderma) is present. Diagnosis ■ Primarily a clinical diagnosis, with empirical treatment first (see below for lifestyle modification and medical treatment). ■ Most accurate test: 24-hour pH monitoring with impedance; indicated if the diagnosis is uncertain. ■ EGD with biopsy: Performed in patients whose symptoms are the following: ■ Refractory to initial empiric therapy. ■ Long-standing (to rule out Barrett esophagus and adenocarcinoma; see Figure 2.6-3).

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F I G U R E 2 . 6 - 3 .   Barrett esophagus on upper endoscopy. Shown is an irreg-

ular Z line (squamocolumnar junction between the esophagus and stomach) caused by columnar metaplasia of the lower esophagus. (Reproduced with permission from Fauci AS et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

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KEY FACT GERD can also mimic angina or myocardial infarction.

KEY FACT GERD is not a result of the presence of Helicobacter pylori. GERD arises from a transient relaxation of the LES.

GASTROINTESTINAL

Associated with alarm symptoms like blood in the stool, weight loss, dysphagia/odynophagia (signs of obstruction), or chest pain. ■ Other studies: Indicated for refractory symptoms or if concern for other causes. May include barium swallow (may demonstrate reflux see Figure 2.6-1D) or esophageal manometry. ■

Treatment ■ Lifestyle modifications: Indicated for all patients. Includes weight loss, head-of-bed elevation, small but frequent meals, avoidance of nocturnal meals, avoidance of substances like alcohol, chocolate, or coffee that ↓ LES tone. ■ Pharmacologic: ■ Mild/intermittent: Antacids. ■ Chronic/frequent: H2-receptor antagonists (cimetidine, ranitidine) or proton pump inhibitors (PPIs) (omeprazole, lansoprazole). ■ Severe/erosive: PPIs first; if refractory, Nissen fundoplication surgery may be of benefit. ■ Complications: Erosive esophagitis, esophageal peptic stricture, aspiration pneumonia, upper GI bleeding, Barrett esophagus. HIATAL HERNIA

Herniation of stomach upward into the chest through the diaphragm. Common types: ■ Sliding hiatal hernia (95%): Gastroesophageal junction and a portion of the stomach are displaced above the diaphragm (see Figure 2.6-4). ■ Paraesophageal hiatal hernia (5%): Gastroesophageal junction remains below the diaphragm, while the fundus herniates into the thorax (see Figure 2.6-4). ■ Hx/PE: May be asymptomatic. Patients with sliding hernias may pre­sent with GERD; paraesophageal hernias can cause strangulation. ■ Dx: Incidental finding on chest x-ray (CXR); also frequently diagnosed by barium swallow or EGD. ■ Tx: ■ Sliding hernias: Medical therapy and lifestyle modifications to ↓GERD symptoms. ■ Paraesophageal hernias: Surgical gastropexy to prevent gastric volvulus. ■ ■

Herniated gastric cardia

A

Herniated gastric fundus

B

F I G U R E 2 . 6 - 4 .   (A) Sliding hiatal and (B) paraesophageal hiatal hernia. (Reproduced with permission from USMEL-Rx.com.)

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GASTROINTESTINAL

Disorders of the Stomach and Duodenum

HIGH-YIELD FACTS IN

149

KEY FACT Type A gastritis is associated with pernicious anemia caused by lack of intrinsic factor necessary for the absorption of vitamin B12.

GASTRITIS

Inflammation of the gastric mucosa. Subtypes: Acute gastritis: Rapidly developing, superficial or deep erosive lesions, often caused by NSAID use, alcohol, H pylori infection, and stress from severe illness (eg, burns, CNS injury). Toxic ingestion can also cause acute gastritis along with possible gastric outlet stricture. ■ Chronic gastritis: ■ Type A (10%): Occurs in the fundus and is caused by autoantibodies to parietal cells. Causes pernicious anemia and is associated with other autoimmune disorders and ↑ risk for gastric adenocarcinoma and carcinoid tumors. ■ Type B (90%): Occurs in the antrum and may be caused by NSAIDs or H pylori infection. Often asymptomatic, but associated with ↑ risk for peptic ulcer disease (PUD) and gastric cancer. Note: H pylori infection can but does not always cause gastritis. ■

History/PE Asymptomatic or symptoms of epigastric pain, nausea, vomiting, hematemesis, or melena. Diagnosis Upper endoscopy is required to diagnose acute gastritis. Different tests for Hpylori are shown in the Table 2.6-2. Treatment ■ Stop intake of exacerbating agents such as NSAIDs or alcohol. ■ Antacids, sucralfate, H2 receptor blockers, and/or PPIs may help. TA B L E 2.6 - 2. 

Stress ulcers include Curling ulcers, which are associated with burn injuries, and Cushing ulcers, which are associated with traumatic brain injury.

KEY FACT H pylori antibodies stay ⊕ even when the infection is cleared. Use the urea breath test or a repeat stool antigen as a test of cure.

KEY FACT Consider peptic ulcer disease or gastritis in elderly patients who are taking medications for arthritis or heart disease (eg, NSAIDs) who present with abdominal pain or GI bleeding.

Tests for H pylori

Test Serology

KEY FACT

Description Detects IgG antibodies to H pylori

Test Characteristics High sensitivity, high specificity Cannot distinguish between treated and active disease

Urea breath test

H pylori urease converts radio-labeled urea (C14 or C13) to CO2 and ammonia;

High specificity, lower sensitivity PPIs may cause false ⊝ results

this test detects CO2 formed from urea metabolism Stool

Detects H pylori antigens in stool

antigen

Cost-effective initial test for Hpylori

test Endoscopic biopsy

High specificity, high sensitivity

Detects H pylori on histology or culture. Can also detect intestinal metaplasia, mucosa-associated lymphoid tissue

Gold standard for diagnosis of gastritis and H pylori Most invasive test

(MALT), or widespread gastritis

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GASTROINTESTINAL

Administer triple therapy (amoxicillin, clarithromycin, omeprazole) to treat H pylori infection unless the patient is allergic to penicillin, in which case metronidazole should be substituted for amoxicillin. ■ Give prophylactic PPIs to patients at risk for stress ulcers (eg, ICU patients). ■

KEY FACT A gastric adenocarcinoma that metastasizes to the ovary is called a Krukenberg tumor.

KEY FACT MALT lymphoma is a rare gastric tumor that presents in patients with chronic Hpylori infection. It is the only malignancy that can be cured with antibiotics. Treat with triple therapy.

KEY FACT Gastric cancer may present with Virchow node (an enlarged left supraclavicular lymph node) or a SisterMary Joseph node (a palpable lymph node near the umbilicus).

KEY FACT After a meal, pain from a Gastric ulcer is Greater, whereas Duodenal pain Decreases.

FIGURE 2.6-5. 

Pneumoperitoneum.

Upright chest x-ray (CXR) reveals free air under the diaphragm. (Reproduced with permission from USMLE-Rx.com.)

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GASTRIC CANCER

Malignant tumor (mostly adenocarcinoma) with a poor prognosis that is particularly common in Korea and Japan. ■ Risk factors: Diet high in nitrites and salt and low in fresh vegetables (antioxidants), H pylori colonization, and chronic gastritis. ■ Hx/PE: Early-stage disease is usually asymptomatic but may be associated with indigestion and loss of appetite. ■ Late-stage disease presents with alarm symptoms: abdominal pain, weight loss, and upper GI bleeding. ■ Dx: Upper endoscopy with biopsy (most accurate test) to rule out other etiologies and confirm the diagnosis. ■ Tx: If detected early, treatment is surgical resection. Most patients present with late-stage, incurable disease. Five-year survival rate is < 10% for advanced disease. ■

PEPTIC ULCER DISEASE

Results from damage to the gastric or duodenal mucosa caused by impaired mucosal defense and/or ↑ acidic gastric contents. ■ Risk factors: H pylori (> 90% of duodenal ulcers and 70% of gastric ulcers), NSAIDs, alcohol, and tobacco use; concomitant use of corticosteroids and NSAIDs; male gender. ■

History/PE ■ Presentation: Chronic or periodic dull, burning epigastric pain that is often related to meals and can radiate to the back; nausea; hematemesis (“coffee-ground” emesis); or melena (blood in the stool). ■ PE: Usually normal but may reveal epigastric tenderness and stool guaiac. ■ Risks: Acute perforation (rigid abdomen, rebound tenderness, and/or guarding). Diagnosis ■ Most accurate test: Upper endoscopy with biopsy is the most accurate test. It can also be used to test for H pylori infection and to rule out active bleeding or gastric adenocarcinoma (10% of gastric ulcers without perforation). ■ H pylori testing. See Table 2.6-2. ■ If perforation is suspected, perform upright CXR (see Figure 2.6-5) to evaluate air under the diaphragm or CT scan of the abdomen. ■ In recurrent or refractory cases, check serum gastrin levels to screen for Zollinger-Ellison syndrome. Treatment ■ Acute management: ■ If perforation is suspected: Perform x-ray of the abdomen (initial test) to rule out free air under the diaphragm. Consider CT (definitive test) if x-ray of the abdomen shows no perforation but there is high clinical suspicion. Then, surgery if perforation is confirmed on CT. Carefully monitor BP.

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GASTROINTESTINAL

Rule out active bleeding: Serial hematocrits (initially), rectal vault exam, NG suction. Monitor BP and treat with IV hydration, blood transfusion, and IV PPIs. Then, perform an urgent EGD (definitive) to control suspected bleeding. ■ Long-term management: ■ Medical therapy goals: Protect the mucosa, ↓ acid production, and eradicate H pylori infection. ■ Mild disease: Treat with antacids, PPIs, or H2-blockers. ■ H pylori infection: Triple therapy (omeprazole, clarithromycin, and amoxicillin). ■ Discontinue exacerbating agents (alcohol, tobacco). ■ Endoscopy with targeted biopsy: Indicated in patients with symptoms refractory to medical therapy to rule out gastric cancer. ■ Surgical therapy (eg, parietal cell vagotomy): Severe cases refractory to medical therapy.

HIGH-YIELD FACTS IN

Complications Hemorrhage (most likely from posterior ulcers that erode into the gastroduodenal artery), gastric outlet obstruction (presenting with succussion splash), perforation, intractable pain.

151

KEY FACT A biopsy must be performed on all gastric ulcers to rule out malignancy.

KEY FACT Misoprostol can help patients with PUD who require NSAID therapy (eg, for arthritis).

KEY FACT

ZOLLINGER-ELLISON SYNDROME

Rare condition characterized by gastrin-producing tumors in the duodenum and/or pancreas that lead to excessive secretion of gastrin and recurrent or intractable ulcers. ■ Hx/PE: Unresponsive, recurrent gnawing, burning abdominal pain; diarrhea; nausea; vomiting; fatigue; weakness; weight loss; and GI bleeding. ■ Dx: ↑ Fasting serum gastrin levels and ↑ gastrin with the administration of secretin are diagnostic; CT is indicated to characterize and stage disease. Nuclear octreotide scan can also be used to facilitate localization of gastrinomas. ■ Tx: Moderate- to high-dose PPIs to control symptoms. Surgical resection of the gastrinoma if not metastatic. ■

Zollinger-Ellison syndrome: ■ Hypercalcemia from hyperparathyroidism (In 20%, gastrinomas are associated with MEN type 1). ■ Epigastric pain (peptic ulcer). ■ Diarrhea (caused by mucosal damage and pancreatic enzyme inactivation leading to malabsorption).

Disorders of the Small Bowel DIARRHEA

The most common mechanisms are malabsorption/osmotic, secretory, inflammatory/infectious, and ↑ motility. (See also Tables 2.6-3 and 2.6-4).

TA B L E 2.6 - 3. 

Types of Stool Osmotic Gap

Stool Osmotic Gap Low osmotic gap (< 50 mOsm/kg)

High osmotic gap (> 100 mOsm/kg)

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Description

Examples

Secretory diarrhea: ↑ Secretion or inhibition

Bacterial toxins (eg, cholera, Escherichia coli), VIPoma,

of absorption of water

gastrinoma, medullary cancer of thyroid

Osmotic diarrhea: Osmotically active com-

Celiac disease, Whipple disease, pancreatic insuffi-

pounds in bowel draw in water

ciency, laxative abuse

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Stool electrolytes: Primarily sodium and potassium (normal stool osmotic gap is 50–100 mOsm/kg).

KEY FACT Cryptosporidium and Isospora are associated with chronic diarrhea in patients with HIV/AIDS.

TA B L E 2.6 - 4. 

Infectious Agent Campylobacter

GASTROINTESTINAL

Stool osmotic gap = 290 − 2 × (stool Na + stool K) History/PE ■ Acute diarrhea: Acute onset with a duration of < 2 weeks; usually infectious and self-limited. ■ Multiple pathogens may be responsible (see Table 2.6-4).

Causes of Infectious Diarrhea

History The most common etiology of bacterial diarrhea

Exam and Test Results (Note: all have fecal RBCs and WBCs) Frequently presents with bloody diarrhea

Caused by ingestion of con-

Comments

Treatment

Rule out appendicitis and

Supportive treatment first,

inflammatory bowel

then fluoroquinolones

disease (IBD)

(eg, ciprofloxacin) or azithromycin

taminated food or water Affects young children and young adults; generally lasts 7–10 days Clostridium difficile

Associated with recent

Presents with fever,

Most commonly causes

treatment with anti-

abdominal pain, and

colitis, but can involve the

biotics (penicillins,

possible systemic

small bowel

quinolones, clindamycin)

toxicity

Identify C difficile toxin in the stool

Affects hospitalized adult

Sigmoidoscopy shows

patients

pseudomembranes

Watch for toxic megacolon

Cessation of the inciting antibiotic Treat with PO metronidazole (mild disease), PO vancomycin (moderatesevere disease), or IV metronidazole ± rectal vancomycin (if ileus)

(seen on x-ray of the

PO fidaxomicin useful

abdomen)

when there are multiple relapses on previous antibiotics Echinococcus granulosus

Contracted from close contact with dogs, definitive host for tapeworm. Causes simple liver cysts

“Eggshell calcification” on CT scan Usually found incidentally,

Cyst aspiration may cause cyst rupture and anaphy-

Surgical resection and albendazole

lactic shock

but may cause mild right upper quadrant (RUQ) pain caused by compression of other structures

Entamoeba histolytica

Caused by ingestion of contaminated food or water; look for a history of travel in developing countries The incubation period can

Presents with severe abdominal pain and fever

Chronic amebic colitis mimics IBD

Steroids can lead to fatal perforation Treat with metronidazole

Endoscopy shows “flaskshaped” ulcers

last up to 3 months (continues)

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GASTROINTESTINAL

TA B L E 2.6 - 4. 

History Caused by ingestion of

Presents with severe abdominal pain,

meat)

low-grade fever, and vomiting

Comments

Treatment

It is important to rule out

rheal therapy, which ↑

colitis

HUS risk

Hemolytic uremic syndrome (HUS) is a potential compli-

5–10days

cation, primarily in children

Caused by ingestion of

Presents with a pro-

Avoid antibiotic or antidiar-

GI bleeding and ischemic

elderly; generally lasts

Sepsis is a concern, as

First fluids. Treat bacte-

contaminated poultry or

dromal headache, fever,

5–10% of patients become

remia or at-risk patients

eggs

myalgia, and abdominal

bacteremic

(eg, sickle cell patients)

Affects young children and

Shigella

Exam and Test Results (Note: all have fecal RBCs and WBCs)

contaminated food (raw Affects children and the

Salmonella

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Causes of Infectious Diarrhea (continued)

Infectious Agent E coli O157:H7

HIGH-YIELD FACTS IN

pain

Sickle cell patients are sus-

the elderly; generally

ceptible to invasive disease

lasts 2–5days

leading to osteomyelitis

person-to-person spread

dehydration

mitted between people

TMP-SMX

Treat with TMP-SMX to ↓

May lead to severe

Extremely contagious; trans-

with oral quinolone or

Can also cause febrile sei-

by the fecal-oral route

zures in the very young

Affects young children and institutionalized patients Taenia solium

Pork tapeworm. Acquired

Presents with signs of

Diagnosed via CT or mag-

Treat with albendazole

by ingestion of under-

elevated intracranial

netic resonance imaging

and with symptomatic

cooked pork

pressure (headaches,

(MRI) showing several cysts

management of CNS

vomiting, seizures, visual

with edema

symptoms

changes) Trichinella

Acquired by ingestion of

Classic triad of myositis,

undercooked meat in

periorbital edema, and

developing countries

eosinophilia

Multiorgan involvement is possible

(especially Mexico and Thailand)

Common causes of pediatric diarrhea are rotavirus, Norwalk virus, and enterovirus infection. ■ Chronic diarrhea: Insidious onset with a duration of > 4 weeks. ■ Secretory: Carcinoid tumors, VIPomas. ■ Malabsorption/maldigestive/osmotic: Bacterial overgrowth, pancreatic insufficiency, mucosal damage, lactose intolerance, celiac disease, laxative abuse (presents with dark brown colonic discoloration), postsurgical short bowel syndrome. ■ Inflammatory/infectious: Inflammatory bowel disease (IBD), giardiasis, amoebic dysentery. ■ Increased motility: Irritable bowel syndrome (IBS). ■

Diagnosis ■ Acute diarrhea: No further studies are indicated unless the patient has a high fever, bloody diarrhea, or diarrhea lasting > 4–5 days.

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KEY FACT Organisms that cause bloody diarrhea include Salmonella, Shigella, E coli (EHEC), and Campylobacter.

KEY FACT Organisms that cause watery diarrhea include Vibrio cholerae, rotavirus, E coli (ETEC), Cryptosporidium, Giardia, and norovirus.

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KEY FACT

GASTROINTESTINAL

Chronic diarrhea: History/physical exam to narrow the differential diagnosis. Additional studies include the following: ■ Stool analysis: Leukocytes, culture, C difficile toxin, and ova and parasite exam (O&P).

Diarrhea after ingestion of raw eggs or dairy: think Salmonella.

KEY FACT The initial tests specific for celiac disease are IgA anti-transglutaminase antibody or anti-endomysial antibody. The gold standard is intestinal biopsy.

Treatment ■ Acute diarrhea: Oral rehydration is key. Antibiotics are not indicated (except in C difficile infection, or in the epidemic setting), because they do not shorten the course of illness. ■ Chronic diarrhea: Treatment is etiology specific. MALABSORPTION/MALDIGESTION

Inability to absorb macro- and/or micronutrients. Common etiologies include the following: ■ Mucosal abnormalities: Celiac disease (associated with dermatitis herpetiformis; see Figure 2.6-6), Whipple disease (also presents with arthritis, lymphadenopathy, cardiac issues, PAS positive granules in lamina propria on biopsy), tropical sprue. ■ Bile salt deficiency: Ileal disease in Crohn disease or small bowel resections (> 100 cm of terminal ileum), bacterial overgrowth. ■ Other: Pancreatic insufficiency, short bowel syndrome. ■ Hx/PE: Presents with pale, foul-smelling, bulky stools (steatorrhea or fat maldigestion) associated with abdominal pain, flatus, bloating, weight loss, nutritional deficiencies, and fatigue. ■ Dx: Multiple laboratory tests based on the clinical suspicion. Biopsy is definitive. ■ Tx: Etiology dependent. In severe cases, patients may require TPN, immunosuppressants, and anti-inflammatory medications. ■

F I G U R E 2 . 6 - 6 .   Dermatitis herpetiformis. Grouped, papulovesicular,

pruritic skin lesions are shown. Lesions tend to be symmetrically located on the extensor surfaces of the elbows, knees, buttocks, and posterior scalp, and are associated with celiac disease. (Reproduced

with permission from Caproni M et al. Celiac disease and dermatologic manifestations: many skin clues to unfold gluten-sensitive enteropathy. Gastroenterol Res Pract. 2012;2012:952753.)

KEY FACT Whipple disease shows PAS positive granules in lamina propria on biopsy.

KEY FACT The classic presentation of pellagra is the 4 D’s: Diarrhea, Dementia, Dermatitis, and Death.

KEY FACT Patients with carcinoid syndrome also develop niacin deficiency because tryptophan is metabolized into serotonin.

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LACTOSE INTOLERANCE

Common among populations of African, Asian, and Native American descent, also transiently after an acute episode of gastroenteritis. ■ Hx/PE: Presents with abdominal bloating, flatulence, cramping, and watery diarrhea following milk ingestion. ■ Dx: Often treated empirically with lactose-free diet. Hydrogen breath test reveals ↑ hydrogen following the ingestion of lactose. ■ Tx: Avoidance of dairy products; oral lactase enzyme replacement. ■

CARCINOID SYNDROME

Carcinoid syndrome is caused by metastasis of carcinoid tumors, which most commonly arise from the ileum and appendix and produce serotonin. Prior to metastasis, most secreted hormones undergo first-pass metabolism by the liver and do not cause systemic symptoms. ■ Hx/PE: Cutaneous flushing, diarrhea, abdominal cramps, wheezing, and right-sided cardiac valvular lesions are the most common manifestations. ■ Dx: High urine levels of the serotonin metabolite 5-HIAA (best initial test) are diagnostic. CT and In-111 octreotide scans are used to localize the tumor. ■ Tx: Treatment includes octreotide and surgical resection. ■

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HIGH-YIELD FACTS IN

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IRRITABLE BOWEL SYNDROME

An idiopathic functional disorder that commonly affects women in their 20s to 30s; often patients have comorbid psychiatric disorders like depression, anxiety, and fibromyalgia. History/PE ■ Patients present with abdominal pain that is relieved by bowel movements, diarrhea and/or constipation, abdominal distention, and mucous stools. Symptoms often worsen with stress. ■ No alarm symptoms: Rarely awakens patients from sleep; vomiting, significant weight loss, and constitutional symptoms are uncommon. ■ PE: Usually unremarkable. Diagnosis ■ Definition (per Rome III diagnostic criteria): At least 3 days in 3 months of episodic abdominal discomfort that is (two or more criteria): (1) relieved by defecation; (2) associated with a change in stool frequency or consistency; (3) associated with a change in stool appearance. ■ Exclude organic disorders such as IBD; increased prevalence of celiac disease in IBS, so celiac should be ruled out when IBS is suspected. Treatment ■ Psychosocial: Patients benefit from a strong patient-physician relationship. Physicians should offer reassurance and should not dismiss the symptoms. ■ Diet: Fiber supplements (psyllium); exclude gas-producing foods. ■ Chronic constipation may lead to anal fissures. Treat with topical anesthetics and vasodilators. ■ Pharmacologic: Symptomatic treatment with antispasmodics. TCAs and SSRIs may help. Long-term medical therapy is usually not indicated.

KEY FACT In the United States, the leading cause of SBO in children is hernia. The leading cause of SBO in adults is adhesions.

SMALL BOWEL OBSTRUCTION

Partial or complete blockage of passage of bowel contents through the small bowel. Etiologies: Adhesions (60% of cases), hernias (10–20%), neoplasms (10–20%), intussusception, gallstone ileus, stricture caused by IBD, and volvulus. ■ Partial small bowel obstruction (SBO): Continued passage of flatus, but no stool. ■ Complete SBO: No passage of flatus or stool (obstipation). ■

History/PE ■ Hx: Crampy abdominal pain at 4- to 5-minute intervals; vomiting typically follows the pain. ■ Abdominal exam: Distention, tenderness, prior surgical scars, or hernias, hyperactive bowel sounds (high-pitched tinkles and peristaltic rushes). ■ Complications: Ischemic necrosis and bowel rupture with prolonged or complete obstruction. Patients present with peritonitis manifested by fever, hypotension, rebound tenderness, and tachycardia.

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A 53-year-old woman with a history of carcinoid tumor of the appendix (status post-resection) presents to a local clinic with symmetric, dry, hyperpigmented skin lesions and persistent diarrhea. Her husband expresses concern that the patient does not seem to be herself anymore; he reports that she has been irritable, confused, and forgetful. What is the most likely diagnosis?

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GASTROINTESTINAL

A

B

F I G U R E 2 . 6 - 7 .   Small bowel obstruction. (A) Supine x-ray of the abdomen shows dilated air-filled small bowel loops with relatively little gas in the colon. (B) Left lateral decubitus x-ray on the same patient demonstrates multiple air-fluid levels (arrows) at different levels. These are typical plain film findings of complete SBO. (Reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010.)

KEY FACT Gallstone ileus is a form of SBO that occurs when a gallstone lodges at the ileocecal valve.

Diagnosis ■ Best initial test: Abdominal x-ray demonstrates a stepladder pattern of dilated small bowel loops, air-fluid levels (see Figure 2.6-7), and a paucity of gas in the colon. ■ Most accurate test: CT scan of the abdomen to further characterize obstruction and evaluate for etiology. ■ CBC may demonstrate leukocytosis if there is ischemia or necrosis of bowel. ■ Lab tests often reveal dehydration. Lactic acidosis is a prognostic sign, as it suggests necrotic bowel. Treatment ■ Best initial treatment: Fluid resuscitation. ■ Partial obstruction: Supportive care may be sufficient and should include NPO status, NG suction, IV hydration, correction of electrolyte abnormalities, Foley catheterization to monitor fluid status, and pain management; avoid opioids and anticholinergics (slow GI motility). ■ Complete obstruction: Exploratory laparotomy indicated in complete SBO, ischemic necrosis, or refractory SBO symptoms. ILEUS

Loss of peristalsis without structural obstruction. Risk factors: Recent surgery/GI procedures, severe medical illness, immobility, hypokalemia or other electrolyte imbalances, hypothyroidism, diabetes mellitus (DM), and medications that slow GI motility (eg, anticholinergics, opioids).

■ ■

Pellagra, a deficiency of vitamin B3 (niacin), 2° to a recurrent carcinoid tumor. Carcinoid tumors produce serotonin, which is a derivative of tryptophan. However, tryptophan is also the precursor of niacin. In patients with carcinoid tumors, the tumor can be so active that most tryptophan is used for serotonin production, resulting in niacin deficiency.

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History/PE ■ Hx: Diffuse, constant abdominal discomfort, nausea and vomiting, and an absence of flatus or bowel movements. ■ PE: Diffuse tenderness, abdominal distention, and ↓ or absent bowel sounds; rectal exam required to rule out fecal impaction in elderly patients.

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GASTROINTESTINAL Diagnosis ■ Must consider clinical history in diagnosis. ■ Best initial test: Abdominal film shows distended loops of small and large bowel, with air seen throughout the colon and rectum (SBO has no air distal to the obstruction). ■ Most accurate test: CT scan of the abdomen.

HIGH-YIELD FACTS IN

157

KEY FACT In ileus, there is air present throughout the small and large bowel on x-ray of the abdomen.

Treatment ■ ↓ or discontinue the use of narcotics and any other drugs that reduce bowel motility. ■ Bowel rest: Temporarily ↓ or discontinue oral feeds. ■ Bowel decompression: Initiate NG suction/parenteral feeds as necessary. ■ Supportive care: Replete electrolytes as needed; hydrate with IV fluids. MESENTERIC ISCHEMIA

Insufficient blood supply to the small intestine, resulting in ischemia and, potentially, necrosis. The most common causes are as follows: Embolism: Emboli most commonly originate in the heart. Risk factors include atrial fibrillation and stasis from ↓ ejection fraction. ■ Acute arterial occlusion from thrombosis: Most commonly occurs in the proximal SMA. The 1° risk factor is atherosclerosis. ■ Other causes: Nonocclusive arterial disease (atherosclerosis of mesenteric vessels, arteriolar vasospasm), venous thrombosis (caused by hypercoagulable states), or shock state. ■

History/PE ■ Presents with severe abdominal pain out of proportion to the exam, nausea, vomiting, diarrhea, bloody stools, prior episodes of abdominal pain after eating (“intestinal angina”). Diagnosis ■ Best initial test: x-ray or CT scan of the abdomen may reveal bowel wall edema (“thumbprinting”) and air within the bowel wall (pneumatosis intestinalis). ■ Most accurate test: Mesenteric/CT angiography; gold standard for diagnosis of arterial occlusive disease, but conventional angiography allows for intervention of thrombosis/embolism. Treatment ■ Best initial treatment: Volume resuscitation, broad-spectrum antibiotics. ■ For acute arterial thrombosis or embolism: Anticoagulation and either laparotomy or angioplasty. ■ For venous thrombosis: Anticoagulation. ■ Surgery: Resect infarcted bowel. Complications Sepsis/septic shock, multisystem organ failure, death

KEY FACT Cholesterol embolism may occur following cardiac catheterization, and ischemia of multiple organs may be seen (bowel, kidney, pancreas, lower extremity skin causing livedo reticularis).

APPENDICITIS

See the Surgery and Emergency Medicine chapter.

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GASTROINTESTINAL

KEY FACT Diverticulosis is the most common cause of acute lower GI bleeding in patients > 40 years of age.

Disorders of the Large Bowel DIVERTICULAR DISEASE

Diverticula: Outpouching of mucosa and submucosa (false diverticula) that herniate through the colonic muscle layers in areas of high intraluminal pressure; most commonly found in the sigmoid colon. ■ Diverticulosis: Many diverticula, most common cause of acute lower GI bleeding in patients > 40 years of age. ■ Diverticulitis: Inflammation and, generally, microperforation of a diverticulum 2° to fecalith impaction. ■ Risk factors: Low-fiber and high-fat diet, advanced age (65% occur in those > 80 years of age), and connective tissue disorders. ■

L

S

GB

UB

FIGURE 2.6-8. 

Acute diverticulitis.

Coronal reconstruction from a contrastenhanced CT demonstrates sigmoid diverticula with presigmoid inflammatory “fat stranding.” The area of abnormality is circled in red. L, liver; S, stomach; GB,gallbladder; UB, urinary bladder. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT Sigmoidoscopy should be avoided in the initial stages of diverticulitis because of the risk for perforation.

F I G U R E 2 . 6 - 9 .   Large bowel obstruction. Anteroposterior x-ray from a

barium enema in a patient with an LBO reveals a massively dilated sigmoid colon (arrow) and a “bird’s beak” appearance of the barium column at the site of volvulus (circle). (Reproduced with permission from Doherty

GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010.)

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History/PE ■ Diverticulosis: Often asymptomatic until patients present with sudden, intermittent, painless bleeding, which can cause symptoms of anemia when bleeding is severe. Associated with chronic constipation. ■ Diverticulitis: LLQ abdominal pain, fever, nausea, and vomiting. Perforation is a serious complication that presents with peritonitis and shock. Diagnosis ■ Clinical history is important to diagnosis. ■ CBC may show leukocytosis or anemia. ■ Most accurate test: Colonoscopy provides definitive diagnosis in diverticular disease, however, avoid sigmoidoscopy/colonoscopy in patients with acute diverticulitis because of the risk for perforation. ■ In acute diverticulitis, CT scan is best test for diagnosis; it may reveal inflammation or abscess (see Figure 2.6-8). Treatment ■ Uncomplicated diverticulosis: Routine follow-up. Encourage a high-fiber diet or fiber supplements. ■ Diverticular bleeding: Bleeding usually stops spontaneously; transfuse and hydrate as needed. If bleeding does not stop, hemostasis by colonoscopy, angiography with embolization, or surgery is indicated. ■ Diverticulitis: Treat with bowel rest (NPO), NG tube placement (if severe), and broad-spectrum antibiotics (metronidazole and a fluoroquinolone or a second- or third-generation cephalosporin), colonoscopy after initial stage. ■ Hospitalization is required if there is evidence of peritonitis or systemic signs of infection. ■ For perforation: Immediate surgical resection of diseased bowel via a Hartmann procedure with a temporary colostomy. Complications Diverticulitis may cause fistulas in other organs, leading to pneumaturia, fecaluria, or fecal discharge from the vagina. Diagnose with CT and treat with surgical resection. LARGE BOWEL OBSTRUCTION

Table 2.6-5 describes features that distinguish SBO from large bowel obstruction (LBO). Figure 2.6-9 demonstrates the classic radiographic findings of LBO.

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GASTROINTESTINAL

TA B L E 2.6 - 5. 

Exam

Small Bowel Obstruction Moderate to severe acute abdominal pain; copious emesis

Constipation/obstipation, deep and cramping abdominal pain (less intense than SBO), nausea/vomiting (less than that of SBO,

Fever, signs of dehydration, and hypotension may be seen

but more commonly feculent)

Abdominal distention (distal SBO), abdominal tenderness, visible peristaltic waves, fever, hypovolemia High-pitched “tinkly” bowel sounds; later, absence of bowel sounds Adhesions (postsurgery), hernias, neoplasm, volvulus, intussusception, gallstone ileus, foreign body, Crohn disease, cystic fibrosis (CF), stricture, hematoma

Differential

Large Bowel Obstruction

Cramping pain with distal SBO

Look for surgical scars/hernias; perform a rectal exam

Etiologies

159

Characteristics of Small and Large Bowel Obstruction

Variable History

HIGH-YIELD FACTS IN

LBO, paralytic ileus, gastroenteritis

Significant distention, tympany, and tenderness; examine for peritoneal irritation or mass Fever or signs of shock suggest perforation/peritonitis or ischemia/necrosis High-pitched “tinkly” bowel sounds; later, absence of bowel sounds Colon cancer, diverticulitis, volvulus, fecal impaction, benign tumors Assume colon cancer until proven otherwise SBO, paralytic ileus, appendicitis, IBD, Ogilvie syndrome (pseudo-obstruction)

Diagnosis

Treatment

CBC, electrolytes, lactic acid, x-ray of the abdomen (see

CBC, electrolytes, lactic acid, x-ray of the abdomen (see

Figure 2.6-7), contrast studies (determine if it is partial

Figure 2.6-9), CT scan, water contrast enema (if perforation is

or complete), CT scan

suspected), sigmoidoscopy/colonoscopy if stable

Hospitalize. Partial SBO can be treated conservatively with NG decompression and NPO status Patients with complete SBO should be managed aggressively with NPO status, NG decompression, IV fluids, electrolyte replacement, and surgical correction

Hospitalize. Obstruction can be relieved with a Gastrografin enema, colonoscopy, or a rectal tube; however, surgery is usually required. Ischemic colon usually requires partial colectomy with a diverting colostomy Treat the underlying cause (eg, neoplasm)

COLORECTAL CANCER

The second leading cause of cancer mortality in the United States. There is an ↑ incidence with age, with a peak incidence at 70–80 years of age. Risk factors and screening recommendations are summarized in Tables 2.6-6 and2.6-7.

MNEMONIC Bovis in blood = Cancer in butt

History/PE Most patients are asymptomatic. When they are symptomatic, symptoms depend on the location of the lesion: Right-sided lesions: Often bulky, ulcerating masses that lead to anemia from chronic occult blood loss. Patients may complain of weight loss, anorexia, diarrhea, weakness, or vague abdominal pain. Obstruction is rare. (Right colon has a larger diameter than left colon.) ■ Left-sided lesions: Typically, “apple-core” obstructing masses (see Figure 2.6-10). Patients complain of obstruction, change in bowel habits (eg, ↓ stool caliber, constipation, obstipation), and/or blood-streaked stools. (Left side has smaller diameter and thus is easier to obstruct.) ■ Rectal lesions: Usually present with bright-red blood per rectum, often with tenesmus and/or rectal pain. Rectal cancer must be ruled out in all patients with rectal bleeding. However, ⊝ FOBT has insufficient sensitivity to exclude the possibility of cancer. ■

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A 60-year-old man with no past medical history presents with fever, dyspnea, and orthopnea of 2 weeks’ duration. Physical exam reveals splinter hemorrhages and a new IV/ VI diastolic decrescendo murmur. Echocardiogram confirms aortic valve endocarditis, and IV antibiotics are started. Blood cultures are ⊕ for Streptococcus bovis. What is the next diagnostic step?

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TA B L E 2.6 - 6. 

Risk Factors for Colorectal Cancer

Risk Factor

Comments

Age

Risk ↑ with age; peak incidence is at 70–80 years of age

Hereditary polyposis

Familial adenomatous polyposis (FAP; 100% risk by 40 years of age);

syndromes

hereditary nonpolyposis colorectal cancer (HNPCC, also known as Lynch syndrome. Also risk for endometrial and ovarian cancers.)

KEY FACT Iron deficiency anemia in an elderly patient indicates colorectal cancer until proven otherwise.

⊕ Family history

Especially first-degree relatives < 60 years of age

IBD

Ulcerative colitis > Crohn disease

Adenomatous polyps

Villous > tubular; sessile > pedunculated

High-fat, low-fiber diet

Diagnosis ■ Most accurate test: Colonoscopy with biopsy. ■ Evaluate for metastases: CXR, liver function tests (LFTs), and an abdominal/pelvic CT. ■ Staging is based on the depth of tumor penetration into the bowel wall and the presence of lymph node involvement and distant metastases. Treatment ■ Best initial treatment: Surgical resection of the tumor. ■ Adjuvant chemotherapy is appropriate in cases with ⊕ lymph nodes. ■ Follow with serial CEA levels to detect recurrence, colonoscopy, LFTs, CXR, and abdominal CT to screen for metastases. TA B L E 2.6 - 7. 

Screening Recommendations for Colorectal Cancer

Risk Category

Recommendations

No past medical or

Starting at 50 years of age:

family history

Annual digital rectal exam (DRE) and home fecal occult blood test (FOBT) Colonoscopy every 10 years or

FIGURE 2.6-10. 

Sigmoidoscopy every 5 years

Colon carcinoma.

The encircling carcinoma appears as an “apple-core” filling defect in the descending colon on barium enema x-ray. (Reproduced with permission from Way

First-degree relative with colon cancer

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Colonoscopy every 5 years starting 10 years before the age of affected family member at time of diagnosis (whichever

LW. Current Surgical Diagnosis & Treatment, 10th ed. Stamford, CT: Appleton & Lange; 1994.)

Colonoscopy. Although the mechanism of association has yet to be determined, there is a wellestablished association between Sbovis and colon cancer. Clostridium septicum is also associated with colon cancer.

Colonoscopy every 5 years starting at 40 years of age or

comes first) Ulcerative colitis

Colonoscopy every 1–2 years starting 8–10 years after diagnosis

Hereditary nonpolyposis

Colonoscopy every 1–2 years starting at 25 years of age

colon cancer syndrome Familial adenomatous

Sigmoidoscopy every year starting at 12 years of age

polyposis Previous large adenomas

Colonoscopy every 3–5 years

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161

ISCHEMIC COLITIS

Insufficient blood supply to the colon that results in ischemia and, potentially, necrosis. Most commonly affects the left colon, particularly the “watershed area” at the splenic flexure. Usually occurs in the setting of atherosclerosis.

History/PE ■ Presents with crampy lower abdominal pain followed by bloody diarrhea after meals or exertion or in the heat. Fever and peritoneal signs suggest bowel necrosis. Diagnosis ■ Best initial test: CT scan with contrast may show thickened bowel wall, atherosclerosis. ■ Most accurate test: Angiography. ■ Colonoscopy may show a pale mucosa with petechial bleeding. Treatment ■ Supportive therapy with bowel rest, IV fluids, and broad-spectrum antibiotics. ■ Surgical bowel resection is indicated for infarction, fulminant colitis, or obstruction. PILONIDAL DISEASE

Painful, fluctuant masses that develop in anal area of obese individuals with sedentary lifestyles. May present with purulent, bloody, or mucoid discharge. Treat with surgical drainage.

Gastrointestinal Bleeding GI bleeding presents as hematemesis, hematochezia, and/or melena. Upper GI tract bleeding: Bleeding from lesions proximal to the ligament of Treitz (the anatomic boundary between the duodenum and jejunum). Table 2.6-8 presents the features of upper and lower GI bleeding.

■ ■

Inflammatory Bowel Disease Includes Crohn disease (see Figure 2.6-11) and ulcerative colitis (see Figure 2.6-12). Most common in whites and Ashkenazi Jews, with onset most

A

B

KEY FACT One unit of packed RBCs should ↑hemoglobin by 1 g/dL and hematocrit by 3–4 units.

C

F I G U R E 2 . 6 - 1 1 .   Crohn disease. (A) Small bowel follow-through (SBFT) barium study shows skip areas of narrowed small bowel with nodular mucosa (arrows) and ulceration. Compare with normal small bowel (arrowhead). (B) Spot compression image from SBFT shows “string sign” narrowing (arrow) caused by stricture. (C) Deep ulcers in the colon of a patient with Crohn disease, seen at colonoscopy. (Image A reproduced with permission from Chen MY et al. Basic Radiology, 1st ed. New York, NY: McGraw-Hill; 2004. Image B reproduced with permission from USMLE-Rx.com. Image C reproduced with permission from Fauci AS et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008).

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TA B L E 2.6 - 8. 

GASTROINTESTINAL

Features of Upper and Lower GI Bleeding

Variable

Upper GI Bleeding

History/exam

Hematemesis (“coffee-ground”

Lower GI Bleeding Hematochezia > melena, but can be either

emesis), melena > hematochezia, hypovolemia (eg, elevated BUN, tachycardia, lightheadedness, hypotension) NG tube and lavage (may be ⊝

Diagnosis

in 15% of upper GI bleeds); endoscopy is definitive

Rule out upper GI hemorrhage with NG lavage if brisk Anoscopy/sigmoidoscopy for patients < 45 years of age with small-volume bleeding Colonoscopy if stable; arteriography or exploratory laparotomy if unstable

Etiologies

PUD, esophagitis/gastritis, Mallory-

Diverticulosis (60%), angiodysplasia, IBD, hem-

Weiss tear, esophageal/gastric

orrhoids/fissures, neoplasm, arteriovenous

varices, gastric antral vascular

malformation

ectasia, Dieulafoy lesions Initial management

Protect the airway (intubation

Stabilize the patient with IV fluids and packed RBCs (hematocrit may be normal early in

may be needed) Stabilize the patient with IV fluids

acute blood loss)

and packed RBCs (hematocrit may be normal early in acute blood loss) Long-term management

Endoscopy followed by therapy

Depends on the underlying etiology.

directed at the underlying

Endoscopic therapy (eg, epinephrine injec-

cause

tion, cauterization, or clip placement), intra-arterial vasopressin infusion or embolization, or surgery for diverticular disease or angiodysplasia

A

B

C

F I G U R E 2 . 6 - 1 2 .   Ulcerative colitis. (A) X-ray from a barium enema showing a featureless (“lead pipe”) colon with small mucosal ulcerations (arrow). Compare with normal haustral markings in (B). (C) Diffuse mucosal ulcerations and exudates at colonoscopy in chronic ulcerative colitis. (Image A reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010. Image B reproduced with permission from Chen MY et al. Basic Radiology. New York, NY: McGraw-Hill; 2004. Image C reproduced with permission from Fauci AS et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

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TA B L E 2.6 - 9. 

163

Features of Ulcerative Colitis and Crohn Disease

Variable Site of

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Ulcerative Colitis Rectum is always involved. May extend proximally in a con-

involvement

tinuous fashion Inflammation and ulceration are limited to the mucosa and submucosa

Crohn Disease May involve any portion of the GI tract, particularly the ileocecal region, in a discontinuous pattern (“skip lesions”); rectum is often spared Transmural inflammation is seen, sometimes leading to fistulas to other organs

History/exam

Bloody diarrhea, lower abdominal cramps, tenesmus, urgency Exam may reveal orthostatic hypotension, tachycardia, abdominal tenderness, frank blood on rectal exam, and extraintestinal manifestations Toxic megacolon may be presenting finding (avoid tubes or

Abdominal pain, abdominal mass, low-grade fever, weight loss, watery diarrhea Exam may reveal fever, abdominal tenderness or mass, perianal fissures or tags, fistulas, and extraintestinal manifestations

scopes in view of the risk for perforation) Extraintestinal

Aphthous stomatitis, episcleritis/uveitis, arthritis, primary

manifestations

sclerosing cholangitis, erythema nodosum, and pyoderma

Same as ulcerative colitis in addition to fistulas to the skin, to the bladder, or between bowel loops

gangrenosum Diagnosis

CBC, x-ray of the abdomen, stool cultures, O&P, stool assay for C difficile Colonoscopy can show diffuse and continuous rectal involvement, friability, edema, and pseudopolyps Definitive diagnosis can be made with biopsy

Same lab workup as that of ulcerative colitis; upper GI series with small bowel follow-through Colonoscopy may show aphthoid, linear, or stellate ulcers, strictures, noncaseating granulomas, “cobblestoning,” and “skip lesions” “Creeping fat” may also be present during laparotomy Definitive diagnosis can be made with biopsy

Treatment

5-ASA agents (eg, sulfasalazine, mesalamine), topical or oral;

Similar to UC: 5-ASA agents; corticosteroids for flare-ups.

corticosteroids for flare-ups and immunomodulators (eg,

May require immunomodulators (eg, azathioprine) or

azathioprine) or biologics (eg, infliximab) for refractory or

biologics (eg, infliximab) for refractory or moderate to

moderate to severe disease

severe disease and for maintenance therapy

Total proctocolectomy can be curative for long-standing or fulminant colitis or toxic megacolon; also ↓ cancer risk Incidence of

Markedly ↑ risk for colorectal cancer in long-standing cases

cancer

(monitor with frequent FOBT and yearly colonoscopy with

Surgical resection may be necessary for suspected perforation, stricture, fistula, or abscess Incidence of 2° malignancy is lower than that of ulcerative colitis but is greater than that of the general population

multiple biopsies after 8 years of disease)

frequently occurring in the teens to early 30s or in the 50s. Table 2.6-9 summarizes the features of IBD. In patients with a history of Crohn disease and acute abdominal pain, suspect SBO, which is caused by the fistula formation. Ulcerative colitis does not cause fistulas.

Hernias Inguinal hernias are protrusions of abdominal contents (usually the small intestine) into the inguinal region through a weakness or defect in the

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KEY FACT The Hesselbach triangle is an area bounded by the inguinal ligament, the inferior epigastric artery, and the rectus abdominis.

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TA B L E 2.6 - 10. 

Hernia Type Indirect

Types of Hernias

Location

Etiology

Prevalence

Herniation of abdominal

Results from congenital

contents through both

patent processus vaginalis

Most common

external and internal rings, lateral to inferior epigastric vessels (see Figure 2.6-13) Direct

Herniation through floor of

Mechanical breakdown in

Hesselbach triangle, medial

transversalis fascia resulting

to epigastric vessels (see

from age

Figure 2.6-13) Femoral

Herniation below inguinal

Increased intra-abdominal

More common

ligament through femoral

pressure, weakened pelvic

in women than

canal, below and lateral to

floor

in men

the pubic tubercle

MNEMONIC MDs Don’t LIE Direct hernias lie MeDial and indirect lie Lateral to the Inferior Epigastric vessels.

abdominal wall. Classified as either direct or indirect. There are also femoral hernias. See Table 2.6-10 and Figure 2.6-13. Treatment Because of the risk for incarceration and strangulation, surgical correction is indicated.

Inferior epigastric vessels Parietal peritoneum

Extraperitoneal fascia

Deep inguinal ring

Parietal peritoneum

Extraperitoneal fascia

Superficial inguinal ring

Superficial inguinal ring

Peritoneal bulge

Peritoneal sac

Testis

FIGURE 2.6-13.  USMLE-Rx.com.)

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Deep inguinal ring

Conjoint tendon

Conjoint tendon

A

Inferior epigastric vessels

Testis

B Direct (A) and indirect (B) inguinal hernias. (Reproduced with permission from

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165

Biliary Disease CHOLELITHIASIS AND BILIARY COLIC

Colic results from transient cystic duct blockage from impacted stones. Although risk factors include the four F’s (Female, Fat, Fertile, and Forty), the disorder is common and can occur in any patient. Additional risk factors include OCP use, rapid weight loss, chronic hemolysis (pigment stones in sickle cell disease), small bowel resection (loss of enterohepatically circulated bile), and TPN. Table 2.6-11 details the forms of biliary disease and contrasts the lab findings associated with each.

TA B L E 2.6 - 11. 

KEY FACT Pigmented gallstones result from hemolysis (black) or infection (brown).

Disorders Caused by Gallstones

Disorder Cholelithiasis

Definition

Presentation

Labs

Diagnosis Ultrasonography

Management If asymptomatic,

Stones in the

May be asymptomatic,

Normal total

gallbladder

or may cause biliary

bilirubin/alkaline

observation; if

colic; transient RUQ

phosphatase,

symptomatic,

pain commonly seen

serum amylase

laparoscopic cholecystectomy

after eating fatty meals; caused by temporary occlusion of the cystic duct by a stone Cholecystitis

Inflammation of

RUQ pain, fever

↑ WBC, normal

the gallbladder,

(maybe), Murphy sign

total bilirubin/

cholecystectomy;

typically caused

(cessation of inspiration

alkaline phos-

if patient is too

by stone

with palpation of RUQ)

phatase, amylase

ill to undergo

Ultrasonography, HIDAscan

Laparoscopic

occluding the

surgery, transcuta-

cystic duct

neous drainage of gallbladder

Choledocholithiasis

Stone in the

Jaundice, ± RUQ pain,

Normal/↑WBC,

Ultrasonography often does

ERCP to remove

common bile

afebrile

↑ total bili-

not show the stone but may

stone, followed by

rubin/alkaline

show dilated CBD. Magnetic

cholecystectomy

phosphatase,

resonance cholangiopan-

↑amylase/lipase

creatography (MRCP) and

(if pancreatitis is

endoscopic retrograde

present)

cholangiopancreatography

duct (CBD)

(ERCP) are definitive Cholangitis

Infection of the

Charcot triad: RUQ pain,

↑ WBC, ↑ total

Clinical diagnosis con-

ERCP; surgery if

CBD, usually

fever, jaundice, Reyn-

bilirubin/alkaline

firmed by biliary dilation

patient toxic

caused by stone

olds pentad: Charcot

phosphatase

on imaging; or ERCP (both

in the CBD

triad + shock and

diagnostic and therapeutic)

altered mental status

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L

L

B

A

F I G U R E 2 . 6 - 1 4 .   Gallstone disease. (A) Cholelithiasis. Ultrasound image of the gallbladder shows a gallstone (arrow) with posterior shadowing. (B) Acute cholecystitis. Ultrasound image shows a gallstone (red arrow), a thickened gallbladder wall (arrowhead), and pericholecystic fluid (white arrow). L, liver. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT Sphincter of Oddi dysfunction: Look for RUQ pain following opiate administration.

KEY FACT Immunosuppressed patients (especially diabetics) are at risk for emphysematous cholecystitis (infection of the gallbladder with gas-forming bacteria). This requires emergent cholecystectomy.

KEY FACT Most gallstones are precipitations of cholesterol and are not radiopaque.

History/PE ■ Postprandial abdominal pain (usually in the RUQ) that radiates to the right subscapular area or the epigastrium, often associated with nausea and vomiting, dyspepsia, and flatulence. ■ Gallstones: May have RUQ tenderness and a palpable gallbladder or be asymptomatic. Diagnosis RUQ ultrasound is the best initial and most accurate test (see Figure 2.6-14). Treatment ■ Cholecystectomy is curative and recommended for patients with symptomatic gallstones. Asymptomatic gallstones do not require treatment. ■ Porcelain gallbladder is an incidental finding of peripheral gallbladder calcifications that places the patient at higher risk for gallbladder adenocarcinoma. Emergent cholecystectomy is needed. Complications Postcholecystectomy syndrome can be caused by retained stones, strictures, or extrabiliary causes. Symptoms include early satiety, bloating, and dyspepsia after cholecystectomy. Diagnosis is made with additional abdominal imaging (ultrasound, ERCP, MRCP). ACUTE CHOLECYSTITIS

Prolonged blockage of the cystic duct by a gallstone that leads to progressive distention, inflammation, and infection. Acalculous cholecystitis occurs in the absence of cholelithiasis in patients who are chronically debilitated or critically ill. History/PE ■ Hx: RUQ pain, nausea, vomiting, and fever. ■ Physical Exam: RUQ tenderness, inspiratory arrest with deep palpation of the RUQ (Murphy sign), and low-grade fever.

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167

Diagnosis ■ Best initial test: Ultrasound; may demonstrate stones, bile sludge, pericholecystic fluid, a thickened gallbladder wall, gas in the wall of the gallbladder, and/or an ultrasonic Murphy sign (see Figure 2.6-14). ■ When ultrasound is equivocal, obtain a HIDA scan. In this nuclear medicine scan, which uses a radiotracer excreted through the biliary system, nonvisualization of the gallbladder suggests acute cholecystitis. Treatment ■ Broad-spectrum IV antibiotics and IV fluids. ■ Cholecystectomy is indicated. CHOLEDOCHOLITHIASIS

Gallstones in the common bile duct (CBD). Symptoms vary according to the degree of obstruction, the duration of the obstruction, and the presence/severity of infection. ■ Hx/PE: Biliary colic, jaundice, afebrile unless current infection, and/or pancreatitis. ■ Dx: ↑ Alkaline phosphatase and total and direct bilirubin (see Table 2.6-11). ■ Tx: Management consists of ERCP with sphincterotomy followed by cholecystectomy. ■

ACUTE CHOLANGITIS

An acute bacterial infection of the biliary tree that commonly occurs 2° to obstruction, usually from gallstones (choledocholithiasis). ■ Other etiologies: Bile duct stricture, primary sclerosing cholangitis, and malignancy. Gram ⊝ enterics are commonly identified pathogens. ■

History/PE ■ Charcot triad—RUQ pain, jaundice, and fever/chills—is classic. ■ Reynolds pentad—Charcot triad plus septic shock and altered mental status—may be present in acute suppurative cholangitis.

KEY FACT Charcot triad consists of RUQ pain, jaundice, and fever/chills. Reynolds pentad consists of RUQ pain, jaundice, fever/chills, shock, and altered mental status.

Diagnosis ■ Labs: Leukocytosis, ↑ bilirubin, and ↑ alkaline phosphatase (see Table 2.6-11); blood cultures. ■ Best initial test: Ultrasound; diagnostic for CBD dilation. ■ Most accurate test: ERCP; diagnostic and therapeutic. Treatment ■ Patients often require ICU admission for monitoring, hydration, BP support, and broad-spectrum IV antibiotic treatment. ■ Patients with acute suppurative cholangitis require emergent bile duct decompression via ERCP/sphincterotomy, percutaneous transhepatic drainage, or open decompression. GALLSTONE ILEUS

Mechanical obstruction resulting from the passage of a large (> 2.5 cm) stone into the bowel through a cholecystoduodenal fistula. Obstruction is often at the ileocecal valve. ■ Hx/PE: The classic presentation is a subacute SBO in an elderly woman. Patients may have no history of biliary colic. ■

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A 35-year-old man with a 12-year history of ulcerative colitis presents to a clinic for annual follow-up. He has no current complaints. What is the most important screening test he should undergo?

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Dx: X-ray of the abdomen with characteristics of SBO and pneumobilia (gas in the biliary tree) confirms the diagnosis. Upper GI barium contrast images will demonstrate no contrast in the colon. ■ Tx: Laparotomy with stone extraction; closure of the fistula and cholecystectomy. ■

Liver Disease ABNORMAL LIVER FUNCTION TESTS

Liver diseases can be divided into several patterns based on LFT results as follows: ■ ■ ■

KEY FACT HCV is Chronic; 70–80% of patients with HCV infection will develop chronic hepatitis.

Hepatocellular injury: ↑ AST and ALT. Cholestasis: ↑ Alkaline phosphatase and bilirubin. Mixed: Combination of hepatocellular and cholestatic picture. Isolated hyperbilirubinemia: ↑ Bilirubin.

Jaundice is a clinical sign that occurs when bilirubin levels exceed 2.5 mg/dL. Figures 2.6-15 and 2.6-16 summarize the clinical approaches toward cholestasis and isolated hyperbilirubinemia. HEPATITIS

Inflammation of the liver leading to cell injury and necrosis. Hepatitis can be either acute or chronic. Acute: The most common causes are viruses (HAV, HBV, HCV, HDV, HEV) and drugs (alcohol, acetaminophen, INH, methyldopa). ■ Fulminant: Also known as acute liver failure. Severe liver injury with INR > 1.5 and hepatic encephalopathy in a patient without underlying chronic liver disease. ■ Chronic: The most common causes are chronic viral infection (HCV most common in United States, HBV worldwide), alcohol, autoimmune hepatitis, and metabolic syndromes (Wilson disease, hemochromatosis, α1-antitrypsin deficiency). ■

Cholestasis (↑↑ alkaline phosphatase and bilirubin)

Ductal dilation?

Colonoscopy. Patients with ulcerative colitis are at a significantly ↑ risk for colon cancer. Thus, colonoscopies are recommended for such patients every 1–2 years beginning 8–10 years after diagnosis. If dysplasia is present on random biopsy, total colectomy is recommended.

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No

Yes

Intrahepatic cholestasis

Biliary obstruction

Medications Post-op Sepsis

Stone Stricture Cancer

FIGURE 2.6-15. 

Approach to cholestasis.

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TA B L E 2.6 - 12. 

HIGH-YIELD FACTS IN

169

Types of Hepatitis

Virus Type

Mode of Transmission

HAV

Fecal-oral

Presentation

Notes

Typically self-limited acute hepatitis

Most common cause of acute viral hepatitis worldwide

May lead to fulminant hepatic failure HBV

Bodily fluids

May be asymptomatic, but may present as viral pro-

< 10% of infections in adults become chronic, while

drome (this is listed above) and/or jaundice

most vertically transmitted become chronic

May lead to fulminant hepatic failure and require treat-

Extremely high transmission rate

ment with antivirals or liver transplant in severe cases HCV

Bodily fluids

Asymptomatic or viral prodrome and/or jaundice

80% become chronic. Less likely to be sexually transmitted than HBV; may present with very mild acute phase Very rarely leads to acute liver failure If palpable purpura, arthralgia, and low complement levels are seen, consider cryoglobulinemia

HDV

Bodily fluids

Co-infection with HBV or superinfection in patient with

Requires HBV surface antigen. HDV is Dependent on HBV

prior HBV (more severe) HEV

Fecal-oral

Typically self-limited acute hepatitis similar to HAV

High mortality rate in pregnant women May become chronic in immunosuppressed patients

History/PE ■ Acute hepatitis: ■ Often begins with a nonspecific viral prodrome (malaise, fever, joint pain, nausea, vomiting, changes in bowel habits) followed by jaundice and RUQ tenderness. Exam often reveals jaundice, scleral icterus, and tender hepatomegaly. ■ HAV and HEV have only a self-limited acute phase; HBV and HCV may feature a mild acute phase or none at all. Acetaminophen toxicity can cause a life-threatening hepatitis. Table 2.6-12 outlines further distinctions among these. ■ Chronic hepatitis: May be asymptomatic, but may cause fatigue and joint and muscle pains. Jaundice and complications of portal hypertension typically occur only when the disease progresses to cirrhosis. At least 80% of those infected with HCV and 10% of those with HBV in adulthood will develop persistent infection with chronic active hepatitis. Isolated hyperbilirubinemia (↑↑ bilirubin)

Unconjugated

Overproduction Hemolytic anemia

FIGURE 2.6-16. 

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Defective conjugation Gilbert syndrome (< 5 mg/dL) Crigler-Najjar syndrome

Conjugated

Defective excretion Dubin-Johnson syndrome Rotor syndrome

Approach to isolated hyperbilirubinemia.

1 A 43-year-old woman presents to the ED with nausea, vomiting, and epigastric pain. She has complained of intermittent RUQ pain for the past several months. Physical exam reveals marked epigastric tenderness. Labs show leukocytosis, ↑ AST and ALT, and ↑ lipase. X-ray of the abdomen is unremarkable. What is the most likely diagnosis?

2 A 21-year-old college student in the midst of final exams presents to a local clinic with “yellow eyes.” His physical exam is unremarkable except for scleral icterus, and a CBC and blood smear show no abnormalities. A comprehensive metabolic profile reveals a normal AST and ALT but elevated unconjugated bilirubin. What is the most likely diagnosis?

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TA B L E 2.6 - 13. 

Key Hepatitis Serologic Markers

Serologic Marker

Description

IgM HAVAb

IgM antibody to HAV; the best test to detect acute HAV

HBsAg

Antigen found on the surface of HBV; continued presence indicates carrier state

HBsAb

Antibody to HBsAg; indicates immunity to HBV

HBcAg

Antigen associated with core of HBV. Not measured in clinical practice

HBcAb

Antibody to HBcAg; IgM ⊕ during the window period IgG HBcAb is an indicator of prior or current infection

HBeAg

A different antigenic determinant in the HBV core An important indicator of transmissibility (Beware!)

HBeAb

KEY FACT An AST/ALT ratio > 2 suggests alcohol hepatitis: you’re toASTed.

1 Gallstone pancreatitis results from a gallstone that travels through the CBD and lodges at the ampulla of Vater, thus obstructing the flow of both pancreatic exocrine enzymes and bile. It most commonly occurs in women, who often report a history of biliary colic. Treatment involves management of the pancreatitis with supportive care and elective cholecystectomy.

Antibody to e antigen; indicates low transmissibility

Diagnosis ■ Acute hepatitis: Labs reveal markedly ↑ ALT and AST, ↑ GGT, ↑ferritin, and ↑ bilirubin/alkaline phosphatase. ■ Chronic hepatitis: ALT and AST are either mildly elevated or even normal/low for > 3–6 months. Contrast this with the marked elevation of acute hepatitis as above. ■ Diagnosis of viral hepatitis is made by hepatitis serology (see Table 2.6-13 and Figure 2.6-17 for a description and timing of serologic markers). May require liver biopsy if diagnosis is uncertain or to rule out other causes of liver disease in chronic or severe cases. Important diagnostic tests

Incubation period

Prodrome, acute disease

HBsAg

HBsAg (anti-HBc)

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Anti-HBs (anti-HBc)

AntiHBc

Anti-HBc

DNA polymerase

Relative concentration of reactants

HBV particles

HBsAg Window period

2 Gilbert syndrome is an autosomal recessive disorder of bilirubin glucuronidation caused by ↓ activity of the enzyme glucuronyl transferase. Patients present with unconjugated hyperbilirubinemia but have a normal CBC, blood smear, and LFTs. The condition is benign, and no treatment is indicated.

Convalescence Late Early

Anti-HBs Anti-HBe

HBeAg Level of detection Months after 0 exposure

1

2

3

4

5

6

7

8

Symptoms SGPT (ALT)

FIGURE 2.6-17.  sion from USMLE-Rx.com.)

Time course of hepatitis B with serologic markers. (Reproduced with permis-

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Other diagnostic studies include the following: ■ Autoimmune hepatitis: ⊕ Anti–nuclear and anti–smooth muscle antibodies (type 1) and anti–liver-kidney microsomal-1 antibodies and anti– liver cytosol antibodies (type 2). May also present with elevated serum gamma globulins (IgG) and p-ANCA. ■ Hemochromatosis: ↑ Ferritin and transferrin saturation > 50%. Liver biopsy showing high hepatic iron index. ■ Wilson disease: ↓ Ceruloplasmin, ↑ urine copper, Kayser-Fleischer rings. Liver biopsy if diagnosis is uncertain.

Treatment ■ Acute hepatitis: Generally supportive care. Acute HBV may require treatment with antivirals. ■ Hepatitis B postexposure prophylaxis: Nonimmunized individuals requires both vaccination and immunoglobulins. Hepatitis B–immunized individuals and those exposed to hepatitis C do not require any postexposure prophylaxis. ■ Chronic hepatitis: Treatment is etiology specific. ■ Chronic HBV infection: Tenofovir and entecavir are most commonly used and have the least viral resistance. Other agents include telbivudine, adefovir, and lamivudine, but they are not recommended because of a high rate of resistance. ■ Chronic HCV infection: Medications and treatment duration vary based on genotype, cirrhosis status, and history of prior treatment. Typically, either two direct-acting antivirals (DAAs) or one DAA plus ribavirin. Interferon is still used occasionally today. This field is rapidly evolving. Previously, interferon and ribavirin, plus a protease inhibitor for some genotypes. ■ Most definitive treatment: Liver transplantation for patients with endstage liver failure. Emergent transplantation is indicated in cases of fulminant hepatic failure.

KEY FACT The sequelae of chronic hepatitis include cirrhosis, portal hypertension, liver failure, and hepatocellular carcinoma.

Complications Cirrhosis, liver failure, hepatocellular carcinoma (3–5%). CIRRHOSIS

Bridging fibrosis and nodular regeneration resulting from chronic hepatic injury. ■ Most common etiologies in the United States are alcohol, chronic HCV, and nonalcoholic steatohepatitis. Etiologies can be as follows: ■ Intrahepatic: All causes of chronic hepatitis. ■ Extrahepatic: ■ Biliary tract disease (primary biliary cirrhosis, primary sclerosing cholangitis). ■ Posthepatic causes include right-sided heart failure, constrictive pericarditis, and Budd-Chiari syndrome (hepatic vein thrombosis 2° to hypercoagulability). ■

History/PE ■ Hx: May be asymptomatic, though may present with jaundice, easy bruising (coagulopathy), and complications of portal hypertension such as ascites, hepatic encephalopathy (asterixis, altered mental status), gastroesophageal varices, hepatic hydrothorax (transudative pleural effusion) and thrombocytopenia. Ascites can be complicated by spontaneous bacterial peritonitis. ■ PE: May reveal an enlarged, palpable, or firm liver and other signs of portal hypertension and liver failure (see Figures 2.6-18 and 2.6-19).

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KEY FACT Spontaneous bacterial peritonitis is a common complication in patients with cirrhosis and ascites, and if they present with signs and symptoms suggestive of infection, paracentesis should be performed. Spontaneous bacterial peritonitis is diagnosed by >250PMNs/mL in the ascitic fluid.

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GASTROINTESTINAL

Integumentary Jaundice Spider angiomas Palmar erythema Purpura Petechiae

Neurologic Hepatic encephalopathy Asterixis (”flapping tremor”) Gastrointestinal Anorexia Nausea, vomiting Dull abdominal pain Fetor hepaticus

Effects of portal hypertension Esophageal varices ( hematemesis) Gastric varices ( melena)

Hematologic Thrombocytopenia Anemia Coagulation disorders Splenomegaly

Caput medusae Ascites Anorectal varices

Renal Hepatorenal syndrome

Reproductive Testicular atrophy Gynecomastia Amenorrhea

Metabolic Hyperbilirubinemia Hyponatremia Cardiovascular Cardiomyopathy Peripheral edema

FIGURE 2.6-18.  from USMLE-Rx.com.)

Presentation of cirrhosis/portal hypertension. (Reproduced with permission

Diagnosis ■ Synthetic dysfunction (best initial tests): ↓ Albumin, ↑ PT/INR, and ↑bilirubin. ■ Portal hypertension: Thrombocytopenia (2° to hypersplenism, sequestration of platelets in the liver, and ↓ thrombopoietin production), varices, ascites (paracentesis). Pathologic blood in portal HTN

Azygos vein Esophageal vein IVC

Flow through TIPS, re-establishing normal flow direction

1

Normal venous drainage

4

Shunt

Left gastric vein

Portal vein

Systemic venous system Portal venous system

Splenic vein

Paraumbilical vein

Superior mesenteric vein Umbilicus

Inferior mesenteric vein

2

Colon

Superior rectal vein (superior hemorrhoidal vein)

Epigastric veins

Middle rectal vein Inferior rectal vein

3

Anus

F I G U R E 2 . 6 - 1 9 .   Portosystemic anastomoses. 1. Esophageal varices: left gastric ↔ azygos. 2.Caput medusae: paraumbilical ↔ small epigastric veins of the anterior abdominal wall. 3.Anorectal varices: superior rectal ↔ middle and inferior rectal. 4.Treatment with transjugular intrahepatic portosystemic shunt (TIPS): portal vein ↔ hepatic vein.

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Etiologies of Ascites by SAAG

SAAG > 1.1 Related to portal hypertension: Presinusoidal: Splenic or portal vein

thrombosis, schistosomiasis Sinusoidal: Cirrhosis

Postsinusoidal: Right heart failure, constrictive

SAAG < 1.1 Not related to portal hypertension: Nephrotic syndrome

TB

Malignancy with peritoneal

carcinomatosis (eg, ovarian cancer)

pericarditis, Budd-Chiari syndrome

Most accurate test: Liver biopsy shows bridging fibrosis and nodular regeneration. ■ Etiology: Hepatitis serologies, autoimmune markers, serum ferritin, ceruloplasmin, and α1-antitrypsin. ■ If ascites is present, the etiology of ascites can be determined by the serumascites albumin gradient (SAAG = serum albumin – ascites albumin); see Table 2.6-14. ■

Treatment The goal is to treat and prevent the progression of cirrhosis and minimize factors that can lead to decompensation (see Table 2.6-15). All cirrhotic patients should receive vaccinations for hepatitis A, hepatitis B, and PPSV-23 (pneumonia). PRIMARY SCLEROSING CHOLANGITIS

An idiopathic disorder characterized by progressive inflammation and fibrosis accompanied by strictures of extrahepatic and intrahepatic bile ducts. The disease usually presents in young men with ulcerative colitis. Patients are at ↑ risk for cholangiocarcinoma. ■ Hx/PE: Presents with progressive jaundice, pruritus, and fatigue. ■ Dx: ■ Laboratory findings include ↑ alkaline phosphatase and ↑ bilirubin; primary sclerosing cholangitis is also associated with P-ANCA antibodies. ■ Most accurate test: MRCP/ERCP show multiple bile duct strictures and dilatations (“beading”). ■ Liver biopsy reveals periductal sclerosis (“onion skinning”). ■ All newly diagnosed patients should undergo colonoscopy to evaluate for IBD. ■ Tx: ERCP with dilation and stenting of strictures. Liver transplantation is the definitive treatment. Ursodeoxycholic acid has been shown to improve the liver function profile in some patients. ■

KEY FACT Primary sclerosing cholangitis is strongly associated with ulcerative colitis.

PRIMARY BILIARY CHOLANGITIS

Autoimmune disorder characterized by destruction of intrahepatic bile ducts. Most commonly presents in middle-aged women with other autoimmune conditions. ■ Hx/PE: Presents with progressive jaundice, pruritus, and fat-soluble vitamin deficiencies (A, D, E, K). ■ Dx: Laboratory findings include ↑ alkaline phosphatase, ↑ bilirubin, ⊕ antimitochondrial antibody, and ↑ cholesterol. ■ Most accurate test: Liver biopsy. ■

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TA B L E 2.6 - 15. 

GASTROINTESTINAL

Complications of Cirrhosis

Complication

Mechanism/History ↑ Portal hypertension results in transudative

Ascites

Physical exam reveals abdominal distention, fluid wave, and shifting dullness to percussion Presents with fever, abdominal pain, chills, nausea,

bacterial

tosystemic Shunt) Treat underlying liver disease if possible IV antibiotics acutely (third-generation cephalosporin), IV albumin; prophylaxis with a fluoroquinolone to prevent recurrence

and vomiting

peritonitis

Sodium restriction and diuretics (furosemide, spironolactone); large-volume paracentesis. TIPS (Transjugular Intrahepatic Por-

effusion

Spontaneous

Management

Treatment indicated if diagnostic paracentesis

Development of SBP is associated with poor 1-year prognosis

reveals > 250 PMNs/mL Hepatorenal

Prerenal failure in the setting of severe liver disease

syndrome

A diagnosis of exclusion

Initially trial of volume repletion and rule out other causes of renal failure

Caused by splanchnic vasodilation and decreased blood flow to the kidneys

May use octreotide (decrease splanchnic vasodilation) and midodrine (increase blood pressure)

Urinary sodium < 10 mEq/L

May require dialysis

“Healthy kidneys in an unhealthy environment”

Poor prognosis Liver transplantation can be curative

↓ Clearance of ammonia; often precipitated by

Hepatic encephalopathy

dehydration, infection, electrolyte abnormalities,

Lactulose, and/or rifaximin Correct underlying triggers

and GI bleeding Esophageal varices

Portal hypertension leads to ↑ flow through porto-

Endoscopic surveillance in all patients with cirrhosis; medical prophylaxis with nonselective β-blockers or endoscopic band

systemic anastomoses

ligation to prevent bleeding in patients with known varices For acute bleeding, endoscopy with band ligation or sclerotherapy is indicated. Urgent TIPS in refractory cases (associated with high mortality) Coagulopathy

Impaired synthesis of all clotting factors (except VIII)

KEY FACT Primary biliary cholangitis is an autoimmune disease that presents with jaundice and pruritus in middle-aged women.

For acute bleeding, administer fresh frozen plasma Vitamin K will not correct coagulopathy

Tx: Ursodeoxycholic acid (slows progression of disease); cholestyramine for pruritus; liver transplantation.

NONALCOHOLIC FATTY LIVER DISEASE

Steatosis of hepatocytes leads to liver injury. Some patients progress to nonalcoholic steatohepatitis (NASH) and are at risk for liver fibrosis and cirrhosis. ■ Associated with insulin resistance and metabolic syndrome. ■ Dx: Largely a diagnosis of exclusion. Liver biopsy may show steatosis or steatohepatitis. ■ Tx: Weight loss, diet, and exercise. If nonalcoholic steatohepatitis is present, consider vitamin E and pioglitazone. ■

HEPATOCELLULAR CARCINOMA

One of the most common cancers worldwide despite its relatively low incidence in the United States.

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Remember that metastatic disease (especially from colon cancer) is much more common than primary hepatic cancer. ■ Risk factors: In the United States, risk factors are cirrhosis (from alcohol, HCV, and nonalcoholic steatohepatitis) and chronic hepatitis B (even without cirrhosis). In developing countries, HBV infection and aflatoxins (in various food sources) are major risk factors. ■

History/PE ■ Patients commonly present with RUQ tenderness, abdominal distention, and signs of chronic liver disease such as jaundice, easy bruisability, and coagulopathy. May present as decompensation of previously compensated cirrhosis. ■ Exam may reveal tender enlargement of the liver. Diagnosis Often suggested by the presence of a mass on ultrasound or CT as well as by abnormal LFTs and significantly elevated α-fetoprotein (AFP) levels. Biopsy is required if diagnosis is uncertain. Treatment ■ Surgical: Partial hepatectomy if technically feasible and synthetic function preserved; orthotopic liver transplantation in patients with cirrhosis is preferred treatment if there are only a few small tumors (Milan criteria: single lesion < 5 cm or 3 lesions < 3 cm). ■ Nonsurgical: Transarterial chemoembolization (TACE) and/or radiofrequency ablation. Sorafenib for advanced metastatic disease. ■ May monitor AFP levels (if previously elevated) and serial surveillance imaging (ultrasound, CT) to screen for recurrence.

KEY FACT Hepatic adenomas (caused by oral contraceptives) are benign tumors and do not transform into malignancy.

HEMOCHROMATOSIS

A state of iron overload in which hemosiderin accumulates in the liver, pancreas (islet cells), heart, adrenal glands, testes, and pituitary gland. 1° Hemochromatosis: An autosomal recessive disease characterized by mutations in the HFE gene that result in excessive absorption of dietary iron. ■ 2° Hemochromatosis: Occurs in patients receiving chronic transfusion therapy (eg, sickle cell disease or α-thalassemia). ■

History/PE ■ Hx: Patients may present with abdominal pain, DM, hypogonadism, arthropathy of the metacarpophalangeal joints, heart failure, impotence, or cirrhosis. ■ PE: Bronze skin pigmentation, cardiac dysfunction (CHF), hepatomegaly, and testicular atrophy. Labs may reveal evidence of DM. ■ Hemochromatosis does not affect the lung, kidney, or eye. Diagnosis ■ Best initial tests: Iron studies showing ↑ serum iron, percent saturation of iron, and ferritin with ↓ serum transferrin. A transferrin saturation (serum iron divided by TIBC) > 45% is highly suggestive of iron overload. ■ Most accurate tests: HFE gene mutation screen (C282Y/H63D) and MRI; liver biopsy (most accurate test) to determine hepatic iron index.

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A 36-year-old woman with a past medical history of hypercholesterolemia and type 2 DM presents with intermittent dull RUQ discomfort. The patient does not drink alcohol. Her physical exam is unremarkable. Lab studies show elevated AST and ALT but are otherwise normal. Hepatitis serologies are ⊝. What is the most likely diagnosis?

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GASTROINTESTINAL Treatment ■ Weekly phlebotomy to normalize serum iron levels, and then maintenance phlebotomy every 2–4 months. ■ Iron chelating agents such as deferoxamine, deferiprone, or deferasirox can be used for maintenance therapy. Complications Cirrhosis, hepatocellular carcinoma, restrictive cardiomyopathy, arrhythmias, DM, impotence, arthropathy, hypopituitarism. Patients with hemochromatosis have increased susceptibility to Vibrio vulnificus, Listeria monocytogenes, and Yersinia enterocolitica infections. WILSON DISEASE (HEPATOLENTICULAR DEGENERATION)

An autosomal recessive disorder that results in defective copper transport and subsequent accumulation and deposition of copper in the liver and brain. Usually occurs in patients < 30 years of age. ■ Hx: Patients present with hepatitis/cirrhosis, neurologic dysfunction (ataxia, tremor), and psychiatric abnormalities (psychosis, anxiety, mania, depression). ■ PE: May reveal Kayser-Fleischer rings (green-to-brown copper deposits in the Descemet membrane; see Figure 2.6-20) as well as jaundice, hepatomegaly, asterixis, choreiform movements, and rigidity. ■ Dx: ■ Best initial test: Slit-lamp exam. Other tests that may aid in diagnosis includes ↓ serum ceruloplasmin level, liver biopsy. ■ Most accurate test: ↑ 24-hour urinary copper excretion after giving penicillamine. ■ Tx: Penicillamine or trientine (copper chelators that ↑ urinary copper excretion), dietary copper restriction (avoid shellfish, liver, legumes), and zinc (↑ fecal excretion). ■

F I G U R E 2 . 6 - 2 0 .   Kayser-Fleischer ring. Note the brown ring encircling the

iris. This is a result of copper deposits in the Descemet membrane and is a classic finding in Wilson disease. (Reproduced with

permission from USMLE-Rx.com.)

Pancreatic Disease INSULINOMA

Results from insulin-producing tumor, associated with MEN type 1, usually benign. ■ Hx: Hypoglycemia satisfying Whipple triad: (1) documented hypoglycemia on a venipuncture; (2) with associated symptoms including sweating, palpitations, anxiety, tremors, headache, confusion; and (3) resolution of symptoms with correction of hypoglycemia. ■ Dx: ■ Best initial test: Lab tests: fasting serum insulin (elevated), C-peptide (elevated). ■ Most accurate test: 72-hour fasting. Patient develops profound or symptomatic hypoglycemia after prolonged fast. Once hypoglycemia is reached, labs drawn to determine etiology: glucose, serum insulin level (elevated), C-peptide level (elevated), sulfonylurea screen (⊝), serum beta hydroxybutyrate level (low), serum cortisol level (normal/elevated). ■ Tx: Surgery to resect tumor. ■

Nonalcoholic fatty liver disease (NAFLD), a condition that is associated with insulin resistance and metabolic syndrome.

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VIP O M A

Results from VIP-producing tumor; highly malignant. Hx: Watery diarrhea, dehydration, muscle weakness, flushing. ■ Dx: ■ Stool sample: Low stool osmotic gap (ie, secretory diarrhea). ■ Lab tests: High VIP levels, achlorhydria (since VIP inhibits gastrin secretion), hyperglycemia, hypercalcemia, hypokalemia. ■ CT scan: Localize the tumor. ■ Tx: Initially, replace fluid and electrolyte losses. Surgery to resect tumor. May also consider octreotide. ■ ■

PANCREATITIS

Table 2.6-16 outlines the features of acute and chronic pancreatitis.

PANCREATIC CANCER

Most (75%) are adenocarcinomas in the head of the pancreas. Risk factors include smoking, chronic pancreatitis, and a first-degree relative with pancreatic cancer. Incidence ↑ after 45 years of age; slightly more common in men. History/PE ■ Presentation: Abdominal pain radiating toward the back, obstructive jaundice, loss of appetite, nausea, vomiting, weight loss, weakness, fatigue, and indigestion. Often asymptomatic, and thus presents late in the disease course. In some patients, depression may be the most prominent symptom. ■ PE: May reveal a palpable, nontender gallbladder (Courvoisier sign) or migratory thrombophlebitis (Trousseau syndrome).

KEY FACT The hallmark finding in pancreatic cancer is a nontender, palpable gallbladder and jaundice.

Diagnosis ■ Best initial test: CT scan with contrast. Localize the tumor, and assess the extent of local invasion and distant metastases. Ultrasound of the abdomen is the initial test of choice if the patient suspected of having pancreatic cancer also has jaundice. ■ If a mass is not visualized on CT/ultrasound, use ERCP. ■ CA-19-9 is often elevated but is neither sensitive nor specific. Treatment ■ Locally advanced or metastatic disease: Most frequent presentation. Palliative chemotherapy or best supportive care. ■ Small tumors in the pancreatic head with no metastasis or major vessel involvement: Whipple procedure (pancreaticoduodenectomy). ■ Tumors in the body or tail of the pancreas with no metastasis or celiac artery involvement: Distal pancreatotomy and splenectomy. ■ Chemotherapy with 5-FU and gemcitabine may improve short-term survival, but long-term prognosis is poor (5–10% 5-year survival). ■ ERCP with stenting to relieve patients presenting with obstructive symptoms.

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TA B L E 2.6 - 16. 

Features of Acute and Chronic Pancreatitis

Variable Pathophysiology

GASTROINTESTINAL

Acute Pancreatitis

Chronic Pancreatitis

Leakage of activated pancreatic enzymes into pancreatic and peripancreatic tissue

Irreversible parenchymal destruction leading to pancreatic dysfunction and insufficiency

Time course

Abrupt onset of severe pain

Persistent, recurrent episodes of severe pain

Etiology/risk

Gallstones, alcohol abuse, hypercalcemia, hypertriglyceridemia, trauma

Alcohol abuse (90%), gallstones, CF, smoking,

factors

(most common cause of acute pancreatitis in children), drug side

pancreatic divisum, family history

effects (thiazide diuretics), viral infections, post-ERCP, scorpion bites History/PE

Severe epigastric pain (radiating to the back); nausea, vomiting, weak-

Recurrent episodes of persistent epigastric pain; anorexia, nausea, constipation, flatu-

ness, fever, shock, pleural effusions, ARDS Flank bruising (Grey Turner sign) and periumbilical discoloration (Cullen

lence, steatorrhea, weight loss, DM

sign) may be evident on exam Diagnosis

↑ Lipase (more sensitive and specific than amylase), ↑ amylase, ↓ calcium if severe; “sentinel loop” or “colon cutoff sign” on x-ray of the abdomen Ultrasound of the abdomen or CT may show an enlarged pancreas with

Treatment

↑ To normal amylase and lipase, ↓ stool elastase, pancreatic calcifications (arrows in Image B), and alternating stenosis and dilation

peripancreatic fluid and fat stranding (arrows in Image A), abscess,

(arrowheads in Image B) of the main pancre-

hemorrhage, necrosis, or pseudocyst

atic duct on CT or ultrasound (“chain of lakes”)

Removal of the offending agent if possible

Analgesia, pancreatic enzyme replacement,

Supportive care, including IV fluids/electrolyte replacement, analgesia,

avoidance of causative agents (EtOH), celiac

bowel rest, NG suction, nutritional support, and O2 Infected pancreatic necrosis should be treated with antibiotics, though

nerve block; endoscopic dilation of pancreatic duct; surgery for intractable pain or structural causes

prophylactic antibiotics are not recommended Endoscopic, percutaneous, or surgical debridement may be considered Prognosis

Roughly 85–90% are mild and self-limited; 10–15% are severe, requiring ICU admission

Patients can have chronic pain and pancreatic dysfunction

Mortality may approach 50% in severe cases Complications

Pancreatic pseudocyst, fistula formation, hypocalcemia, renal failure, pleural effusion, chronic pancreatitis, sepsis, and ARDS Mortality 2° to acute pancreatitis can be predicted with Ranson criteria

Chronic pain, opiate addiction, diabetes mellitus, malnutrition/weight loss, splenic vein thrombosis, pancreatic cancer

P

A

  B

P, pancreas. (Images reproduced with permission from USMLE-Rx.com.)

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HEMATOLOGY/ONCOLOGY Coagulation Disorders

180

White Blood Cell Disorders

198

Normal Hemostasis

180

Leukemias

198

Hemophilia

181

Lymphomas

202

Von Willebrand Disease

182

Hypercoagulable States

183

Disseminated Intravascular Coagulation

185

Thrombotic Thrombocytopenic Purpura

185

Idiopathic Thrombocytopenic Purpura (Immune Thrombocytopenia) 186

Red Blood Cell Disorders

187

Plasma Cell Disorders

205

Multiple Myeloma

205

Waldenström Macroglobulinemia

206

Amyloidosis

206

Neutropenia 207

187

Eosinophilia 208

Thalassemias

196

Polycythemias

197

Transplant Medicine

208

Blood Transfusion Reactions

198

Diseases Associated with Neoplasms

209

Anemias

179

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HEMATOLOGY/ONCOLOGY

Coagulation Disorders NORMAL HEMOSTASIS

Divided into three phases: vascular phase (spasm), platelet phase (plug), and coagulation phase. The coagulation phase can be further subdivided into extrinsic (outside the blood vessel, fewer factor[s], shorter prothrombin time [PT]) and intrinsic (inside the blood vessel, more factors, longer partial thromboplastin time [PTT]) pathways, both leading to the common pathway. Vascular injury leads to the release of von Willebrand factor (vWF) and tissue factor from subendothelial vessel walls.

KEY FACT

vWF facilitates attachment and aggregation of platelets, forming a platelet plug. ■ Tissue factor triggers the coagulation cascade via the extrinsic pathway with factor VII. ■

Enteric bacteria synthesize vitaminK. Neonates lack these bacteria and are prone to bleeding unless given a vitamin K shot at birth.

Ultimately the platelet plug and coagulation cascade create a fibrin mesh, as shown in Figure 2.7-1. Drugs affecting the cascade are shown in Table 2.7-1. Heparin-to-warfarin bridge is necessary because proteins C and S have shorter half-lives than the other vitamin K–dependent factors (II, VII, IX, and X), leading to a transient period of paradoxic hypercoagulability before proper anticoagulation.

Collagen, basement membrane, activated platelets Contact activation (intrinsic) pathway

VII

*

VIIa

↑ Vasodilation

XII

XIIa XI

↑ Pain

Kinin cascade XIa

IX

*

X

ANTICOAGULANTS: factor Xa - LMWH (greatest efficacy) - heparin - direct Xa inhibitors (apixaban, rivaroxaban) - fondaparinux

*

IXa

*

VIII with vWF

VIIIa

*

ANTICOAGULANTS: IIa (thrombin) - heparin (greatest efficacy) - LMWH (dalteparin, enoxaparin) - direct thrombin inhibitors (argatroban, bivalirudin, dabigatran)

Xa

*

Va

V

II * IIa – Prothrombin Thrombin

Plasminogen

Ia I Fibrinogen Fibrin monomers

tPA

Aggregation

Hemophilia A: deficiency of factor VIII (XR) Hemophilia B: deficiency of factor IX (XR) Hemophilia C: deficiency of factor XI (AR)

↑ Permeability

Bradykinin

Tissue factor Tissue factor (extrinsic) pathway

HMWK Kallikrein

Plasmin Combined pathway

Note: Kallikrein activates bradykinin; ACE inactivates bradykinin * = require Ca2+ , phospholipid = inhibited by vitamin K antagonist warfarin = cofactor = activates but not part of coagulation cascade LMWH, low-molecular-weight heparin

Ca2+

XIIIa

THROMBOLYTICS: alteplase, reteplase, streptokinase, tenecteplase Aminocaproic acid Fibrinolytic system

XIII Fibrin degradation products

Fibrin mesh stabilizes platelet plug

F I G U R E 2 . 7 - 1 .   Coagulation cascade. HMWK, high-molecular-weight kininogen; low-molecular-weight-heparin; vWF, vonWillebrand factor. (Reproduced with permission from USMLE-Rx.com.)

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HEMATOLOGY/ONCOLOGY

TA B L E 2.7 - 1. 

HIGH-YIELD FACTS IN

181

Coagulation Pharmacology

Medication

Mechanism

Unfractionated

Activates antithrombin

heparin

Activated antithrombin then inactivates

Warfarin

Lab Values ↑ Partial thromboplastin time (PTT)

Miscellaneous Antidote is protamine sulfate Low-molecular-weight heparin (LMWH) has

factor Xa, thrombin (IIa), and other

more effect on factor Xa, can be given

proteases

subcutaneously, and does not ↑ PTT

Inhibits synthesis of vitamin K–dependent coagulation factors (II, VII, IX, X, and to a

↑ Prothrombin time (PT)

For rapid reversal, give FFP; otherwise give vitamin K Teratogenic

lesser extent proteins C and S) by blocking vitamin K epoxide reductase Tissue plasminogen

Aid conversion of plasminogen to plasmin,

activators (tPAs)

which breaks down fibrin Include alteplase, reteplase, and

↑ PT, ↑ PTT

Treat toxicity with aminocaproic acid

No change in platelet count

tenecteplase Factor Xa inhibitors

Directly inhibit factor Xa

(ApiXAban,

New/novel oral anticoagulant (NOAC)

PT/PTT not monitored

Antidote/reversal agent to factor Xa inhibitor is andexanet alfa

RivaroXAban) LMWH (enoxaparin,

Mainly inhibits factor Xa

dalteparin)

Antifactor Xa, although typically unmonitored

Protamine less effective at reversal than for heparin LMWH has better bioavailability and 2–4times longer half-life than unfractionated heparin (UFH) Can be administered subcutaneously

Direct thrombin

Directly inhibit factor II (thrombin)

inhibitors (dabigatran,

NOAC

Antidote/reversal agent to dabigatran is idarucizumab

argatroban) Glycoprotein IIb/IIIa

Reversibly binds to the glycoprotein

inhibitors (abciximab,

receptor IIb/IIIa on activated platelet, pre-

eptifibatide, tirofiban)

venting aggregation

HEMOPHILIA

Clotting factor deficiencies of factors VIII (hemophilia A, 80% of cases), IX (hemophilia B), and XI (hemophilia C) that result in an ↑ tendency to bleed. X-linked recessive pattern of inheritance (1:10000 male births). Rarely, hemophilias can be acquired if antibodies against these factors are produced as a result of autoimmune, lymphoproliferative, or postpartum states.

Abciximab is made from monoclonal antibody Fab fragments

KEY FACT Hemophilia C is most common in Ashkenazi Jews and is often autosomal recessive.

History/PE ■ Presents as a young boy with spontaneous bleeding into the tissues, muscles, and joints (hemarthrosis) that, if untreated, can lead to crippling arthropathy and joint destruction caused by hemosiderin deposition and fibrosis.

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HEMATOLOGY/ONCOLOGY

Spontaneous intracerebral, renal, retroperitoneal, and GI hemorrhages are also seen. ■ Mild cases may have major hemorrhage after surgery, trauma, or dental procedures, but are otherwise asymptomatic. ■

KEY FACT Cryoprecipitate consists mainly of factor VIII and fibrinogen, with smaller concentrations of factor XIII, vWF, and fibronectin. It is a more concentrated source of factor VIII and fibrinogen than FFP.

Diagnosis ■ PTT is prolonged (VIII, IX, XI are all intrinsic pathway) on basic bleeding workup. PT and bleeding time are normal. ■ Best initial test: Mixing study. Mixing the patient’s plasma with normal plasma will correct the PTT in hemophilia patients as it contains all clotting factors. ■ Most accurate test: Obtain specific factor assays for factors VII, VIII, IX, XI, and XII. Treatment ■ If bleeding is severe or factor level is ≤ 1% of normal (severe), immediately transfuse missing factor, or if unavailable, use cryoprecipitate. ■ If bleeding is not severe and factor level is > 5% of normal (mild) or 1–5% of normal (moderate), hemophilia may be treated with desmopressin, which releases factor VIII from endothelial cells. ■ Genetic counseling may be required. ■ Prophylactic application of clotting factor concentrates is the basis of modern treatment of severe hemophilia A. VON WILLEBRAND DISEASE

An autosomal dominant defect or deficiency in vWF with ↓ levels of factor VIII, which is carried by vWF (see Figure 2.7-2). The three main roles of vWF are to (1) bring platelets to exposed subendothelium; (2) aggregate platelets; and (3)bind to factor VIII. Symptoms are caused by platelet dysfunction and deficient factor VIII, but are milder than in hemophilia. vWD is the most common inherited bleeding disorder (1% of the population), and the most common form of vWD is type 1 vWD (mild to moderate deficiency in vWF). Type 2 includes qualitative defects in vWF, and type 3 is absence of functional vWF. Clopidogrel, prasugrel, ticlopidine

Aspirin

Platelet Inside platelets

Fibrinogen Arachidonic acid

ADP (P2Y12) receptor

GpIIb/IIIa

Deficiency: BernardSoulier syndrome

Subendothelial collagen

GpIIb/IIIa insertion

GpIb

vWF

Abciximab, eptifibatide, tirofiban Deficiency: von Willebrand disease

vWF fibrinogen COX

TXA2

Deficiency: Glanzmann thrombasthenia

Protein C

Thrombinthrombomodulin complex

Activated protein C Vascular endothelial cells

Inside endothelial cells

(vWF + factor VIII) thromboplastin tPA, PGI2

F I G U R E 2 . 7 - 2 .   Thrombogenesis deficiencies. ADP, adenosine diphosphate; COX, cyclooxygenase; PGI2, prostacyclin; tPA, tissue plasminogen activator; TXA2, thromboxane A2; vWF, von Willebrand factor. (Adapted with permission from Le T, et al. First Aid for the USMLE Step1 2018. New York, NY: McGraw-Hill; 2018.)

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HEMATOLOGY/ONCOLOGY History/PE ■ Often presents in childhood with recurrent and prolonged mucosal bleeding (epistaxis, gums, gingival, menorrhagia) and bleeding after dental or surgical procedures. ■ Often a family history is present. ■ Symptoms worsen with acetylsalicylic acid (ASA) use.

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183

KEY FACT ↓ Agglutination seen on the ristocetin cofactor assay (detects vWF dysfunction) is diagnostic of vWD.

Diagnosis ■ Ristocetin cofactor assay of patient plasma is diagnostic. It measures the capacity of vWF to agglutinate platelets and detects vWF dysfunction. ■ vWF antigen level: ↓Levels of antigen may be present. ■ Initial bleeding workup will show an ↑ bleeding time in all vWD types. ↑PTT as in hemophilia may be seen caused by low factor VIII levels. PT and platelet count will be normal.

ASA ↑ the risk for bleeding in patients with vWD.

Treatment ■ Best initial treatment: Desmopressin for mild to moderate disease. ■ Use factor VII replacement or vWF concentrate for severe disease, disease that does not respond to desmopressin, or for major bleeds and surgery. ■ Control menorrhagia with oral contraceptive pills (OCPs). Avoid ASA, NSAIDs, and platelet function inhibitors.

VWD types 1 and 2 are generally inherited in an autosomal-dominant pattern. VWD type 3 is inherited in an autosomal-recessive pattern.

KEY FACT

KEY FACT

HYPERCOAGULABLE STATES

Hypercoagulable states (thrombophilias or prothrombotic states) is an allinclusive term describing conditions that ↑ a patient’s risk for developing thrombosis, usually venous thromboembolism (VTE) disease. Etiology Causes can be genetic, acquired, or physiologic (see Table 2.7-2). Three commonly tested causes are highlighted here, but all present similarly: Activated protein C (APC) resistance/factor V Leiden: The most common cause of inherited thrombophilia. A single point mutation in factorV, rendering it resistant to inactivation/breaking down by activated proteinC.

TA B L E 2.7 - 2. 

Causes of Hypercoagulable States

Genetic

Acquired

Physiologic

Antithrombin III deficiency

Surgery

Pregnancy

Protein C deficiency

Trauma

Age

Protein S deficiency

OCPs/HRT

Factor V Leiden

Malignancy

Hyperhomocysteinemia (MTHFR

Immobilization

gene mutation)

Antiphospholipid syndrome

Dysfibrinogenemia

Nephrotic syndrome

Plasminogen deficiency

Inflammatory bowel disease

Prothrombin G20210A mutation

Smoking Obesity Varicose veins Paroxysmal nocturnal hemoglobinuria

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An 8-year-old boy from Eastern Europe presents with severe swelling and warmth of his knee several hours after a minor “bump” against a lamppost. What is the most accurate diagnostic test for his presentation?

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KEY FACT Protein C or S deficiency: hypercoagulable state with skin or tissue necrosis following warfarin administration.

KEY FACT Suspect PE in a patient with rapid onset of dyspnea, pleuritic chest pain, hypoxia, tachycardia, and an ↑ alveolararterial oxygen gradient without another obvious explanation.

MNEMONIC Antiphospholipid syndrome effects—

CLOTS Coagulation defect Livedo reticularis Obstetric (recurrent miscarriage) Thrombocytopenia (↓ platelets) SLE (association)

HEMATOLOGY/ONCOLOGY Risk for DVT or pulmonary embolism (PE) is ↑ 5-fold if heterozygous and 50-fold if homozygous. ■ Heparin-induced thrombocytopenia (HIT): More common with use of unfractionated heparin. It can happen with heparin or enoxaparin. An immunologic reaction to the administration of heparin creates plateletactivating antibodies, which leads to the formation of blood clots and a rapid (> 30%) drop in platelet count. Usually occurs 5–10 days after starting heparin. Often presents as skin necrosis at the injection site of subcutaneous heparin. HIT rarely causes bleeding. Venous and arterial thromboses can occur, however, VTE is more common. ■ Antiphospholipid syndrome (APS): Often associated with SLE (20–30%) and rheumatoid arthritis. The two main APS antibodies are the lupus anticoagulant and anticardiolipin. APS predisposes to both arterial and venous thrombi formation and spontaneous abortion (particularly associated with anticardiolipin antibodies). Laboratory testing shows a paradoxically prolonged PTT (only thrombophilia with an abnormality in the PTT). History/PE ■ Can present with recurrent thrombotic complications: DVT, PE, arterial thrombosis, MI, and stroke. Women may have recurrent miscarriages. ■ Factor V Leiden: Young, white patients (< 45 years of age) with a personal and family history of thrombosis (eg, multiple VTEs, unusual location, atypically young age). ■ Heparin-induced thrombocytopenia: Hospitalized patients on anticoagulation (heparin) with a marked drop in platelets 5–10 days after commencing anticoagulation. ■ Antiphospholipid syndrome: Young and middle-aged women with recurrent miscarriages or thrombosis. Diagnosis ■ Rule out acquired causes of thrombosis before thrombophilia screening. ■ Thrombophilia screening: Consider in patients with a history of VTE that occurred in the absence of risk factors that were not estrogen- or pregnancy-related, and in patients with a first-degree relative with a VTE that occurred < 50 years of age or with a diagnosis of thrombophilia. ■ Hereditary abnormality is confirmed with two abnormal values obtained while the patient is asymptomatic and untreated, with similar values obtained in two other family members. ■ Lab tests: Complete blood count (CBC), PT, thrombin time, PTT, fibrinogen, and assays for antithrombin and protein C and S deficiency. ■ Disease-specific tests: Factor V Leiden (APC resistance test), HIT (platelet factor 4 antibody or serotonin release assay), APS (lupus anticoagulant and anticardiolipin antibodies).

This boy (X-linked) probably has hemophilia A (most common), which is most accurately diagnosed with a specific factor VIII level.

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Treatment ■ Patients with a hypercoagulable state with DVT or pulmonary embolism should be treated with heparin immediately followed by 3–6 months of warfarin anticoagulation for the first event and lifelong anticoagulation for subsequent events. ■ If anticoagulation is contraindicated (ie, recent trauma, hemorrhage, severe hypertension), an inferior vena cava filter is the next best step and is also considered for patients who have recurrent DVTs on anticoagulation.

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For factor V Leiden mutation, warfarin is used for 6 months with a target INR of 2 to 3. Avoid OCPs in patients with factor V Leiden. ■ HIT: Discontinue heparin immediately. Start a direct thrombin inhibitor (eg, fondaparinux, argatroban, and bivalirudin). Warfarin should be commenced after a direct thrombin inhibitor is started. Starting nonheparin anticoagulation is crucial to prevent arterial and venous clots. ■ APS: Treat with heparin and warfarin. May require lifelong anticoagulation. ■

DISSEMINATED INTRAVASCULAR COAGULATION

An acquired coagulopathy caused by deposition of fibrin in small blood vessels, leading to thrombosis and end-organ damage. Depletion of clotting factors and platelets leads to a bleeding diathesis. It is associated with many severe illnesses and is often seen in hospitalized patients. History/PE ■ Common associations with DIC: Obstetric complications (eg, amniotic fluid embolism, abruptio placentae), sepsis, malignancy (AML, pancreatic cancer), burns, acute promyelocytic leukemia, pancreatitis, hemolysis, vascular disorders (aortic aneurysm), massive trauma, snake bites, drug reactions, acidosis, transfusion reactions, transplant rejections, and acute respiratory distress syndrome (ARDS). ■ Clinical presentation: ■ Acute: Bleeding from venipuncture sites, into organs, with ecchymoses and petechiae. ■ Chronic: Bruising and mucosal bleeding, thrombophlebitis, renal dysfunction, respiratory dysfunction, hepatic dysfunction, shock, and transient neurologic syndromes.

KEY FACT DIC is characterized by both thrombosis and hemorrhage.

Diagnosis ■ Lab tests: ↑ PT and PTT, ↓ platelets (thrombocytopenia), ↑ D-dimer and fibrin, ↓ fibrinogen. ■ DIC may be confused with liver disease, but unlike liver disease, factor VIII is depressed. Treatment Reverse the underlying cause; transfuse red blood cells (RBCs), platelets, and FFP; and manage shock as necessary. THROMBOTIC THROMBOCYTOPENIC PURPURA

Thrombotic thrombocytopenic purpura (TTP) is a deficiency of the vWFcleaving enzyme (ADAMTS-13) resulting in abnormally large vWF multimers that aggregate platelets and create platelet microthrombi. These block off small blood vessels, leading to end-organ damage. RBCs are fragmented by contact with the microthrombi, leading to hemolysis (microangiopathic hemolytic anemia). Hemolytic uremic syndrome (HUS) and thrombotic thrombocytopenic purpura have overlap and are considered a spectrum of the same disease that is caused by ADAMTS-13 deficiency, which is either inherited or often acquired secondary to infection. TTP is more common in adults, and HUS is frequently seen in children (associated with Escherichia coli 0157:H7).

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A 33-year-old woman was admitted to the hospital for anticoagulation after a PE. On day 4 of her stay, her platelet level ↓ from 150,000 to 60,000/mm3 and her INR remains < 2. What is the next best step, and what complications can result from this condition?

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MNEMONIC Pentad of features for TTP—

LMNOP Low platelet count (thrombocytopenia) Microangiopathic hemolytic anemia Neurologic changes ‘Obsolete’ renal function Pyrexia

MNEMONIC DICk’s HoUSe got TTPed because he caused microangiopathic hemolytic anemia.

HEMATOLOGY/ONCOLOGY History/PE ■ TTP: Associated with SLE, malignancy, pregnancy, cyclosporine, quinidine, clopidogrel, ticlopidine, and AIDS. Classic description involves a pentad of features. Suspect TTP if three of five of the following symptoms are present: ■ Low platelet count (thrombocytopenia). ■ Microangiopathic hemolytic anemia with schistocytes (severe, often with jaundice). ■ Neurologic changes (delirium, seizure, stroke, ↓ consciousness, ↓vision). ■ Impaired renal function (acute kidney injury [AKI]). ■ Fever. ■ HUS: Can present similarly to TTP with the absence of neurologic features. ■ > 90% of cases in children caused by O157:H7 E coli hemorrhagic diarrhea preceding the syndrome (eating undercooked contaminated meat). ■ Atypical HUS (aHUS) if caused by Shiga toxin–producing E coli (STEC) infection or as secondary HUS with a coexisting disease including infections, especially those caused by Streptococcus pneumoniae, and the influenza virus. ■ Characterized by renal failure, microangiopathic hemolytic anemia, and low platelets without neurologic symptoms. ■ Abdominal pain, bloody diarrhea, and AKI are seen. Severe ↑ in creatinine levels are more typical of HUS than of TTP. ■ Schistocytes (fragmented RBCs) are seen in both HUS and TTP. Diagnosis ■ Lab tests: ↓ Platelets, ↓ Hb, ↑ creatinine, normal clotting/coagulation screen. ■ Blood film: Presence of schistocytes (fragmented RBCs) (see Figure 2.7-3). Treatment ■ TTP: Plasma exchange is the best initial treatment. Steroids can be added to ↓ microthrombus formation. ■ HUS: Dialysis for AKI may be needed. Plasma exchange is used for severe persistent disease. ■ Platelet transfusion is contraindicated, as additional platelets are consumed by the disease process, potentially worsening the patient’s condition. IDIOPATHIC THROMBOCYTOPENIC PURPURA (IMMUNE THROMBOCYTOPENIA)

FIGURE 2.7-3. 

Schistocytes. These

permission from Dr. Peter McPhedran, Yale Department of Hematology.)

IgG antibodies (antiplatelet antibodies) are formed against the patient’s platelets. The platelet-antibody complex is destroyed by the spleen. Bone marrow production of platelets is ↑, with ↑ megakaryocytes in the marrow. It is the most common immunologic disorder in women of childbearing age.

This patient is experiencing HIT, which occurs 2° to the formation of antibodies that activate platelets. Because HIT can lead to a hypercoagulable state and subsequent thrombotic complications, heparin must be stopped immediately and the patient must be switched to argatroban, bivalirudin, or fondaparinux.

History/PE ■ Patients often feel well with no systemic symptoms. They may have minor mucocutaneous bleeding, easy bruising, petechiae, hematuria, or melena. Generally there is no splenomegaly. ■ Idiopathic thrombocytopenic purpura (ITP) is associated with a range of conditions, including lymphoma, leukemia, SLE, HIV infection, and HCV infection. Can present acutely or as a chronic illness. ■ Acute: Abrupt onset of hemorrhagic complications following a viral illness with sudden, self-limiting purpura. Commonly affects children 2–6 years of age, with boys and girls affected equally. ■ Chronic: Insidious onset of symptoms or incidental thrombocytopenia on CBC. There is a fluctuating course of bleeding, purpura, epistaxis, and menorrhagia. Affects adults 20–40 years of age and women more than men.

fragmented RBCs (arrows) can be seen in microangiopathic hemolytic anemia and in mechanical hemolysis. (Reproduced with

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HEMATOLOGY/ONCOLOGY Diagnosis ■ Diagnosis of exclusion. Once other causes of thrombocytopenia have been ruled out, diagnose by history and PE, a CBC, and a peripheral blood smear showing normal RBC morphology. ■ Antiplatelet antibody often present. ■ Bone marrow biopsy would show ↑ megakaryocytes but is done only in atypical cases or patients > 60 years of age. ■ Additional tests for all patients with ITP: Helicobacter pylori testing, hepatitis C testing, direct antiglobulin test, blood type. Treatment ■ Platelet count > 30,000 and no bleeding: No treatment required. ■ Platelet count < 30,000 or clinically significant bleeding symptoms: Corticosteroids or IVIG. ■ If platelet count fails to improve or bleeding recurs, consider splenectomy ± rituximab ± thrombopoietin (TPO) receptor agonist to ↑ platelet production (romiplostim or eltrombopag). ■ Platelet transfusions are not used (except during splenectomy or lifethreatening hemorrhage) as the platelets are quickly destroyed by auto­ antibodies. ■ If caused by HCV or HIV, treatment of underlying infection can improve platelet count. ■ In pregnant patients, severe thrombocytopenia may occur in the fetus.

Red Blood Cell Disorders ANEMIAS

A disorder of low hematocrit and hemoglobin. Subtypes are classified according to RBC mean corpuscular volume (MCV) and reticulocyte count (see Figure 2.7-4). Iron Deficiency Anemia

Anemia in which iron loss exceeds intake. May occur as a result of ↑ demand (growth phase, pregnancy, erythropoietin [EPO] therapy) or ↓ iron (chronic menorrhagia, GI bleeding, malnutrition/absorption disorders like celiac). Toddlers, adolescent girls, and women of childbearing age are most commonly affected.

HIGH-YIELD FACTS IN

187

MNEMONIC Differential diagnosis of thrombocytopenia—

HIT CHINS HIT or HUS ITP TTP or Treatment (medications) Chemotherapy Hereditary (eg, Wiskott-Aldrich syndrome) Infections (HIV, HCV) Neoplasm Splenomegaly

KEY FACT Anti-D (Rh) immunoglobulin and rituximab are second-line therapies for ITP. Anti-D (Rh) immunoglobulin and IVIG act as “decoys” so that WBCs will recognize them instead of IgG on platelets.

KEY FACT Steroid-sparing therapies are generally agents used as alternatives to steroids and are not necessarily used only for ITP.

KEY FACT Microcytic anemias, or microcytosis, have a low MCV (< 80 fL) and generally have a low reticulocyte count.

History/PE ■ Symptoms: Fatigue, dyspnea, tachycardia, angina, syncope, and pica. ■ If the anemia develops slowly, patients are generally asymptomatic. ■ Physical findings: Glossitis, conjunctival pallor, cheilosis, and koilonychia (“spoon nails,” see Figure 2.7-5). Diagnosis ■ Best initial test: CBC (↓ MCV, ↓ MCH, ↓ MCHC) with iron studies (see Table 2.7-3). No single value is diagnostic, but the constellation of the following points to the correct diagnosis: ■ ↓ Ferritin (↓ iron stores). ■ ↑ RBC distribution width (RDW), reflecting high RBC size variation caused by poor erythropoiesis.

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An 8-year-old girl presents to the ED with 2 days of fever, vomiting, bloody diarrhea, and irritability. She began feeling unwell after attending a classmate’s birthday party. Her labs reveal thrombocytopenia, an ↑ creatinine level, and schistocytes. What is the next best step?

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HIGH-YIELD FACTS IN

HEMATOLOGY/ONCOLOGY

KEY FACT Iron deficiency anemia in an elderly patient may be caused by colorectal cancer until proven otherwise and must therefore be evaluated to rule out malignancy.

MNEMONIC Causes of microcytic anemia—

Anemias

Macrocytic (MCV > 100 fL)

Normocytic (MCV 80–100 fL)

Microcytic (MCV < 80 fL)

Megaloblastic

Hemoglobin defects Defective heme synthesis •Iron deficiency (late) •Lead poisoning •Sideroblastic anemia •Anemia of chronic disease Defective globin chain •Thalassemias

Nuclear defects Defective DNA synthesis •Folate deficiency •Vitamin B12 deficiency •Orotic aciduria Defective DNA repair •Fanconi anemia

IRON LAST IRON deficiency Lead poisoning Anemia of chronic disease Sideroblastic anemia Thalassemia

F I G U R E 2 . 7 - 5 .   Koilonychia (spoon nails). The fingernail plate is concave. (Reproduced with permission from Wolff K, et al. Fitzpatrick’s Color Atlas and Synopsis of Clinical Dermatology. New York, NY: McGraw-Hill; 2013.)

Nonhemolytic (reticulocyte count ≤ 2%) •Iron deficiency (early) •Anemia of chronic disease •Aplastic anemia •Chronic kidney disease

Nonmegaloblastic

•Diamond-Blackfan anemia •Liver disease •Alcoholism

Hemolytic (reticulocyte count > 2%

Extrinsic

Intrinsic Membrane defects •Hereditary spherocytosis •Paroxysmal nocturnal hemoglobinuria Enzyme deficiencies •G6PD deficiency •Pyruvate kinase deficiency Hemoglobinopathies •Sickle cell anemia •HbC disease

•Autoimmune •Microangiopathic •Macroangiopathic •Infections

F I G U R E 2 . 7 - 4 .   Anemia algorithm. (Reproduced with permission from Le T, et al. First Aid for the USMLE Step1 2018. New York, NY: McGraw-Hill; 2018.)

↑ Total iron-binding capacity (TIBC); ↓ iron means many empty receptors, so binding capacity is ↑. ■ ↓ Serum iron. ■ Most accurate test: Bone marrow biopsy is seldom performed. ■ Peripheral blood smear shows microcytic, hypochromic RBCs (see Figure 2.7-6) with anisocytosis, poikilocytosis, and a low reticulocyte count. ■

F I G U R E 2 . 7 - 6 .   Iron deficiency anemia. Note the microcytic, hypochromic

RBCs (“doughnut cells”) with enlarged areas of central pallor (arrow). (Reproduced

TA B L E 2.7 - 3. 

Iron Deficiency Anemia vs Anemia of Chronic Disease

with permission from Dr. Peter McPhedran, Yale Department of Hematology.)

HUS is the most common cause of acute renal failure in children. Supportive therapy includes IV fluids, BP control, blood transfusion, and, if necessary, dialysis. Antibiotics are not indicated, as they are thought to ↓expulsion of the toxin and may ↑toxin from the destruction of bacteria.

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Iron Deficiency

Chronic Disease

Both/Mixed Disease

Serum iron

TIBC or transferrin

Normal/↑

Ferritin

Normal/↓

Serum transferrin receptor

Normal

Normal/↑

RDW

Normal

Normal/↑

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HEMATOLOGY/ONCOLOGY Treatment ■ Replace iron orally until normal and for at least 4–6 months to replenish stores. Oral iron sulfate may lead to nausea, constipation, diarrhea, abdominal pain, and black stools. Antacids may interfere with iron absorption. ■ If the oral route is insufficient, use intramuscular iron. ■ IV iron circumvents gastrointestinal absorption and is therefore only considered as a preferred agent if the oral route is ineffective, such as with gluten sensitivity, inflammatory bowel disease, gastrointestinal malabsorption, post–gastric bypass surgery, hyperemesis gravidarum, and a history of oral iron intolerance. ■ IV iron is superior to oral iron in achieving a sustained Hb response, reducing the need for packed RBC transfusions, and improving the quality of life for patients with chronic heart failure, inflammatory bowel disease, chronic kidney disease and hemodialysis, and cancer-related anemia. ■ IV iron dextran is associated with a small risk for serious side effects, including anaphylaxis. Iron sucrose may be associated with a lower risk for allergy. Anemia of Chronic Inflammation/Disease

To limit bacterial proliferation, the body “hides” or “locks” its iron in situations of chronic inflammation such as infection, malignancy, RA, or SLE. Iron is trapped in macrophages or in ferritin (↑ in inflammation). This results in a micro- or normocytic anemia with normal or ↑ levels of iron storage in the form of ferritin, but ↓ serum iron and ↓ TIBC (see Table 2.7-3). Treatment consists of treating the underlying disease. Anemia associated with endstage renal disease (ESRD) responds to erythropoietin replacement.

HIGH-YIELD FACTS IN

A

189

B

F I G U R E 2 . 7 - 7 .   Pathogenic RBC forms. (A) Basophilic stippling.

(B)Ringed sideroblasts. (Image A reproduced courtesy of van Dijk HA, Fred HL. Images of memorable cases: case 81. OpenStax website. June 18, 2018. Available at https://cnx.org/ contents/[emailprotected]:MZa_Ph4e@4/Images-ofMemorable-Cases-Case. Image B reproduced with permission of Paulo Henrique Orlandi Mourao.)

KEY FACT Anemia secondary to end-stage renal disease is caused by deficiency of erythropoietin. Treatment with recombinant EPO is effective, but often leads to worsening of hypertension.

Sideroblastic Anemia

A microcytic anemia caused by defects in heme metabolism that can be hereditary or acquired. The most common cause is alcohol (suppresses bone marrow). Less common causes include lead poisoning, chloramphenicol, isoniazid (INH), vitamin B6 deficiency, and malignancy. Hx/PE: Presents with ↓ hemoglobin, ↑ serum iron, and basophilic stippling (in lead poisoning). ■ Dx: Prussian blue staining for ringed sideroblasts on a smear is diagnostic (see Figure 2.7-7). ■ Tx: Treat the underlying cause. Treat acquired causes with vitamin B6 or pyridoxine replacement. ■

Megaloblastic Anemia

Impaired DNA synthesis secondary to vitamin B12 (cobalamin) or folate deficiency leads to megaloblastic anemia. Vitamin B12 deficiency is caused by intestinal malabsorption, traditionally from pernicious anemia (autoimmune destruction of parietal cells, which produce the intrinsic factor needed for cobalamin absorption), gastrectomy, pancreatic insufficiency, Crohn disease, celiac disease, topical sprue, tapeworms, or low dietary intake (eg, vegetarian or vegan diet). Folate deficiency results from alcoholism, low dietary folate, malabsorption, psoriasis, sulfa drugs, and phenytoin. Drugs that interfere with DNA synthesis, including chemotherapeutic agents (methotrexate, 6-mercaptopurine), may lead to megaloblastic anemia. History/PE ■ Presents with fatigue, pallor, glossitis, cheilosis, diarrhea, loss of appetite, and headache.

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KEY FACT Sideroblastic anemia is the only form of microcytic anemia in which the serum iron level is elevated.

KEY FACT Subacute combined degeneration of the cord seen in B12 deficiency presents as peripheral neuropathy, vibration and proprioception dysfunction, dementia, and spasticity.

A 49-year-old man comes into the clinic complaining of “tiredness” over the last several months. His past medical history is significant for hypertension, diabetes mellitus, and alcohol abuse. A CBC reveals a low hemoglobin and an MCV of 115. What is the most likely cause of his anemia?

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HEMATOLOGY/ONCOLOGY

B12 deficiency affects the nervous system. Neurologic and neuropsychiatric signs and symptoms can be present (eg, irritability, depression, psychosis, dementia, paraesthesia, and peripheral neuropathy). ■ Patients may develop a demyelinating disorder and present with subacute combined degeneration of the cord. There is a combination of symmetrical posterior (dorsal) column loss, causing sensory and lower motor neuron (LMN) signs, and symmetrical corticospinal tract loss, causing motor and upper motor neuron (UMN) signs. ■

F I G U R E 2 . 7 - 8 .   Hypersegmentation. The nucleus of this hyperseg-

mented neutrophil has six lobes (six or more nuclear lobes are required). This is a characteristic finding of megaloblastic anemia. (Reproduced with permission from

Dr.EdUthman.)

KEY FACT B12 deficiency can be caused by infection by a tapeworm, Diphyllobothrium latum. Folate deficiency can occur secondary to chronic phenytoin use, causing malabsorption.

KEY FACT Although many factors ↑ MCV (macrocytic anemia), only megaloblastic anemia is associated with hypersegmented neutrophils (ie, alcohol can cause macrocytic anemia but is not associated with hypersegmented neutrophils).

KEY FACT Pernicious anemia increases the risk for gastric cancer and is the most common cause of B12 deficiency in Europeans.

The patient has a megaloblastic anemia caused by either a B12 or folate deficiency. His history of alcohol dependence strongly suggests folate deficiency, as that is the most common cause of megaloblastic anemia in alcoholics.

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Diagnosis ■ Best initial test: CBC with smear showing RBCs with an elevated MCV and hypersegmented (six or more lobes) neutrophils (see Figure 2.7-8). B12 and folate deficiency are identical hematologically and on blood smear. ■ ↓ Hb, ↑ MCV, ↓ B12 and folate levels, ↓ reticulocyte count, pancytopenia if severe, ↑ LDH, ↑ indirect bilirubin levels. ■ Serum vitamin levels should be measured and adjunctive tests, including methylmalonic acid (MMA) and homocysteine levels can be assessed if vitamin levels are nondiagnostic and clinical suspicion persists: ■ B12 deficiency: ↑ MMA and ↑ homocysteine. ■ Folate deficiency: Normal MMA and ↑ homocysteine. ■ Bone marrow sample reveals giant neutrophils and hypersegmented mature neutrophils. ■ Anti-intrinsic factor and antiparietal cell antibodies in pernicious anemia. ■ Schilling test measures the absorption of cobalamin via ingestion of radiolabeled cobalamin with and without intrinsic factor. This test is rarely performed, but its interpretation is tested. The patient is given an unlabeled B12 IM shot to saturate B12 receptors in the liver and an oral challenge of radiolabeled B12. The radiolabeled B12 will pass into the urine if properly absorbed, as the liver’s B12 receptors will be saturated from the IM dose. ■ Radiolabeled B12 in urine: Dietary B12 deficiency. ■ No radiolabeled B12 in urine: Consider pernicious anemia, bacterial overgrowth, or pancreatic enzyme deficiency; test the hypothesis with the addition of intrinsic factor, antibiotics, or pancreatic enzymes to radiolabeled B12. Treatment Correct the underlying cause of the anemia. If B12 deficiency is caused by malabsorption, replenish stores with IM hydroxycobalamin. If the cause is dietary, give oral B12. Folate replacement corrects the hematologic problems of B12, but not the neurologic problems. Hemolytic Anemia

Occurs when bone marrow production is unable to compensate for ↑ destruction of circulating blood cells. Etiologies include the following: Glucose 6-phosphate dehydrogenase (G6PD) deficiency, paroxysmal nocturnal hemoglobinuria (PNH), spherocytosis (see Figure 2.7-9), sickle cell disease, and autoimmune anemia (discussed separately later). ■ Microangiopathic hemolytic anemia: TTP, HUS, DIC. ■ Mechanical hemolysis: Associated with mechanical heart valves. ■ Other: Malaria, hypersplenism. ■

History/PE ■ Present with pallor, fatigue, tachycardia, and tachypnea. ■ Patients are often jaundiced. Hepatosplenomegaly, pigmented gallstones (pigmented caused by ↑ indirect bilirubin), and leg ulcers (poor blood flow) may be noted.

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F I G U R E 2 . 7 - 9 .   Spherocytes. These RBCs (arrows) lack areas of central pallor. Spherocytes are seen in autoimmune hemolysis and in hereditary spherocytosis. (Reproduced with permission from Bun HF, Aster JC. Pathophysiology of Blood Disorders. New York, NY: McGraw Hill; 2011.)

Diagnosis ■ Lab tests: FBC, reticulocytes, electrolytes, liver function test (LFT), haptoglobin, urinary urobilinogen. ■ ↓ Hematocrit, ↑ LDH, ↑ indirect bilirubin, ↑ reticulocyte count, ↓ haptoglobin, are commonly seen. Folate deficiency (folate is used from increased cell production) and hyperkalemia (↑ cell breakdown) may be seen. Urine is dark with hemoglobinuria, and there is ↑ excretion of urinary and fecal urobilinogen. A slight ↑ MCV (macrocytosis) caused by large reticulocytes. ■ Blood films: Hypochromic microcytic anemia (thalassemia), sickle cells (sickle-cell anemia), schistocytes (microangiopathic hemolytic anemia), abnormal cells (hematologic malignancy), spherocytes (hereditary spherocytosis or autoimmune hemolytic anemia), Heinz bodies/bite cells (G6PD deficiency). ■ Direct antiglobulin (Coombs) test can be used to identify autoimmune hemolytic anemia.

MNEMONIC Causes of hemolytic anemia—

MOM PASS me the GLUCOSE Microangiopathic hemolytic anemia (TTP, HUS, DIC) Other: malaria, hypersplenism Mechanical hemolysis Paroxysmal nocturnal hemoglobinuria Autoimmune anemia Sickle cell disease Spherocytosis me the GLUCOSE 6-phosphate dehydrogenase deficiency

Treatment Varies with the cause of hemolytic anemia (see later), but often includes corticosteroids to address immunologic causes and iron supplementation to replace losses. Splenectomy or transfusions are helpful in severe cases. G6PD Deficiency

An X-linked recessive defect in G6PD causing the inability to generate glutathione reductase, leaving RBCs susceptible to hemolytic anemia following oxidant stress. Hx/PE: Patients are often Mediterranean or African men presenting with sudden anemia, episodic dark urine, and jaundice who have a normalsized spleen with an infection or use drugs that induce oxidative damage to RBCs. Common triggers include: infections (most common), fava beans, isoniazid, nitrofurantoin, dapsone, sulfa-drugs (TMP-SMX), and antimalarials (quinines). ■ Dx: ■ Best initial test: CBC with smear showing hemolytic anemia with bite cells and Heinz bodies. ■ Most accurate test: G6PD level 1 to 2 months after an episode (often normal during acute episode since G6PD-deficient RBCs are hemolyzed first). ■

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KEY FACT A classic presentation of G6PD deficiency is a black male patient presenting with fatigue, dark urine, and SOB after taking TMP-SMX for a cold.

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MNEMONIC Causes of oxidative stress in G6PD deficiency—

Sell FAVA BEANS in INDIA Sulfa-drugs FAVA Beans Infections (most common cause) Nitrofuratoin Dapsone Isoniazid Antimalarials (quinines)

HEMATOLOGY/ONCOLOGY

Tx: There is no reversal to the hemolysis. Avoiding triggers is the main stay of treatment.

Paroxysmal Nocturnal Hemoglobinuria

CD55/CD59 proteins (also known as decay accelerating factor) found on the surface of RBCs protect them from complement-mediated hemolysis. Paroxysmal nocturnal hemoglobinuria (PNH) is a deficiency in glycosylphosphatidylinositol-anchor molecules that inhibit CD55/CD59 attachment or binding to RBCs, resulting in complement-mediated hemolysis and thrombosis. Hx/PE: PNH can manifest as iron deficiency anemia, episodic dark urine, venous thrombosis (most commonly mesenteric and hepatic vein thrombosis), pancytopenia, and abdominal pain. ■ Dx: Most accurate diagnostic test is CD55/CD59 absence via flow cytometry. ■ Tx: Prednisone is the best initial therapy. Allogeneic bone marrow transplant is curative. Eculizumab, a complement inhibitor, can be used for hemolysis and thrombosis. ■

Hereditary Spherocytosis

Autosomal dominant defect or deficiency in spectrin or ankyrin, an RBC membrane protein resulting in a loss of RBC membrane surface area and characteristic biconcave disc. RBCs are forced to take spherical shapes and are trapped and destroyed by the spleen. Hx/PE: Clinically presents as an extravascular hemolytic anemia with splenomegaly and jaundice. Acute cholecystitis from pigmented gallstones is a common complication. ■ Dx: ■ Best initial test: CBC with a ↓ MCV, ↑ MCHC, and ⊖ Coombs test. A blood smear shows spherocytes (see Figure 2.7-9). ■ Most accurate test: Eosin-5 maleimide flow cytometry (replaced osmotic fragility test) and acidified glycerol lysis test. ■ Tx: Manage with a splenectomy (stops hemolysis) and chronic folic acid replacement (assists in RBC production). Patients with HS have a characteristically increased mean cell hemoglobin concentration and RBC distribution widths. ■

KEY FACT Patients who had a splenectomy for any reason are at an increased lifelong risk for sepsis (for up to 30 years) from encapsulated bacteria and thus require pneumococcal, meningococcal, and Haemophilus vaccinations before the operation.

KEY FACT Sickling occurs with dehydration, deoxygenation, and at high altitude. If it happens in the vasa rectae (vessels supplying the inner medulla of the kidneys), sickle cell patients can have ↓ability to concentrate urine, presenting as polyuria or nocturia.

Sickle Cell Disease

An autosomal recessive disorder caused by a mutation of adult hemoglobin (the β-chain has Glu replaced by Val causing production of abnormal β globin chain) resulting in the production of HbS rather than HbA. HbA2 and HbF are still produced. It is common in patients of African descent. The homozygote (SS) has sickle-cell anemia (HbSS), and the heterozygote (HbAS) has sickle-cell trait, which causes no disability (uniquely protects from Plasmodium falciparum malaria). Signs and symptoms are caused by ↓ RBC survival and a tendency of sickled cells to aggregate and cause vaso-occlusion. History/PE ■ Classic presentation: African-American patient with sudden onset of severe chest pain, back pain, or thigh pain. May be accompanied by fever. ■ Acute chest syndrome: Pulmonary infiltrates involving complete lung segments causing pain, fever, wheeze, cough, and tachypnea. Chief causes of infiltrates are fat embolism from bone marrow or infection with Mycoplasma, Chlamydia, or viruses.

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Presentation: May first present with dactylitis in childhood (bilateral hand/foot swelling). Lifelong hemolysis results in anemia, jaundice, pigmented cholelithiasis, ↑ CO (murmur, eventual CHF), and delayed growth. ■ Chronic hemolysis is usually well-tolerated, except in acute painful vasoocclusive crisis (VOC; commonly caused by microvascular occlusion), which is caused by infection/fever, hypoxia, dehydration, and cold temperatures. ■ Painful VOC: Dactylitis (occurs < 3 years of age), mesenteric ischemia (mimics acute abdomen), CNS infarction (leads to stroke, cognitive defects, or seizures), priapism, and avascular necrosis of the femoral head. Leads to ischemic organ damage, especially splenic infarction (typically occurs < 2 years of age), which predisposes to infection from encapsulated organisms, particularly pneumococcal sepsis and acute chest syndrome (pneumonia and/or pulmonary infarction; see Figure 2.7-10). Also, susceptible to osteomyelitis. ■ Other complications: Splenic sequestration (sudden pooling of blood into the spleen resulting in hypovolemia) and aplastic crisis (2° to infection with viruses such as parvovirus B19). Both complications present with ↓ hematocrit but are distinguished clinically by ↓ reticulocytes in aplastic crisis (2° to bone marrow involvement) and normal to ↑ reticulocytes in splenic sequestration. ■ Sickle cell trait (HbAS) is relatively benign. Patients have normal Hb and RBC morphology. However, renal complications include hematuria (renal papillary necrosis), defect in the ability to concentrate urine (hyposthenuria), and ↑ risk for urinary tract infections.

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Diagnosis ■ Best initial test: CBC (↑ reticulocytes, ↑ indirect bilirubin) with peripheral smear showing sickle cells and Howell-Jolly bodies (see Figure 2.7-11A, B). ■ Most accurate test: Hemoglobin electrophoresis.

KEY FACT The most common cause of osteomyelitis in patients with sickle cell disease is Staphylococcus aureus; Salmonella is the second most common cause. Patients are also at ↑ risk for avascular necrosis of the femoral head.

MNEMONIC Causes/triggers of acute VOC in sickle cell disease—

HIDe in the COLD Hypoxia Infections/fever Dehydration COLD temperatures

F I G U R E 2 . 7 - 1 0 .   Acute chest syndrome. Frontal chest x-ray (CXR) of a 19-year-old woman with sickle cell disease and acute chest pain. Note the bilateral lower and midlung opacities and mild cardiomegaly. (Reproduced with permission from USMLE-Rx.com.)

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A

B

F I G U R E 2 . 7 - 1 1 .   Sickle cell disease. (A) Sickle-shaped RBCs (arrow) are almost always seen on blood smear, regardless of whether the patient is having a sickle cell crisis. (B) HowellJolly bodies, which suggest functional hyposplenia or asplenia. (Image A reproduced with permission from Dr. Peter McPhedran, Yale Department of Hematology. Image B reproduced with permission from Paulo Henrique Orlandi Mourao and Mikael Häggström.)

Treatment ■ Management of chronic disease: ■ Treat with hydroxyurea, which stimulates the production of fetal hemoglobin and helps prevent the recurrence of sickle cell crises. Hydroxyurea is teratogenic and may cause mild myelosuppression (important to monitor WBCs). ■ If hydroxyurea does not prove effective, chronic transfusion therapy, which carries the risk for iron overload, can be attempted. ■ Folic acid supplementation is often required to prevent macrocytic anemia caused by frequent RBC turnover. ■ Risk for septicemia in febrile patients or in leukocytosis. Give antibiotics (use ceftriaxone, levofloxacin, or moxifloxacin). ■ Prophylactic pneumococcal vaccination and antibiotics (penicillin in patients < 5 years of age) caused by autosplenectomy (↑ risk for infection from encapsulated bacteria). Treat recurrent cholelithiasis with cholecystectomy. ■ Management of sickle cell crises: ■ VOC must be treated with adequate analgesia (pain management), O2 therapy, IV fluid rehydration, and antibiotics (if infection is suspected to be the trigger). ■ If there is concern of a VOC progressing to acute chest syndrome, initiate aggressive hydration, antibiotics, and incentive spirometry. Keep the sickle variant < 40%. This can be done with simple transfusions or, if necessary, exchange transfusion in an ICU setting. Bronchodilators may be helpful. ■ No treatment is required for sickle cell trait (HbAS). Autoimmune Hemolytic Anemia

KEY FACT

Autoantibodies against RBC membrane destroy blood cells, causing extravascular hemolysis. Two types: ■ Warm: IgG, associated with SLE, chronic lymphocytic leukemia (CLL), lymphoma, penicillin, rifampin, phenytoin, and α-methyldopa. ■ Cold: IgM, associated with Mycoplasma pneumonia, Epstein-Barr virus, and Waldenström macroglobulinemia. ■ Hx/PE: Presents as a hemolytic anemia. ■

The indirect Coombs test detects antibodies to RBCs in the patient’s serum. The direct Coombs test detects sensitized erythrocytes.

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Antihuman antibodies (Coombs’ reagent) are added.

A

Patient’s RBCs are washed to remove any unbound antibodies.

Donor RBCs are added to patient’s antibodies. Patient’s serum containing antibodies is obtained.

B FIGURE 2.7-12. 

Positive test result when RBCs agglutinate, demonstrating the presence of bound antibodies to RBC antigens.

Antihuman antibodies (Coombs’ reagent) are added.

Donor’s RBCs are bound by patient’s antibodies if RBC antigens are present.

Positive test result when RBCs agglutinate, demonstrating the presence of antibodies bound to RBC antigens.

(A) Direct and (B) indirect Coombs tests.

Dx: Direct Coombs test (see Figure 2.7-12). Autoimmune hemolytic anemia (AIHA) is also associated with spherocytes. Cold agglutinin is the most effective test in cold AIHA. ■ Tx: If AIHA is mild, no treatment is necessary. Warm AIHA is treated with steroids; recurrent episodes respond to splenectomy. Severe, nonresponsive hemolysis is controlled with IVIG. Severe cold AIHA is managed by avoiding exposure to cold (keep patient warm) ± rituximab (anti-CD20 antibody). ■

KEY FACT Both AIHA and hereditary spherocytosis can present with spherocytes and positive osmotic fragility tests, but only AIHA will have a ⊕ direct Coombs test.

Aplastic Anemia

Failure of blood cell production (pancytopenia) caused by destruction of bone marrow cells. It may be hereditary, as in Fanconi anemia (genetic analysis will show chromosomal breaks); may have an autoimmune or viral etiology (HIV, parvovirus B19, EBV, CMV, hepatitis); or may result from exposure to toxins (cleaning solvents, insecticides, benzene), radiation, or drugs (sulfa, chloramphenicol, propylthiouracil, carbamazepine, alcohol, methimazole, chemotherapy). History/PE Patients are pancytopenic, with symptoms resulting from a lack of RBCs, WBCs, and platelets: pallor, fatigue, weakness, a tendency to infection, petechiae, bruising, and bleeding. Diagnosis ■ Diagnosed by clinical presentation and CBC. ■ Most accurate test: Bone marrow biopsy revealing hypocellularity and space occupied by fat.

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KEY FACT Patients with Fanconi anemia can be identified on physical exam by caféau-lait spots, short stature, and radial/ thumb hypoplasia/aplasia.

KEY FACT Diamond-Blackfan syndrome presents with pure red cell aplasia and congenital anomalies, such as triphalangeal thumbs and cleft lip.

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HEMATOLOGY/ONCOLOGY Treatment ■ Supportive therapy: Blood transfusion for anemia, antibiotics for infection, platelets for bleeding. ■ Consider allogenic bone marrow transplantation (BMT) in young patients with a matched donor. In severe cases, in patients without a stem cell donor, or patients too old for BMT (> 50 years of age), immunosuppress with cyclosporine, antithymocyte globulin (ATG), and eltrombopag to prevent autoimmune marrow destruction. Tacrolimus is an alternative to cyclosporine. Treat infections aggressively. THALASSEMIAS

Hereditary disorders involving ↓ or absent production of normal globin chains of hemoglobin. α-thalassemia is caused by a gene deletion of one or more of the four genes that encode α-hemoglobin. β-thalassemia results from a point mutation of one or both of the two genes encoding β-hemoglobin. History/PE Thalassemia is most common among people of African, Middle Eastern, and Asian descent. Disease presentation varies with the number of genes missing (see Table 2.7-4). A typical case can be an asymptomatic or fatigued individual with a microcytic anemia and normal iron studies. Diagnosis Most accurate test is hemoglobin electrophoresis (normal in α trait, α silent carrier). For α-thalassemia, genetic studies are the most accurate tests. All

TA B L E 2.7 - 4. 

Differential Diagnosis of Thalassemias

Subtype

Number of Genes Present

β-thalassemia major

0/2 β

(Cooley anemia)

Clinical Features Patients develop severe microcytic anemia and failure to thrive in the first year of life and need chronic transfusions lifelong or marrow transplant to survive. Extramedullary hemopoiesis occurs in response to anemia (ie, skull bossing, hepatosplenomegaly)

β-thalassemia minor

1/2 β

Patients are asymptomatic with mild-moderate, well-tolerated anemia, but their cells are microcytic and hypochromic on peripheral smear Often confused with iron deficiency anemia Common in the Mediterranean region

Hydrops fetalis (Bart’s

0/4 α

Patients die in utero

1/4 α

Patients have severe hypochromic, microcytic anemia with chronic hemolysis, splenomegaly,

hydrops) Hemoglobin H disease

jaundice, and cholelithiasis The reticulocyte count ↑ to compensate, and one-third of patients have skeletal changes caused by expanded erythropoiesis α-thalassemia trait

2/4 α

Patients have low MCV but are usually asymptomatic

Silent carrier

3/4 α

Patients have no signs or symptoms of disease. Normal clinical state

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HEMATOLOGY/ONCOLOGY forms of thalassemia have a normal RDW. Only 3-gene deletion α-thalassemia is associated with hemoglobin H and ↑ reticulocyte count. Treatment ■ Most patients do not require treatment (trait is not treated). ■ Those with β-thalassemia major and hemoglobin H disease are often transfusion dependent (chronic, lifelong transfusion) and require oral iron chelators (deferasirox or deferiprone) or a parenteral iron chelator (deferoxamine) to prevent overload.

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KEY FACT Mentzer index: MCV divided by RBC count (MCV/RBC). Can help distinguish between thalassemia and iron deficiency anemia. Mentzer index 13 suggests iron deficiency anemia.

POLYCYTHEMIAS

Erythrocytosis (an abnormal elevation of hematocrit) may be either absolute (↑ RBC production) or relative (↓ plasma volume and hemoconcentration). Absolute polycythemia causes are primary (polycythemia rubra vera) or secondary (caused by hypoxia) or inappropriately ↑ erythropoietin secretion (EPO-producing tumors). History/PE ■ Characterized by ↑ hematocrit, ↓ tissue blood flow and oxygenation, and ↑ cardiac work. ■ Absolute erythrocytosis is associated with hypoxia (lung disease, heavy smoking, high altitudes, obstructive sleep apnea, cyanotic congenital heart disease, or poor intrauterine environment); neoplasia (renal carcinoma, hepatocellular carcinoma); or polycythemia vera (PCV). ■ PCV: Results from clonal proliferation of a pluripotent marrow stem cell caused by a mutation in the JAK2 protein, which regulates marrow production. There is excess proliferation of RBCs, WBCs, and platelets →hyperviscosity and thrombosis, but RBCs are most significantly affected and proliferate at an exceedingly high rate despite a low erythropoietin. ■ Presentation: Hyperviscosity syndrome. Easy bleeding/bruising from engorged blood vessels, fatigue, hypertension, thrombosis (arterial and venous), visual disturbance, neurologic deficits, headaches, dizziness, tinnitus, pruritus after a warm bath, CHF, facial plethora, splenomegaly. ■ Commonly affects older individuals (> 60 years of age). ■ Can convert to acute myeloid leukemia in a small proportion of patients. ■ Relative erythrocytosis is associated with hypovolemia and dehydration: diuresis, gastroenteritis, alcohol, burns. Diagnosis ■ PCV: Best initial test is a CBC showing elevated RBCs/WBCs/platelets (↑ reticulocyte, ↑ Hb, ↑ Hct, ↑ PCV) with an ABG and EPO level. ↓ EPO, normal O2, and Hct > 60% (key finding) suggest PCV. Most accurate test is the JAK2 mutation (present in 95% of patients). ■ Relative erythrocytosis also has an ↑ HCT, splenomegaly, but EPO is normal or increased, and O2 is often low compared to PCV. Treatment ■ PCV: Target is hematocrit < 45%. Phlebotomy and aspirin provide symptom relief and prevent thrombosis. Hydroxyurea reduces cell counts. Allopurinol or rasburicase prevents ↑ in uric acid. Hydroxyurea-resistant disease is treated with ruxolitinib (inhibitor of JAK2). ■ Relative erythrocytosis: Address the underlying cause and treat symptoms with phlebotomy.

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KEY FACT Premedication with acetaminophen and diphenhydramine is sometimes used to prevent minor transfusion reactions.

KEY FACT Hemoglobinuria in hemolytic transfusion reaction may lead to acute tubular necrosis and subsequent renal failure.

KEY FACT Heme is necessary for the production of hemoglobin, myoglobin, and cytochrome molecules.

KEY FACT PCV has low erythropoietin and normal O2 levels. Relative erythrocytosis has normal or increased erythropoietin with low O2 levels.

A 30-year-old man from Greece comes to your office complaining of chronic fatigue. He has no significant past medical history and is on no medications. A CBC shows hemoglobin of 10.4 and MCV of 71. You start him on oral iron supplements and see him back in 4 weeks with no change in the CBC. What is the most likely diagnosis?

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TA B L E 2.7 - 5. 

Variable Mechanism

HEMATOLOGY/ONCOLOGY

Transfusion Reactions

Allergic Reaction Antibody formation

Anaphylactic Reaction Severe allergic reac-

against donor plasma

tion in IgA-deficient

proteins, usually after

individuals who must

receiving plasma-

receive blood prod-

containing product

ucts without IgA

Febrile Nonhemolytic Reaction Cytokine formation during storage of blood Host antibodi es against the donor HLA antigens and WBCs Type II hypersensitivity

Type I hypersensitivity

reaction

reaction

Hemolytic Transfusion Reaction Preformed (acute) or formed (delayed) recipient antibodies against donor erythrocytes Intravascular hemolysis (ABO blood group incompatibility) or extravascular hemolysis (host antibody reaction against donor foreign antigen on donor RBCs) Type II hypersensitivity reaction

Presentation

Prominent urticaria, pruritus, wheezing, fever

Dyspnea, broncho-

Fever, headache, chills,

Fever, hypotension, chills, nausea,

spasm, respiratory

flushing, rigors, and

flushing, burning at the IV site, tachy-

arrest, hypotension,

malaise 1–6 hours after

cardia, tachypnea, flank pain/renal

and shock

transfusion

failure, hemoglobinuria (intravascular hemolysis), jaundice (extravascular), during or shortly after the transfusion

Treatment

Give antihistamines If severe reaction, stop the transfusion and give epinephrine

Stop the transfusion and give epinephrine Treat anaphylactic shock as required

Stop the transfusion and give acetaminophen Leukoreduction of donor

Stop the transfusion immediately! Give vigorous IV fluids and maintain good urine output

blood

BLOOD TRANSFUSION REACTIONS

Transfusions are generally safe but may result in adverse reactions (see Table 2.7-5). Febrile nonhemolytic and allergic reactions are the most common, occurring in 3–4% of all transfusions.

White Blood Cell Disorders LEUKEMIAS

Malignant proliferations of hematopoietic cells, categorized by the type of cell involved and their level of differentiation. Acute Leukemias

The most likely diagnosis is β-thalassemia minor. Recognize that this patient has a microcytic anemia that did not respond to iron supplements (probably has normal iron studies) and is from the Mediterranean.

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Acute myelogenous and lymphocytic leukemias are clonal disorders of early hematopoietic stem cells (blasts) resulting in unregulated growth and differentiation of WBCs in bone marrow. As the bone marrow becomes replaced by leukemia cells, patients present with signs of pancytopenia: anemia (↓RBCs), infection (↓ mature WBCs), and hemorrhage (↓ platelets) result. History/PE ■ AML and acute lymphocytic leukemia (ALL) affect children and adults. ALL is the most common childhood malignancy.

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Rapid onset and progression. Patients present with signs and symptoms of anemia (pallor, fatigue), thrombocytopenia (petechiae, purpura, bleeding), infections (ineffective and immature WBCs), and DIC (most commonly seen in acute promyelocytic leukemia [APL]). Medullary expansion into the periosteum may lead to bone pain (common in ALL). ■ Exam may show hepatosplenomegaly and swollen/bleeding gums from leukemic infiltration and ↓ platelets. Leukemic cells also infiltrate the skin and CNS. ■

Diagnosis ■ Best initial test: CBC with smear showing blast cells. ■ Most accurate test: Bone marrow biopsy with flow cytometry to classify leukemia type. ■ Marrow that is infiltrated with blast cells is consistent with leukemia. In AML, the leukemic cells are myeloblasts; in ALL they are lymphoblasts. These cells can be distinguished by morphology (see Figure 2.7-14), cytogenetics, and immunophenotyping (see Table 2.7-6). ■ WBC count can be elevated, but the cells are dysfunctional, and patients may be neutropenic with a history of frequent infection. If the WBC count is very high (> 150,000/mm3 in AML, > 400,000/mm3 in ALL), there is a risk for leukostasis (blasts occluding the microcirculation, leading to pulmonary edema, CNS symptoms, ischemic injury, and DIC). Treatment ■ In general, ALL and AML are treated with chemotherapy. Patients with a leukemia subtype of unfavorable cytogenetics or lack of appropriate response to chemotherapy may be candidates for bone marrow transplantation. ■ All-trans-retinoic acid (ATRA) is highly effective in APL. ■ To prevent tumor lysis syndrome (hyperuricemia, hyperkalemia, hypocalcemia, renal insufficiency, as blasts are destroyed by chemotherapy), patients should be well hydrated. If WBC counts are ↑, they may also be started on allopurinol or rasburicase (often used in the pediatric population) to decrease serum uric acid as renal protection. Rasburicase is contraindicated in G6PD deficiency. TABLE 2.7-6.  Myeloblasts vs Lymphoblasts Variable

Myeloblast

Lymphoblast

Size

Larger (2–4 times RBC)

Smaller (1.5–3.0 times RBC)

Amount of cytoplasm

More

Less

Nucleoli

Conspicuous

Inconspicuous

Granules

Common, fine

Uncommon, coarse

Auer rods

Present in 50% of cases

Absent

(see Figure 2.7-13) Myeloperoxidase

Terminal

deoxynucleotidyltransferase (TdT)

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KEY FACT A characteristic sign for AML subtype M3 (APL) is the Auer rod (see Figure 2.7-13), although Auer rods can be seen in other AML subtypes.

FIGURE 2.7-13. 

Auer rod in AML.

The red rod-shaped structure (arrow) in the cytoplasm of the myeloblast is pathognomonic. (Reproduced with permis-

sion from Dr. Peter McPhedran, Yale Department of Hematology.)

1 A 35-year-old man is airlifted to the ED after a motor vehicle accident. He requires multiple transfusions, which stabilize his BP and hemoglobin. The following morning, he is transferred to his hospital room, where he begins to complain of numbness in his fingers. A prolonged QT interval is noted on an ECG. What is the most likely diagnosis?

2 A 40-year-old woman sees a physician for a 6-month history of weight loss, fevers, and abdominal discomfort. Her WBC count is 56,000/mm3. The physician orders a leukocyte alkaline phosphatase (LAP) to distinguish between a leukemoid reaction and a hematologic malignancy. What is the expected result in a leukemoid reaction?

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HEMATOLOGY/ONCOLOGY

A

B

F I G U R E 2 . 7 - 1 4 .   AML and ALL on peripheral smear. (A) AML. Large, uniform myeloblasts with round or kidney-shaped nuclei and prominent nucleoli are characteristic. (B) ALL. Peripheral blood smear reveals numerous large, uniform lymphoblasts, which are large cells with a high nuclear-to-cytoplasmic ratio. Some lymphoblasts have visible clefts in their nuclei. (Reproduced with permission from Dr. Peter McPhedran, Yale Department of Hematology.)

Leukostasis syndrome may be treated with hydroxyurea ± leukapheresis to ↓ WBC count. ■ Indicators of poor prognosis: ■ ALL: Age < 1 or > 10 years; an ↑ in WBC count to > 50,000/mm3; presence of the Philadelphia chromosome t(9,22) (associated with B-cell cancer); CNS involvement at diagnosis. ■ AML: Age > 60 years; elevated LDH; poor-risk or complex karyotype. ■

Chronic Lymphocytic Leukemia

KEY FACT Look for smudge cells to point toward CLL. Smudge cells result from the coverslip crushing the fragile leukemia cells.

1 This patient presents with symptoms of hypocalcemia following multiple blood transfusions. Blood products often contain citrate, which binds to serum calcium, leading to hypocalcemia, which can cause prolonged QT intervals.

2 LAP would be ↑. Hematologic malignancies, in contrast, have ↓ LAP values.

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A malignant, clonal proliferation of functionally incompetent lymphocytes that accumulate in the bone marrow, peripheral blood, lymph nodes, spleen, and liver. Almost all cases involve well-differentiated B lymphocytes. Primarily affects older adults (median age 65 years); the male-to-female ratio is 2:1. History/PE Often asymptomatic; patients present with fatigue, malaise, and infection. Common physical findings are lymphadenopathy, hepatomegaly, and splenomegaly. Diagnosis ■ Best initial test: CBC with differential and smear showing mature lymphocytosis (NK cells, T cells, or B cells > 5000/mm3) and characteristic smudge cells (fragile leukemia cells crushed by the slide). See Figure 2.7-15. ■ Most accurate test: Flow cytometry showing the CD5 marker on B cells (normally found on T cells). ■ Granulocytopenia, anemia, and thrombocytopenia are common as leukemic cells infiltrate bone marrow. Abnormal function by the leukemic cells leads to hypogammaglobulinemia. ■ Bone marrow biopsy is rarely required for diagnosis but may provide prognostic information. Treatment ■ Chemotherapy with fludarabine and chlorambucil. ■ Treatment, however, is palliative and is often withheld until patients are symptomatic: recurrent infection, severe lymphadenopathy or splenomegaly, anemia, or thrombocytopenia (poorest prognosis).

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Although CLL has a low likelihood of long-term cure, extended diseasefree intervals may be achieved with adequate treatment of symptoms. The clinical stage correlates with expected survival.

Chronic Myelogenous Leukemia

Clonal expansion of myeloid progenitor cells, leading to leukocytosis with excess granulocytes and basophils and sometimes ↑ erythrocytes and platelets as well. To truly be CML, the BCR-ABL translocation must be present. In > 95% of patients, this is reflected by the Philadelphia chromosome t(9,22). CML primarily affects middle-aged patients (median age 50 years). History/PE ■ Many patients are asymptomatic at diagnosis. Typical signs and symptoms are those of anemia. ■ Patients can have splenomegaly with LUQ pain and early satiety. Constitutional symptoms of weight loss, anorexia, fever, and chills may also be seen. ■ Patients with CML go through three disease phases: ■ Chronic: Without treatment, this phase typically lasts 3.5–5.0 years. Infection and bleeding complications are rare. ■ Accelerated: A transition toward blast crisis, with an ↑ in peripheral and bone marrow blood counts. Should be suspected when the differential shows an abrupt ↑ in basophils and thrombocytopenia (platelet count < 100,000/mm3). ■ Blast crisis: A large percentage of untreated CML patients will eventually reach this phase. Resembles acute leukemia; survival is 3–6 months.. Diagnosis ■ Most accurate test: Philadelphia chromosome via PCR or FISH analysis showing the t(9,22) translocation, although some cases lack the translocation. ■ CBC often shows a very high WBC count—often > 100,000/mm3 at diagnosis, sometimes reaching > 500,000/mm3. The differential shows granulocytes (predominantly neutrophils) in all stages of maturation. Rarely, the WBC count will be so elevated as to cause a hyperviscosity syndrome. ■ CML can be confused clinically with a leukemoid reaction (acute inflammatory response to infection with ↑ neutrophils and a left shift). LAP is low in CML and other hematologic malignancies, and LAP is high in leukemoid reactions. ■ LDH, uric acid, and B12 levels are also often elevated in CML. Treatment ■ Chronic: Treat with tyrosine kinase inhibitors (eg, imatinib). Young patients may be candidates for allogeneic stem cell transplantation if a matched sibling donor is available. ■ Blast crisis: Same as that for acute leukemia, or second-generation tyrosine kinase inhibitors (eg, dasatinib, nilotinib) plus hematopoietic stem cell transplantation or a clinical trial.

F I G U R E 2 . 7 - 1 5 .   CLL with characteristic smudge cells. The numerous

small, mature lymphocytes and smudge cells (arrows; fragile malignant lymphocytes are disrupted during blood smear preparation) are characteristic. (Reproduced with permission from Dr. Peter McPhedran, Yale Department of Hematology.)

KEY FACT Likely diagnosis based on age at presentation: ■ ALL: < 13 years (but can present in any age group). ■ AML: 13–40 years (but can present in any age group). ■ CML: 40–60 years. ■ CLL: > 60 years.

KEY FACT Lymphocytosis is a common lab finding of CLL (↑ NK, T, or B cells) vs CML, which shows granulocytosis (↑ granulocytes: neutrophils, eosinophils, or basophils).

KEY FACT Imatinib is a selective inhibitor of the BCR-ABL tyrosine kinase, the product of the t(9,22) translocation, or Philadelphia chromosome.

Hairy Cell Leukemia

A malignant disorder of well-differentiated B lymphocytes. HCL is a rare disease that accounts for 2% of adult leukemia cases and most commonly affects older men (median age 50–55 years). History/PE ■ Typically presents with pancytopenia, bone marrow infiltration, and splenomegaly.

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A 41-year-old man is diagnosed with acute myelogenous leukemia (AML). Fluorescence in situ hybridization (FISH) analysis reveals that he has acute promyelocytic leukemia (APL), FAB subtype M3. What is the preferred therapy for this subtype of AML?

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F I G U R E 2 . 7 - 1 6 .   Hairy cell leukemia. Note the hairlike cytoplasmic

projections from neoplastic lymphocytes. Villous lymphoma can also have this appearance. (Reproduced with permission from Dr. Peter McPhedran, Yale Department of Hematology.)

Patients complain of weakness, fatigue, petechiae, bruising, infection (especially with atypical mycobacteria such as Mycobacterium avium– intracellulare), abdominal pain, early satiety, and weight loss. Presentation is similar to those of CLL except that patients rarely have lymphadenopathy.

Diagnosis ■ Best initial test: CBC with smear showing pathognomonic “hairy cells” (mononuclear cells with many cytoplasmic projections; see Figure 2.7-16) that stain with tartrate-resistant acid phosphatase (TRAP). Leukopenia can sometimes be seen as well. ■ Most accurate test: Flow cytometry identifying the “hairy cells.” Treatment ■ Best initial treatment: Cladribine. ■ Alternative treatment options include pentostatin, splenectomy, and IFN-α. ■ Median survival without treatment is 5 years. If left untreated, most patients will develop progressive pancytopenia and splenomegaly, eventually requiring therapy. LYMPHOMAS

Malignant transformations of lymphoid cells residing primarily in lymphoid tissues, especially the lymph nodes. Classically organized into Hodgkin (HL) and non-Hodgkin (NHL) lymphoma (see Table 2.7-7). Non-Hodgkin Lymphoma

NHL represents a diverse group of mature B and T cell neoplasms. Most NHLs (almost 85%) are of B-cell origin. NHL is the most common hematopoietic neoplasm and is five times more common than HL. History/PE The median patient age is > 50 years of age, but NHL may also be found in children, who tend to have more aggressive, higher-grade disease. Patient presentation varies with disease (see Table 2.7-8), but often includes painless peripheral lymphadenopathy, “B” symptoms (fevers, night sweats, weight loss), and masses on exam.

TABLE 2.7-7.  Non-Hodgkin vs Hodgkin Lymphoma

Non-Hodgkin Lymphoma

APL has a favorable prognosis, because it is responsive to all-transretinoic acid (ATRA) therapy. This AML subtype is also associated with an ↑ incidence of DIC and a chromosomal translocation involving chromosomes 15 and 17.

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Hodgkin Lymphoma

Many peripheral nodes involved;

Single group of localized nodes, spreads contiguously

extranodal, noncontiguous spread

and rarely involves extranodal sites

Mainly B cells, sometimes T cells

Reed-Sternberg cells: distinct CD15+ and CD30+ B cells

Peak incidence 65–75 years of age

Bimodal: young and old

HIV and autoimmune association

EBV association

Adapted with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGrawHill; 2018.

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TABLE 2.7-8.  Non-Hodgkin Lymphoma Types

Type

Occurs in

Comments B-Cell Neoplasms

Follicular lymphoma

Adults (mean age 55 years)

Indolent course or low grade

Painless waxing and waning adenopathy

Localized disease (15%) may be cured with radiation therapy

Diffuse large B-cell

Usually middle-aged and elderly

lymphoma

Intermediate grade

Most common NHL in adults

Often presents with single rapidly growing mass

High cure rate with R-CHOP therapy

Burkitt lymphoma

Children and adolescents

High grade, “starry sky” appearance on lesion biopsy

Jaw lesion in Africa, abdominal lesion in Americas

Associated with EBV and t(8;14) translocation

Aggressive treatment with chemotherapy

Mantle cell lymphoma

Elderly men

CD5+

Rarest form of NHL

T-Cell Neoplasms Adult T-cell lymphoma

Adults

High grade, can progress to ALL

Presents with cutaneous lesions

Caused by HTLV, associated with IVDA

Mycosis fungoides/

Adults

Sézary syndrome

Mycosis fungoides is a T-cell lymphoma of the skin

Cutaneous eczema-like lesions and pruritus are common presentations

On skin biopsy see “cerebriform” lymphoid cells

Can progress to Sézary syndrome (T-cell leukemia) with characteristic Sézary

cells seen on blood smear Adapted with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill; 2018.

Diagnosis ■ Best initial test: Excisional lymph node biopsy. ■ Staging usually involves CT of the chest, abdomen, and pelvis, and bone marrow biopsy. Disease staged via Ann Arbor classification as follows: ■ Stage I, single site involved. ■ Stage II, two or more sites involved on same side of the diaphragm. ■ Stage III, multiple sites involved on both sides of the diaphragm. ■ Stage IV, diffuse disease. ■ “A” indicates no systemic symptoms; “B” indicates systemic symptoms. ■ A CSF exam should be done in patients with HIV, neurologic symptoms, or 1° CNS lymphoma. Treatment ■ Treatment is based on histopathologic classification rather than on stage and consists of radiation, chemotherapy, or both. ■ Low-grade indolent NHL treatment is generally palliative. ■ High-grade aggressive NHL treatment is aggressive chemotherapy with a curative approach. A common regimen is rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisone (R CHOP).

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KEY FACT The treatment of high-grade NHL may be complicated by tumor lysis syndrome, in which rapid cell death releases intracellular contents and leads to hyperkalemia, hyperphosphatemia, hyperuricemia, and hypocalcemia.

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Hodgkin Lymphoma

KEY FACT On physical exam, lymph nodes suspicious for malignancy are generally described as firm, fixed, nontender, circumscribed, rubbery, and > 1 cm in diameter. Benign nodes (usually from infection) are generally described as bilateral, < 1 cm, mobile, nontender (viral), or tender (bacterial).

KEY FACT Chemotherapy and radiation can lead to 2° neoplasms such as AML, NHL, breast cancer, and thyroid cancer. Preventive measures such as mammography are warranted.

KEY FACT Chemotherapy often induces nausea in cancer patients and should be managed with ondansetron, a serotonin 5-HT3 receptor antagonist.

A

A predominantly B-cell malignancy associated with EBV. HL has a bimodal age distribution: 30 years of age (primarily the nodular sclerosing type) and 60 years of age (mainly the lymphocyte-depleted type). It has a male predominance in childhood. History/PE ■ HL commonly presents above the diaphragm (classically as cervical adenopathy; see Figure 2.7-17A). Infradiaphragmatic involvement suggests disseminated disease. ■ Patients can have systemic B symptoms, pruritus, and hepatosplenomegaly. Pel-Ebstein fevers (1–2 weeks of high fever alternating with 1–2 afebrile weeks) and alcohol-induced pain at nodal sites are rare signs specific for HL. Diagnosis ■ Best initial step: Excisional lymph node biopsy showing the classic ReedSternberg cells (giant abnormal B cells with bilobar nuclei and huge, eosinophilic nucleoli, which create an “owl’s-eye” appearance; see Figure 2.7-17B). ■ Staging is based on the number of lymph node groups involved, the presence of B symptoms, and whether the disease involves lymph nodes on both sides of the diaphragm. Treatment ■ Treatment is stage-dependent, involving chemotherapy and/or radiation (in early stage disease). A common chemotherapy regimen is Adriamycin (doxorubicin), bleomycin, vinblastine, dacarbazine (ABVD). ■ Radiation increases the risk for premature coronary artery disease and solid tumors (eg, breast, lung, thyroid). ■ Five-year survival rates are 90% for stage I and II disease (nodal disease limited to one side of the diaphragm), 84% for stage III, and 65% for stageIV. Lymphocyte-predominant HL has the best prognosis.

B

F I G U R E 2 . 7 - 1 7 .   Hodgkin lymphoma. (A) CXR of a 27-year-old man presenting with several weeks of fevers and night sweats shows bulky bilateral hilar (arrows) and right paratracheal lymphadenopathy (arrowhead). (B) Lymph node sampling shows a mixed inflammatory infiltrate and a classic binucleate Reed-Sternberg cell (circle) consistent with Hodgkin lymphoma. (Reproduced with permission from USMLE-Rx.com.)

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MNEMONIC

Plasma Cell Disorders

Clinical features of multiple myeloma—

MULTIPLE MYELOMA

Clonal proliferation of malignant plasma cells with excessive production of monoclonal immunoglobulins (typically ineffective IgA or IgG) or immunoglobulin fragments (kappa/lambda light chains). Multiple myeloma (MM) primarily affects the elderly, peaking in the seventh decade. Risk factors include radiation and monoclonal gammopathy of undetermined significance (MGUS). History/PE ■ Patients present with bone pain or with a pathologic fracture (MM cells infiltrate bone marrow, where they activate osteoclasts, creating lytic lesions, weak bones, and hypercalcemia). ■ Patients are prone to infection (IgG and IgA produced by myeloma cells are monoclonal, thus making them ineffective) and have elevated monoclonal (M) proteins in serum and/or urine. Diagnosis ■ Best initial test: Serum protein electrophoresis showing IgG or IgA monoclonal spikes (see Figure 2.7-18). ■ Most accurate test: Bone marrow biopsy showing > 10% monoclonal CD138+ plasma cells. ■ CBC with smear may show rouleaux formation, whereas urine protein electrophoresis may show Bence-Jones protein (paraprotein). Total protein:albumin gap is often elevated. ■ M protein alone is insufficient for the diagnosis of MM, as MGUS, CLL, lymphoma, Waldenström macroglobulinemia, and amyloidosis can also ↑ M protein. ■ Patients should also be evaluated for anemia, hypercalcemia, and renal failure. Bone lesions are also seen with a skeletal survey (see Figure 2.7-19).

CRAB— hyperCalcemia Renal involvement Anemia Bone lytic lesions/Back pain

KEY FACT MGUS is also a monoclonal expansion of plasma cells that is asymptomatic and may eventually lead to multiple myeloma (1–2% per year). No “CRAB” findings.

M spike

Albumin

α1 α2 β

FIGURE 2.7-18. 

γ

Multiple myeloma.

Serum protein electrophoretic tracing showing M protein spike IgG/A (diagnostic of MM). Note that M protein spike IgM indicates Waldenström macroglobulinemia. (Reproduced with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill; 2018.)

KEY FACT MM damaging renal tubules can produce an adult Fanconi syndrome.

KEY FACT As MM is an osteoclastic process, a bone scan, which detects osteoblastic activity, may be ⊝.

A

B

F I G U R E 2 . 7 - 1 9 .   Multiple myeloma skeletal survey. Characteristic lytic bony lesions of multiple myeloma involving the tibia and fibula (A) and the skull (B) are seen. (Image A reproduced with permission from Lichtman MA et al. Williams Hematology, 8th ed. New York, NY: McGraw-Hill; 2010. Image B reproduced with permission from Kantarjian HM, Wolff RA, Koller CA. MD Anderson Manual of Medical Oncology, 2nd ed. New York, NY: McGraw-Hill; 2011.)

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HEMATOLOGY/ONCOLOGY Treatment ■ Patients < 70 years of age can be treated with chemotherapy and autologous bone marrow transplant. Common chemotherapeutic agents are cyclophosphamide, bortezomib, melphalan (an oral alkylating agent), dexamethasone, and lenalidomide. ■ Patients > 70 years of age are treated with melphalan and prednisone. WALDENSTRÖM MACROGLOBULINEMIA

KEY FACT Cryoglobulinemia and cold agglutinins are different disorders caused by IgM antibodies. Cryoglobulinemia is most often seen in HCV and has systemic signs such as joint pain and renal involvement. Cold agglutinins may cause finger or toe numbness and hemolytic anemia upon cold exposure and are seen with EBV, mycoplasmal infection, and Waldenström macroglobulinemia.

A clonal disorder of B cells that leads to a malignant monoclonal gammopathy. ↑ Levels of IgM result in hyperviscosity syndrome, coagulation abnormalities, cryoglobulinemia, cold agglutinin disease (leading to autoimmune hemolytic anemia), and amyloidosis. Tissue is infiltrated by IgM and neoplastic plasma cells. A chronic, indolent disease of the elderly. History/PE ■ Presents with nonspecific symptoms: Lethargy, weight loss, and Raynaud phenomenon from cryoglobulinemia. Organomegaly and organ dysfunction can be present. ■ Neurologic problems ranging from mental status changes to sensorimotor peripheral neuropathy and blurry vision (engorged blood vessels can be noted on eye exam) are also seen. ■ As with multiple myeloma, MGUS is a precursor to disease. Diagnosis ■ Most accurate test: Bone marrow biopsy and aspirate. Marrow shows abnormal plasma cells, classically with Dutcher bodies (PAS⊕ IgM deposits around the nucleus). Serum and urine protein electrophoresis and immunofixation are also used. ■ Nonspecific findings include ↑ ESR, uric acid, LDH, and alkaline phosphatase. Treatment Rituximab and chemotherapy for patients with symptomatic disease. Plasmapheresis to remove excess immunoglobulin for patients who present with signs or symptoms of hyperviscosity. AMYLOIDOSIS

Extracellular deposition of amyloid protein fibrils resulting from a variety of causes (see Table 2.7-9). Classically a disease of the elderly. History/PE ■ Clinical presentation depends on the type, amount, and tissue distribution of amyloid. In the most common forms of systemic amyloidosis, 1° (AL) and 2° (AA), the major sites of clinically important amyloid deposition are in the kidneys, heart, and liver. ■ In some disorders, amyloid deposition is limited to one organ (cerebral amyloid angiopathy in Alzheimer disease). Diagnosis Most accurate test: Tissue biopsy with Congo red staining showing applegreen birefringence under polarized light. Immunohistochemistry can identify the amyloid protein type.

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TABLE 2.7-9.  Types of Amyloidosis Amyloid AL

Cause A plasma cell dyscrasia with deposition of monoclonal light-chain fragments Associated with multiple myeloma and Waldenström macroglobulinemia

AA

Deposition of the acute-phase reactant serum amyloid A Associated with chronic inflammatory diseases (eg, rheumatoid arthritis), infections, and neoplasms

Dialysis related

Deposition of β2-microglobulin, which accumulates in patients on longterm dialysis

Heritable

Deposition of abnormal gene products (eg, transthyretin, also known as prealbumin). A heterogeneous group of disorders

Senile-systemic

Deposition of otherwise normal transthyretin

AA, 2° amyloidosis; AL, 1° amyloidosis.

Treatment ■ 1° Amyloidosis is treated with chemotherapy and/or autologous stem cell transplant. Chemotherapy agents are similar to that used in multiple myeloma. ■ 2° Amyloidosis is treated by addressing the underlying condition.

Neutropenia An absolute neutrophil count (ANC) < 1500/mm3, where ANC = (WBC count) × (% bands + % segmented neutrophils). Neutropenia may be caused by a combination of ↓ production, migration away from the vascular space, and ↑ destruction or utilization. It may be acquired or intrinsic. The most common causes of neutropenia in adults are infections and drugs. Other common causes include diseases that infiltrate the bone marrow such as leukemias or lymphomas, aplastic anemias, or B12/folate deficiencies. History/PE ■ Patients are at ↑ risk for infection. The ↓ the neutrophil count, the ↑ the risk. ■ Acute neutropenia: Associated with S aureus, Pseudomonas, E coli, Proteus, and Klebsiella sepsis. ■ Chronic and autoimmune neutropenia: Presents with recurrent sinusitis, stomatitis, gingivitis, and perirectal infections rather than sepsis. Some chronic neutropenias are accompanied by splenomegaly (Felty syndrome, Gaucher disease, sarcoidosis). ■ Look for drug or toxin exposure, infection, autoimmune, or neoplastic disease. Diagnosis ■ Best initial test: CBC with smear. ■ Follow neutropenia clinically with a CBC and ANC. If thrombocytopenia or anemia is present, bone marrow biopsy and aspirate should be performed.

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KEY FACT Hypothermia can be caused by fungemia.

1 A 71-year-old man seeks care for marked lethargy and constipation that are worsening. He also notes a dull back pain that is present at most times, even at night. His lab studies have been normal except for an ↑ creatinine level. What is most likely responsible for the patient’s worsening renal function?

2 An 80-year-old man is seen in your clinic after an incidental finding of elevated IgG on a recent hospital admission for pneumonia. He has no signs of kidney damage, anemia, or bone lesions. The IgG level is 2100mg/dL, and a subsequent bone marrow biopsy shows 3% plasma cells. What is the next best step?

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Serum immunologic evaluation, ANA levels, and a workup for collagen vascular disease may be merited.

Treatment ■ Infection management: Neutropenic patients cannot mount an effective inflammatory response. ■ Fever in the context of neutropenia (neutropenic fever) is a medical emergency; treat immediately with broad-spectrum antibiotics with pseudomonas coverage such as cefepime. Treat suspected fungal infections appropriately as well. ■ Hematopoietic stem cell factors such as G-CSF can be used to shorten the duration of neutropenia. Rarely, IVIG and allogeneic bone marrow transplantation may be used.

Eosinophilia

MNEMONIC Causes of 2° eosinophilia—

NAACP Neoplasm Allergies Asthma Collagen vascular disease Parasites

1 Patients with multiple myeloma frequently have renal dysfunction 2° to urinary immunoglobulins (also known as Bence Jones protein) that have the ability to form casts, leading to cast nephropathy.

An absolute eosinophil count ≥ 500/mm3. Eosinophilia can be triggered by the overproduction of cytokines (IL-3, IL-5, and GM-CSF) or by chemokines that stimulate the migration of eosinophils into peripheral blood and tissues. Eosinophilia may be a 1° disorder but is usually 2° to another cause. The most common cause in the developed world is allergy, whereas in the developing world it is parasitic infection. History/PE ■ Elicit a travel, medication, atopic, lymphoma/leukemia, and diet history. ■ Exam varies by cause. Patients with hypereosinophilic syndrome (HES) may present with fever, anemia, and prominent cardiac findings (emboli from mural thrombi, abnormal ECGs, CHF, murmurs). Eosinophils can infiltrate and affect other organs as well. Diagnosis ■ Obtain CBC with differential. CSF analysis showing eosinophilia is suggestive of a drug reaction or infection with coccidioidomycosis or a helminth. ■ Hematuria with eosinophilia can be a sign of schistosomiasis. Treatment New-onset cardiac findings, eosinophilia > 100,000/mm3, or drug reactions with systemic symptoms and eosinophilia must be spotted early and should be treated with steroids (and discontinuation of offending agents).

Transplant Medicine

2 This patient has MGUS, as seen by the elevated IgG in the absence of other clinical abnormalities or symptoms. No treatment is required, but because MGUS can progress to MM, this patient should be seen regularly for signs of renal failure, anemia, or bone pain.

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Three types of tissue transplantation are increasingly used to treat diseases: ■ Autologous: Transplantation from the patient to himself or herself. ■ Allogeneic: Transplantation from a donor to a genetically different patient. ■ Syngeneic: Transplantation between identical twins (from a donor to a genetically identical patient). ■ With allogeneic donation, efforts are made to ABO and HLA match the donor and recipient. Despite matching and immunosuppression, however, ■

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TABLE 2.7-10.  Types of Solid Organ Transplant Rejection Variable Timing after

Hyperacute

Acute

Chronic

Within minutes

Between 5 days and 3 months

Months to years

Preformed

T-cell mediated

Chronic immune

transplant Pathogenesis

antibodies

reaction causing fibrosis

Tissue findings

Vascular thrombi;

Laboratory evidence of tissue

Gradual loss of

tissue ischemia

destruction such as ↑ GGT,

organ function

alkaline phosphatase, LDH, BUN, or creatinine Prevention

Check ABO

N/A

N/A

Confirm with sampling of

No treatment;

transplanted tissue; treat

biopsy to rule out

with corticosteroids, antilym-

treatable acute

phocyte antibodies (OKT3),

reaction

compatibility Treatment

Cytotoxic agents

tacrolimus, or MMF

transplants may be rejected. There are three types of solid organ rejection: hyperacute, acute, and chronic (see Table 2.7-10). ■ Graft-vs-host disease (GVHD) is a complication specific to allogeneic bone marrow transplantation in which donated T cells attack host tissues, especially the skin, liver, and GI tract. It may be acute (< 100 days posttransplant) or chronic (> 100 days afterward). ■ Minor histocompatibility antigens are thought to be responsible for GVHD, which presents with skin changes, cholestatic liver dysfunction, obstructive lung disease, or GI problems. ■ Patients are treated with high-dose corticosteroids. ■ Typical posttransplant immunosuppression regimens include: prednisone, mycophenolate mofetil (MMF), FK506 (tacrolimus) to suppress immunemediated rejection, TMP-SMX, ganciclovir, and fluconazole to prevent subsequent infection in the immunosuppressed host. ■ A variant of GVHD is the graft-vs-leukemia effect, in which leukemia patients who are treated with an allogeneic bone marrow transplant have significantly lower relapse rates than those treated with an autologous transplant. This difference is thought to be caused by a recognition of leukemia cells by the donor T cells.

Diseases Associated with Neoplasms Table 2.7-11 outlines conditions that are commonly associated with neoplasms.

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TABLE 2.7-11.  Disorders Associated with Neoplasms Condition Acanthosis nigricans (hyperpigmentation and epidermal thickening)

Neoplasm Visceral malignancy (stomach, lung, breast, uterus)

and seborrheic keratoses Actinic keratosis

Squamous cell carcinoma of the skin

AIDS

Aggressive malignant NHLs and Kaposi sarcoma

Autoimmune diseases (eg, myasthenia gravis)

Benign and malignant thymomas

Barrett esophagus (chronic GI reflux)

Esophageal adenocarcinoma

Chronic atrophic gastritis, pernicious anemia, postsurgical gastric remnants

Gastric adenocarcinoma

Cirrhosis (eg, alcoholic, HBV, HCV, Wilson disease)

Hepatocellular carcinoma

Down syndrome

ALL (“We will ALL go Down together”)

Immunodeficiency states

Malignant lymphomas

Multiple dysplastic nevi

Malignant melanoma

Neurofibromatosis type 1

Pheochromocytoma, neurofibroma, optic glioma

Neurofibromatosis type 2

Acoustic schwannoma

Paget disease of bone

2° Osteosarcoma and fibrosarcoma

Plummer-Vinson syndrome (atrophic glossitis, esophageal webs, anemia;

Squamous cell carcinoma of the esophagus

all caused by iron deficiency) Tuberous sclerosis (facial angiofibroma, seizures, intellectual disability)

Astrocytoma and cardiac rhabdomyoma

Ulcerative colitis

Colonic adenocarcinoma

Xeroderma pigmentosum

Squamous cell and basal cell carcinomas of the skin

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INFECTIOUS DISEASE Respiratory Infections

212

Cytomegalovirus

232

Pneumonia

212

Mycobacterium Avium Complex

233

Tuberculosis

215

Toxoplasmosis

233

Aspergillosis

216

Acute Pharyngitis

217

Oral Infections

218

Sinusitis

219

Influenza

219

Infections of the Eyes and Ears

220

Infectious Conjunctivitis

220

Orbital Cellulitis

220

Acute Dacryocystitis

221

Herpes Simplex Keratitis

221

Sexually Transmitted Diseases

234

Chlamydia

234

Gonorrhea

235

Syphilis

236

Genital Lesions

238

Genitourinary Infections

239

Urinary Tract Infections

239

Pyelonephritis

240

Hematologic Infections

241

Contact Lens Keratitis

222

Sepsis

241

Otitis Externa

222

Malaria

242

Other Mosquito-borne Viruses

243

Infectious Mononucleosis

243

CNS Infections

222

Meningitis

222

Encephalitis

224

Brain Abscess

225

Fever of Unknown Origin

245

Botulism

226

Neutropenic Fever

245

226

Tick-Borne Infections

246

Human Immunodeficiency Virus Opportunistic Infections Oropharyngeal Candidiasis (Thrush)

228 228

Fever 245

Lyme Disease

246

Babesiosis

247

Rocky Mountain Spotted Fever

247

Cryptococcal Meningitis

229

Histoplasmosis

229

Miscellaneous Infections

Coccidioidomycosis

230

Infective Endocarditis

248

Blastomycosis

231

Anthrax

250

Pneumocystis Jirovecii Pneumonia

231

Osteomyelitis

251

248

211

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Respiratory Infections PNEUMONIA

Common causes of pneumonia are outlined in Tables 2.8-1 and 2.8-2. History/PE ■ May present classically or atypically. ■ Classic symptoms: Sudden onset, fever, productive cough (purulent yellowgreen sputum or hemoptysis), dyspnea, night sweats, pleuritic chest pain. TA B L E 2.8 - 1. 

Causes of Pneumonia by Category

Category

Etiology

Atypical

Mycoplasma, Legionella, Chlamydophila (Chlamydia) pneumoniae

Nosocomial (health

GNRs, Staphylococcus, anaerobes, Pseudomonas (intubated patients)

care–associated) Immunocompromised

Streptococcus pneumoniae (most common), Staphylococcus, gram ⊕ rods, fungi, viruses, Pneumocystis jirovecii (with HIV), mycobacteria

Aspiration

Anaerobes

Alcoholics/IV drug

S pneumoniae, Klebsiella, Staphylococcus

users CF

Staphylococcus, Pseudomonas, Burkholderia, mycobacteria

COPD

Haemophilus influenzae, Moraxella catarrhalis, S pneumoniae

Postviral

Staphylococcus, S pneumoniae, H influenzae

Neonates

Group B streptococci (GBS), Escherichia coli, Listeria

Recurrent

Obstruction, bronchogenic carcinoma, lymphoma, Wegener granulomatosis, immunodeficiency, unusual organisms (eg, Nocardia, Coxiella burnetii, Aspergillus, Pseudomonas)

TA B L E 2.8 - 2. 

Neonates

Common Causes of Pneumonia by Age

Children (6 weeks–18 years)

Adults (18–40 years)

Adults (40–65 years)

Elderly

GBS

Viruses

Mycoplasma

S pneumoniae

S pneumoniae

E coli

S pneumoniae

S pneumoniae

H influenzae

H influenzae

Listeria

Mycoplasma

Viruses

Mycoplasma

Viruses

C pneumoniae

C pneumoniae

Viruses

S aureus

Anaerobes

Gram ⊝ rods (GNRs)

Staphylococcus aureus

Anaerobes

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B

A

F I G U R E 2 . 8 - 1 .   Lobar pneumonia. Posteroanterior (A) and lateral (B) CXR of a 41-yearold man with cough and shortness of breath show a left lower lobe opacity consistent with lobar pneumonia. S pneumoniae was confirmed by sputum Gram stain and culture. (Reproduced with permission from USMLE-Rx.com.)

Atypical symptoms: Gradual onset, dry cough, headache, myalgia, sore throat, GI symptoms. ■ Lung exam may show ↓ or bronchial breath sounds, rales, wheezing, dullness to percussion, egophony, and/or tactile fremitus. ■ Elderly patients and those with COPD, diabetes, or immune compromise may have minimal or atypical signs on physical exam. ■

Diagnosis ■ Requires two or more symptoms of acute respiratory infection plus a new infiltrate on chest x-ray (CXR) or CT (see Figure 2.8-1). ■ Sputum Gram stain and culture (see Figure 2.8-2), nasopharyngeal aspirate, blood culture, and ABG are obtained in a minority of cases, mostly in hospitalized patients or outpatients with persistent symptoms. ■ Tests for specific pathogens include the following: ■ Legionella: Urine Legionella antigen test, sputum staining with direct fluorescent antibody (DFA), culture.

A

KEY FACT An adequate sputum Gram stain sample has many PMNs (> 25 cells/hpf ) and few epithelial cells (< 10 cells/hpf ).

B

F I G U R E 2 . 8 - 2 .   Common pathogens causing pneumonia. (A) S aureus. These clusters of gram ⊕ cocci were isolated from the sputum of a patient who developed pneumonia while hospitalized. (B) S pneumoniae. Sputum sample from a patient with pneumonia. Note the characteristic lancet-shaped gram ⊕ diplococci.

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Chlamydophila (Chlamydia) pneumoniae: Serologic testing, polymerase chain reaction (PCR). ■ Mycoplasma: Usually clinical. Serum cold agglutinins and serum Mycoplasma antigen may also be used. ■ S pneumoniae: Urine pneumococcal antigen test, culture. ■ Viral: Nasopharyngeal aspirate, rapid molecular tests for pathogens (eg, influenza, respiratory syncytial virus), DFA, viral culture.

MNEMONIC

Pneumonia hospitalization criteria, 2–3 = consider inpatient treatment; > 4 = admission—

CURB-65 Confusion Uremia (BUN > 19) Respiratory rate (> 30 breaths/min) Blood pressure (SBP < 90 mm Hg or DBP 65 years

KEY FACT The pneumococcal vaccine should be given to all children, patients >65 years of age, patients with splenic dysfunction (eg, sickle cell) or asplenia, immunocompromised patients, and patients with chronic disease including diabetes. TA B L E 2.8 - 3. 

Treatment A summary of the recommended best initial treatment for pneumonia is given in Table 2.8-3. Outpatient treatment with oral antibiotics is recommended in uncomplicated cases. ■ For patients with obstructive diseases (eg, cystic fibrosis [CF] or bronchiectasis), consider adding pseudomonas, staphylococcal, or anaerobic coverage. ■

Complications Pleural effusion, empyema, lung abscess, necrotizing pneumonia, bacteremia. Empyema treatment requires surgical drainage and chest tube placement in addition to antibiotics.

Treatment of Pneumonia

Patient Type Outpatient community-acquired pneu-

Suspected Pathogens S pneumoniae, Mycoplasma

monia, ≤ 65 years of age, otherwise

pneumoniae, C pneumoniae,

healthy, no antimicrobials within 3 months

Hinfluenzae, viral

> 65 years of age or comorbidity (COPD,

S pneumoniae, H influenzae, aerobic

heart failure, renal failure, diabetes, liver

GNRs (E coli, Enterobacter, Klebsi-

disease, EtOH abuse) or antimicrobial use

ella), S aureus, Legionella, viruses

Empiric Coverage Macrolide or doxycycline

Fluoroquinolone or β-lactam + macrolide

within 3 months Community-acquired pneumonia requiring hospitalization

S pneumoniae, H influenzae, anaerobes, aerobic GNRs, Legionella,

Fluoroquinolone or antipneumococcal β-lactam + macrolide

Chlamydia Community-acquired pneumonia requiring ICU care

S pneumoniae, Legionella, H influenzae, anaerobes, aerobic GNRs,

Antipneumococcal β-lactam + fluoroquinolone (or azithromycin)

Mycoplasma, Pseudomonas Institution-/hospital-acquired pneumonia—

GNRs (including Pseudomonas and

hospitalized > 48 hours or in a long-term

Acinetobacter), S aureus, Legionella,

care facility > 14 days; ventilator-associated

mixed flora

Extended-spectrum cephalosporin or carbapenem with antipseudomonal activity Add an aminoglycoside or a fluoroquinolone for coverage of resistant organisms (Pseudomonas)

pneumonia

until lab sensitivities identify the best single agent Critically ill or worsening over 24–48 hours on initial antibiotic therapy

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MRSA

Add vancomycin or linezolid; broader gram ⊝ coverage

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TUBERCULOSIS

Infection caused by Mycobacterium tuberculosis. Roughly 2 billion people worldwide are infected with tuberculosis (TB). Initial infection usually leads to a latent infection that is asymptomatic. Most symptomatic cases (ie, active disease) are caused by reactivation of latent infection rather than to 1° exposure. Pulmonary TB is most common, but disseminated or extrapulmonary TB can occur as well. TB can infect almost any organ system, including the lungs, CNS, GU tract, bone, and GI tract. Risk factors for active disease (ie, reactivation): Immunosuppression (HIV/ AIDS), alcoholism, preexisting lung disease, diabetes, advancing age. ■ Risk factors for TB exposure in the United States: Homelessness and crowded living conditions (eg, prisons), emigration/travel from developing nations, employment in a health profession, interaction with known TB contacts. ■

History/PE ■ Presents with cough, hemoptysis, dyspnea, weight loss, fatigue, night sweats, fever, cachexia, hypoxia, tachycardia, lymphadenopathy, an abnormal lung exam, and prolonged (> 3 weeks) symptom duration. ■ HIV patients can present with atypical signs and symptoms and have higher rates of extrapulmonary TB. Diagnosis ■ Active disease: Mycobacterial culture of sputum (or blood/tissue for extrapulmonary disease) is the most accurate test but can take weeks to obtain. A sputum acid-fast stain (see Figure 2.8-3) can yield rapid preliminary results and is the best initial test but lacks sensitivity. ■ The most common finding among typical hosts is a cavitary infiltrate in the upper lobe on CXR (see Figure 2.8-4), which may be accompanied by calcification of one or more nearby lymph nodes (Ghon complex). ■ HIV patients or those with 1° TB may show lower lobe infiltrates with or without cavitation. ■ Multiple fine nodular densities distributed throughout both lungs are typical of miliary TB, which represents hematologic or lymphatic dissemination.

A

B

F I G U R E 2 . 8 - 4 .   Pulmonary TB. (A) Right apical opacity with areas of cavitation (arrow) is seen in an elderly man with reactivation TB. (B) Coned-in view of CXR in a young man with miliary TB shows innumerable 1- to 2-mm pulmonary nodules. (Image A reproduced with permission from Halter JB, et al. Hazzard’s Geriatric Medicine and Gerontology, 6th ed. New York, NY: McGraw-Hill; 2009. Image B reproduced with permission from USMLE-Rx.com.)

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KEY FACT Interpretation and management of the Mantoux tuberculin skin test (TST or PPD) is the same for patients who have received the BCG vaccine and those who have not, although they should be tested with QuantiFERON-TB testing instead.

F I G U R E 2 . 8 - 3 .   Tuberculosis. Note the red color (“red snappers”) of tubercle bacilli on acid-fast staining. (Reproduced with permission from Milikowski C. Color Atlas of Basic Histopathology, 1st ed. Stamford, CT: Appleton & Lange; 1997.)

A 70-year-old man presents to the ED in February with a high fever and a productive cough. He was treated for influenza 1 week ago, and his symptoms improved until 3 days ago, when they returned with greater severity. Exam now reveals cyanosis, tactile fremitus, and dullness to percussion over the left lower lobe. Against what organism should antibiotic therapy be directed?

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PPD is injected intradermally on the volar surface of the forearm. The diameter of induration is measured at 48–72 hours. BCG vaccination typically renders a patient PPD but should not preclude prophylaxis as recommended for unvaccinated individuals. The size of induration that indicates a test is interpreted as follows: ≥ 5 mm: HIV or risk factors, close TB contacts, CXR evidence of TB. ≥ 10 mm: Indigent/homeless, residents of developing nations, IV drug use, chronic illness, residents of health and correctional institutions, and health care workers. ≥ 15 mm: Everyone else, including those with no known risk factors. A reaction with controls implies anergy from immunosuppression, old age, or malnutrition and thus does not rule out TB.

F I G U R E 2 . 8 - 5 .   Purified protein derivative (PPD) interpretation. Image on left courtesy of Centers for Disease Control and Prevention (CDC). Core Curriculum on Tuberculosis: What the Clinician Should Know, 6th ed. Atlanta, GA: Centers for Disease Control and Prevention; 2013.

KEY FACT Rifampin turns body fluids orange (including tears); ethambutol can cause optic neuritis. INH may cause peripheral neuropathy and drug-induced hepatitis.

Latent disease (asymptomatic and previous exposure): Diagnose with a ⊕tuberculin skin test (TST; see Figure 2.8-5) or QuantiFERON-TB test. ■ Immunocompromised individuals with latent TB infection may have a ⊝ TST (anergy). ■ Evaluate all patients with a ⊕ PPD with CXR to rule out active disease.

Treatment All cases (both latent and active) must be reported to local and state health departments. Respiratory isolation should be instituted if active TB is suspected. Treatment measures are as follows: MNEMONIC Patients with TB are RIPE for treatment— Rifampin Isoniazid Pyrazinamide Ethambutol

Active disease: ■ Directly observed multidrug therapy with a four-drug regimen (INH, pyrazinamide, rifampin, ethambutol) for 2 months followed by INH and rifampin for 4 months. ■ Administer vitamin B6 (pyridoxine) with INH to prevent peripheral neuropathy. ■ Latent disease: For a ⊕ PPD without signs or symptoms of active disease, treat with INH for 9 months. Alternative regimens include INH for 6months or rifampin for 4 months. ■

ASPERGILLOSIS

S aureus. Postviral pneumonia is an important complication of influenza, especially in the elderly. Staphylococcus is the most common organism responsible for early bacterial superinfection, presenting just days after the onset of influenza. Necrotizing bronchopneumonia with cavitation and abscess formation is characteristic.

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A group of diseases caused by aspergillus, typically A fumigatus, through infection by spores. It can be seen on silver stain as acutely (< 45°) branched septate hyphae. Allergic Bronchopulmonary Aspergillosis

Hypersensitivity reaction that is common in asthmatic and cystic fibrosis populations. ■ Hx/PE: Fever, wheezing, cough, hemoptysis, mucous plugs. ■ Dx: Pulmonary infiltrates on CXR, eosinophilia, ⊕ skin antigen test. ■ Tx: Oral (not inhaled) corticosteroids; add itraconazole for recurrent or chronic cases. ■

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Aspergilloma

Typically discovered as an incidental radiographic finding in patients with preexisting lung disease (eg, sarcoidosis, PCP, TB). ■ Hx/PE: May be asymptomatic or present with hemoptysis; fever and cough are less common. ■ Dx: CXR or CT reveals a solid mass within a preexisting lung cavity; lab tests are typically normal. ■ Tx: If symptomatic, itraconazole or curative surgical resection if the patient can tolerate the procedure. ■

Chronic Necrotizing Pulmonary Aspergillosis

Rare, antibiotic-resistant pneumonia that occurs in patients with alcoholism or steroid-dependent COPD. ■ Hx/PE: Fever, cough, hemoptysis, night sweats, fatigue. ■ Tx: Voriconazole, surgical resection if resistant or severe. ■

Invasive Aspergillosis

Severe, rapidly progressive infection that occurs exclusively in immunosuppressed patients (eg, chemotherapy, transplant). ■ Hx/PE: Fever, cough, pleuritic chest pain, tachypnea/hypoxemia. ■ Dx: Serum galactomannan assay is specific, but lung biopsy should be performed if negative. ■ Tx: Voriconazole or caspofungin in addition to decreasing immunosuppressant therapy. ■

ACUTE PHARYNGITIS

Viral causes are more common (90% in adults), but it is important to identify streptococcal pharyngitis (group A β-hemolytic Streptococcus pyogenes). Etiologies are as follows: ■ Bacterial: Group A streptococci (GAS), Neisseria gonorrhoeae, Corynebacterium diphtheriae, M pneumoniae. ■ Viral: Rhinovirus, coronavirus, adenovirus, herpes simplex virus (HSV), Epstein-Barr virus (EBV), cytomegalovirus (CMV), influenza virus, coxsackievirus, acute HIV infection.

KEY FACT Early antibiotic treatment of streptococcal pharyngitis can prevent rheumatic fever but not glomerulonephritis.

History/PE ■ Typical of streptococcal pharyngitis: Fever, sore throat, pharyngeal erythema (see Figure 2.8-6), tonsillar exudate, cervical lymphadenopathy, soft palate petechiae, headache, vomiting, scarlatiniform rash (indicates scarlet fever). ■ Atypical of streptococcal pharyngitis: Coryza, hoarseness, rhinorrhea, cough, conjunctivitis, anterior stomatitis, ulcerative lesions, GI symptoms. Diagnosis Diagnosed by clinical evaluation, rapid GAS antigen detection, and throat culture. If three out of four Centor criteria are met (see Table 2.8-4), the sensitivity of rapid antigen testing is > 90%. Treatment If GAS is suspected, begin empiric antibiotic therapy with penicillin for 10 days. Cephalosporins, amoxicillin, and azithromycin are alternative options. Symptom relief can be attained with fluids, rest, antipyretics, and saltwater gargles.

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F I G U R E 2 . 8 - 6 .   Pharyngeal erythema. Streptococcus pyogenes is the

most common bacterial cause of pharyngitis. (Reproduced courtesy of Dr. Heinz F.

Eichenwald from the Centers for Disease Control and Prevention, Atlanta, GA.)

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TA B L E 2.8 - 4. 

Modified Centor Criteria (Centor Criteria + Age)

Criteria Fever

1

Tonsillar exudate

1

Tender anterior cervical lymphadenopathy

1

Lack of cough

1

3–14 years of age

1

15–45 years of age > 45 years of age

KEY FACT Acute necrotizing mediastinitis is a lifethreatening complication of untreated retropharyngeal abscess that presents with fever, chest pain, and dyspnea. Requires urgent surgical drainage to prevent spread to the posterior mediastinum, which may cause lethal pleural and pericardial effusions.

KEY FACT All patients with a history of rheumatic fever should be given routine penicillin prophylaxis to prevent recurrent group A strep infection.

Points

0 −1

If 4–5 points, treat empirically with antibiotics. If 2–3 points, perform rapid antigen test. If ⊕ antigen test, treat with antibiotics; if ⊝ antigen test, perform throat culture. If 0–1 points, no testing or antibiotics required (symptomatic treatment only).

Complications ■ Nonsuppurative: Acute rheumatic fever (see the Cardiovascular chapter), poststreptococcal glomerulonephritis. ■ Suppurative: Cervical lymphadenitis, mastoiditis, sinusitis, otitis media, retropharyngeal or peritonsillar abscess, and, rarely, thrombophlebitis of the jugular vein (Lemierre syndrome) caused by Fusobacterium, an oral anaerobe. ■ Peritonsillar abscess may present with odynophagia, trismus (“lockjaw”), a muffled “hot potato” voice, unilateral tonsillar enlargement, and erythema, with the uvula and soft palate deviated away from the affected side. Culture abscess fluid, and localize the abscess via intraoral ultrasound or CT. Treat with antibiotics and surgical drainage. ORAL INFECTIONS

Ludwig Angina

Rapidly progressive cellulitis of submandibular space that may cause fever and airway compromise from a rapidly expanding cellulitic edema. Usually caused by polymicrobial infection in the setting of poor oral hygiene. Intravenous (IV) broad-spectrum antibiotics and diligent airway management are necessary; surgical drainage is performed if there is abscess formation (uncommon). Acute Lymphadenitis

Unilateral and rapid onset (< 1 week), commonly caused by S aureus and S pyogenes, typically involving the submandibular lymph nodes. Antibiotics are required if symptoms (fluctuance, fever, cellulitis) are present to prevent abscess formation. Parotitis

Painful swelling of parotid gland caused by S aureus in states of dehydration, especially in the elderly and after surgery. Prevented with adequate fluid intake and oral hygiene. Treated with IV antibiotics.

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SINUSITIS

Refers to inflammation of the paranasal sinuses. The maxillary sinuses are most commonly affected. Subtypes include the following: Acute sinusitis (symptoms lasting < 1 month): Most commonly associated with viruses, S pneumoniae, H influenzae, and M catarrhalis. Bacterial causes are rare and characterized by purulent nasal discharge, facial or tooth tenderness, hyposmia/anosmia, and symptoms lasting > 10 days. ■ Chronic sinusitis (symptoms persisting > 3 months): A chronic inflammatory process often caused by obstruction of sinus drainage and ongoing low-grade anaerobic infections. ■

History/PE ■ Presents with fever, facial pain/pressure, headache, nasal congestion, and discharge. Exam may reveal tenderness, erythema, and swelling over the affected area. ■ High fever, leukocytosis, and a purulent nasal discharge are suggestive of acute bacterial sinusitis. Diagnosis ■ A clinical diagnosis. Culture and imaging are generally not required for acute sinusitis but may guide the management of chronic cases. ■ Transillumination shows opacification of the sinuses (low sensitivity). ■ CT is the test of choice for sinus imaging (see Figure 2.8-7), but is usually necessary only if symptoms persist after treatment. Treatment ■ Most cases of acute sinusitis are viral and/or self-limited and are treated with symptomatic therapy (decongestants, antihistamines, nasal saline lavage, pain relief). ■ Acute bacterial sinusitis: Consider amoxicillin/clavulanate for 10 days or clarithromycin, azithromycin, trimethoprim-sulfamethoxazole (TMP-SMX), a fluoroquinolone, or a second-generation cephalosporin for 10 days. ■ Chronic sinusitis: ■ Antibiotics like those used for acute disease, although a longer course (3–6 weeks) may be necessary. ■ Adjuvant therapy with intranasal corticosteroids, decongestants, and antihistamines may be useful in combating the allergic/inflammatory component of the disease. ■ Surgical intervention may be required.

KEY FACT Potential complications of sinusitis include meningitis, frontal bone osteomyelitis, cavernous sinus thrombosis, and abscess formation.

KEY FACT Beware of invasive and life-threatening fungal sinusitis (caused by Mucor and Rhizopus) in patients with poorly controlled diabetes mellitus, immune compromise, or neutropenia.

F I G U R E 2 . 8 - 7 .   Sinusitis. Coronal CT image shows an opacified left maxillary sinus and marked associated bony thickening, consistent with chronic maxillary sinusitis. (Reproduced with permission from Lalwani AK. Current Diagnosis & Treatment in Otolaryngology—Head and Neck Surgery, 2nd ed. New York, NY: McGraw-Hill; 2008.)

INFLUENZA

A highly contagious orthomyxovirus transmitted by droplet nuclei. There are three types of influenza: A, B, and C. Subtypes of influenza A (eg, H5N1, H1N1) are classified based on glycoproteins (hemagglutinin and neuraminidase). Relevant terms are as follows: Antigenic drift: Refers to small, gradual changes in surface proteins through point mutations. These small changes are sufficient to allow the virus to escape immune recognition, accounting for the fact that individuals can be infected with influenza multiple times. ■ Antigenic shift: Describes an acute, major change in the influenza A subtype (significant genetic reassortment) circulating among humans; leads to pandemics. ■

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A 70-year-old man presents to the ED with 5 days of fever, productive cough, and altered mental status. He is also found to be hypotensive and tachypneic. Broad-spectrum antibiotics and fluid resuscitation are promptly administered, but the patient continues to be hypotensive. What is the next best step in treatment?

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In the United States, the typical influenza season begins in November and lasts until April. Yearly vaccination with inactivated influenza virus is currently recommended for all patients ≥ 6 months of age. Children 6 months to 9 years of age require two doses of the seasonal vaccine if they are receiving the vaccine for the first time. A high-dose flu vaccine is available for people ≥65 years of age or those who are immunocompromised. History/PE Patients typically present with abrupt onset of fever, myalgia, chills, cough, coryza, and weakness. Elderly patients may have atypical presentations characterized only by confusion. Diagnosis ■ Best initial test: Rapid influenza test of viral antigens from nasopharyngeal swab. ■ Most accurate test: Diagnosis can be made with DFA tests, viral culture, or PCR assays. Rapid influenza tests have low sensitivity, and influenza is usually a clinical diagnosis. Leukopenia is a common finding. Treatment ■ Symptomatic care with analgesics and hydration. ■ Antivirals such as oseltamivir or zanamivir are most effective when used within 2 days of onset and may shorten the duration of infection by 1–3days. Complications Severe 1° viral pneumonia, 2° bacterial pneumonia (see “Postviral” in Table 2.8-1), sinusitis, bronchitis, and exacerbation of COPD and asthma can occur.

Infections of the Eyes and Ears INFECTIOUS CONJUNCTIVITIS

KEY FACT Orbital cellulitis can be distinguished from preseptal cellulitis by the following clinical features: restricted eye movements, ↓ visual acuity, diplopia, and proptosis.

Administration of vasopressors and ICU admission. This patient is in septic shock, probably 2° to pneumonia. Patients with pneumonia who require vasopressors or mechanical ventilation warrant admission to anICU.

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Inflammation of the conjunctiva is most often bacterial or viral but can also be fungal, parasitic, allergic, or chemical. It is essential to differentiate potentially vision-threatening infectious etiologies from allergic or other causes of conjunctivitis, and to identify other vision-threatening conditions that may mimic conjunctivitis. Table 2.8-5 lists the common etiologies of infectious conjunctivitis. ORBITAL CELLULITIS

Commonly caused by direct spread of infection from the paranasal sinuses; can lead to endophthalmitis and blindness. Usually caused by streptococci, staphylococci (including Methicillin-resistant Staphylococcus aureus [MRSA]), and H influenzae (in children). In diabetic and immunocompromised patients, the Zygomycetes Mucor and Rhizopus must be included in the differential diagnosis. History/PE Presents with acute-onset fever, proptosis, ↓ extraocular movement, ocular pain, and ↓ visual acuity. Look for a history of ocular trauma/surgery or sinusitis. Palatal or nasal mucosal ulceration with coexisting maxillary and/or ethmoid sinusitis suggests mucormycosis or Rhizopus.

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221

Common Causes of Infectious Conjunctivitis

Pathogen

Characteristics

Diagnosis

Treatment

Bacterial Staphylococci, streptococci,

Foreign body sensation, purulent discharge

Haemophilus, Pseudomonas,

Gram stain and culture if

Antibiotic drops/ointment

severe

Moraxella N gonorrhoeae

An emergency! Corneal involvement can lead to perforation and blindness

C trachomatis A–C

Neonatal infection: mucopurulent conjunctivitis Trachoma (global): recurrent epithelial keratitis in childhood; trichiasis, corneal

Gram stain shows gram ⊝

IM or IV ceftriaxone. Inpatient

intracellular diplococci

treatment if complicated

Neonatal infection: Giemsa

Neonatal: azithromycin, tet-

stain, chlamydial cultures

racycline, or erythromycin

Trachoma: clinical (most often), PCR

for 3–4weeks in infants Trachoma: (single oral dose) in mass treatment

scarring, and entropion Leading cause of preventable blindness

Surgery if needed to protect cornea from eyelashes

worldwide

Viral Adenovirus (most common)

Copious watery discharge, severe ocular

Contagious; self-limited

irritation, preauricular lymphadenopathy Occurs in epidemics

Diagnosis ■ Mostly clinical. ■ Best initial test: Blood and tissue fluid culture. CT scan to rule out orbital abscess and intracranial involvement. Treatment ■ Admit and give immediate IV antibiotics; request an ophthalmologic/ ENT consult. ■ Abscess formation or a worsening condition may necessitate surgery. ■ Diabetic and immunocompromised patients should be treated with amphotericin B and surgical debridement (often associated with cavernous sinus thrombosis) if Mucor or Rhizopus is diagnosed.

KEY FACT Neisseria conjunctivitis is an ocular emergency often requiring inpatient parenteral antibiotic therapy.

ACUTE DACRYOCYSTITIS

Infection of the lacrimal sac, usually by Staphylococcus or Streptococcus spp. Hx/PE: Pain and redness in the medial canthal region, less commonly fever and ↑ WBC. ■ Tx: Most accurate treatment is immediate treatment with empiric antibiotics to prevent disastrous orbital cellulitis. ■ ■

HERPES SIMPLEX KERATITIS

Viral infection of the cornea. Common cause of blindness in the United States.

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Hx/PE: Presents with pain, blurred vision, tearing, and redness. Often recurrent caused by repeated exposure (outdoor occupation) or immunodeficiency. ■ Dx: Typically clinical. However, corneal vesicles and dendritic ulcers are characteristic. Epithelial scrapings show multinucleated giant cells. ■ Tx: Oral or topical antiviral therapy. ■

CONTACT LENS KERATITIS

Medical emergency, often caused by Pseudomonas infection. Hx/PE: Typically presents with painful, red eye and opacification and ulceration of the cornea. Progressed disease can cause corneal perforation and permanent vision loss. ■ Dx: Clinical. ■ Tx: Immediately remove the contact lens and give topical broad-spectrum antibiotics; avoid patching. ■ ■

OTITIS EXTERNA

Inflammation of the external auditory canal, also known as “swimmer’s ear.” Pseudomonas and Enterobacteriaceae are the most common etiologic agents. Both grow in the presence of excess moisture. ■ Hx/PE: Presents with pain, pruritus, and possible purulent discharge. Exam reveals pain with movement of the tragus/pinna (unlike otitis media) and an edematous and erythematous ear canal. See the Pediatrics chapter for a discussion of otitis media. ■ Dx: A clinical diagnosis. Obtain a culture for severe or refractory cases. Order a CT scan if the patient appears toxic. ■ Tx: Best initial treatment is to clean the ear and give antibiotic (ofloxacin or ciprofloxacin) and steroid eardrops. Elderly diabetics and immunocompromised individuals are at risk for necrotizing otitis externa and may require IV antibiotics (usually a fluoroquinolone or fourthgeneration cephalosporin). ■

CNS Infections KEY FACT The incidence of H influenzae type b meningitis has greatly ↓ over the past 10–15 years as a result of routine vaccination.

KEY FACT A petechial or purpuric rash is characteristic of meningococcal meningitis. Waterhouse-Friderichsen syndrome (adrenal insufficiency caused by bleeding into the adrenal gland) is characterized by profound hypotension and has high mortality.

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MENINGITIS

Acute bacterial meningitis is a life-threatening emergency. Viral (also called “aseptic”) meningitis is more common and clinically less morbid. Risk factors for meningitis include recent ear infection, sinusitis, immunodeficiencies, recent neurosurgical procedures, crowded living conditions (ie, college dorms, military), and sick contacts. Common causative organisms are listed in Table 2.8-6. History/PE About one-half of patients present with a classic triad of fever, headache, and neck stiffness. Other symptoms include malaise, photophobia, altered mental status, nausea/vomiting, seizures, or signs of meningeal irritation (⊕ Kernig and Brudzinski signs). Diagnosis ■ Best initial test: Obtain a lumbar puncture (LP) for CSF analysis, Gram stain, and culture ideally before initiation of antibiotics; obtain glucose,

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223

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Common Causes of Meningitis

Bacterial

Viral (Aseptic)

S pneumoniae (#1 in adults)

Enteroviruses:

Neisseria meningitidis

(#1 in teens) GBS and E coli (in neonates)

HIV

Bacteremia S aureus,

Cryptococcus spp.,

Echovirus

CMV, HSV, VZV, TB,

gram⊝

Coxsackie

toxoplasmosis, and

bacilli

HSV-2

JC virus (progressive

H influenzae serotype b,

multifocal leukoen-

Listeria (see Figure 2.8-8)

cephalopathy [PML])

protein, WBC count plus differential, RBC count, and opening pressure (in the absence of papilledema or focal neurologic deficits). ■ Viral PCRs (eg, HSV); cryptococcal antigen (for HIV patients). ■ CT or MRI is indicated in a minority of patients before LP, in particular those with altered mental status, papilledema, or focal neurologic deficits to exclude a mass lesion or ↑ intracranial pressure (ICP). If CT is being obtained, empiric antibiotics should be started beforehand. Obtain blood cultures. CBC may reveal leukocytosis; CSF findings vary (see Table 2.8-7).

F I G U R E 2 . 8 - 8 .   Listeria. These numerous rod-shaped bacilli were isolated from the blood of a patient with Listeria meningitis.

Treatment ■ Most accurate treatment: Administer antibiotics rapidly (see Table 2.8-8). If the patient does not have neurologic symptoms and is not immunocompromised, antibiotics can be held until LP is performed. ■ Most cases of viral meningitis can be treated with supportive care and close follow-up. ■ Close contacts of patients with meningococcal meningitis should receive rifampin or ciprofloxacin, and the meningococcal vaccine. TA B L E 2.8 - 7. 

CSF Profiles

Normal Bacterial meningitis

Gamma Globulin (% protein)

RBCs (per mm3)

WBCs (per mm3)

Glucose (mg/dL)

Protein (mg/dL)

Opening Pressure (cm H2O)

< 10

1000 PMNs) Viral meningitis

↑ (monos/lymphs)

Aseptic meningitis

↔ or ↑

Subarachnoid hemorrhage

↑↑

↔ or ↑

Guillain-Barré syndrome

↔ or ↑

↑↑

Clear Yellow/red Clear or yellow

↔ ↔ or ↑ ↔

(high protein) MS

↔ or ↑

Clear

↑↑

Pseudotumor cerebri

↑↑↑

Clear

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Empiric Treatment of Bacterial Meningitis

Age

Causative Organism

Treatment

< 1 month

GBS, E coli/gram ⊝ bacilli, Listeria

Ampicillin + cefotaxime or gentamicin

1–3 months

S pneumoniae, N meningitidis, H influenzae type b

Vancomycin IV + ceftriaxone or cefotaxime

3 months to adulthood

N meningitidis, S pneumoniae

Vancomycin IV + ceftriaxone or cefotaxime

> 60 years/alcoholism/

S pneumoniae, gram ⊝ bacilli, Listeria, N meningitidis

Ampicillin + vancomycin + cefotaxime or ceftriaxone

chronic illness

Dexamethasone ↓ mortality, hearing loss, and short-term neurologic complications in bacterial meningitis caused by S pneumoniae, if given 15–20 minutes before antibiotics. ■ If immunocompromised, elderly, or neonate, add ampicillin for Listeria. ■

Complications Sensorineural hearing loss, mental impairment, seizures, cerebral edema, ↑ ICP, brain abscess, ventriculitis/hydrocephalus, focal neurologic deficits (eg, cranial nerve palsies), hyponatremia, coma, death. KEY FACT The presence of RBCs in CSF without a history of trauma is highly suggestive of HSV encephalitis.

KEY FACT CNS infections key words: ■ Photophobia, nuchal rigidity = meningitis. ■ Focal neurologic deficits = brain abscess. ■ Confusion, altered mental status = encephalitis.

KEY FACT HSV encephalitis is associated with high morbidity. PCR is highly sensitive and specific. IV acyclovir should be started as soon as possible if this diagnosis is suspected.

ENCEPHALITIS

HSV and arboviruses are the most common causes of encephalitis. Rarer etiologies include CMV, toxoplasmosis, West Nile virus, varicella zoster virus (VZV), Borrelia, Rickettsia, Legionella, enterovirus, Mycoplasma, and cerebral malaria. Children and the elderly are the most vulnerable. History/PE ■ Presents with altered consciousness, headache, fever, and seizures. Lethargy, confusion, coma, and focal neurologic deficits (cranial nerve deficits, accentuated deep tendon reflexes) may also be present. ■ The differential diagnosis includes brain abscess, malignancy, toxicmetabolic encephalopathy, subdural hematoma, and subarachnoid hemorrhage. Diagnosis ■ Perform CT immediately to rule out other life-threatening conditions that cause neurologic symptoms and may demonstrate characteristic temporal lobe signal abnormalities in HSV encephalitis (see Figure 2.8-9). ■ CSF shows lymphocytic pleocytosis and moderately ↑ protein. The glucose level is low in tuberculous, fungal, bacterial, and amebic infections. ■ CSF Gram stain (bacteria), acid-fast stain (mycobacteria), India ink stain (Cryptococcus), cultures for all organism types, and PCR for HSV, CMV, EBV, VZV, and enterovirus. Obtain West Nile IgM serologies. Consider a wet preparation (free-living amebae) and a Giemsa stain (trypanosomes) if the history is suggestive. Treatment ■ HSV encephalitis: Requires immediate IV acyclovir. Foscarnet if resistant. ■ CMV encephalitis: Treat with IV ganciclovir ± foscarnet.

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F I G U R E 2 . 8 - 9 .   HSV encephalitis. Coronal FLAIR image of a young man with HSV encephalitis shows the characteristic MRI pattern within the cortex of the right temporal lobe (circle). The left temporal lobe is also involved (arrow), but to a lesser extent. (Reproduced with permission from Fauci AS, et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

Give doxycycline for suspected Rocky Mountain spotted fever or ehrlichiosis. Treat Lyme encephalitis with ceftriaxone.

BRAIN ABSCESS

A focal, suppurative infection of the brain parenchyma, usually with a “ringenhancing” appearance caused by fibrous capsule (see Figure 2.8-10). The most common pathogens are streptococci, staphylococci, and anaerobes; 80–90% are polymicrobial. Nonbacterial causes include Toxoplasma and Candida; Aspergillus and zygomycosis should be considered in immunocompromised hosts, and neurocysticercosis should be considered in relevant epidemiologic settings (Central and South America, sub-Saharan Africa and Asia). Modes of transmission include the following: Direct spread: Caused by paranasal sinusitis (10% of cases; frequently affects young men, and often caused by Streptococcus milleri), otitis media or mastoiditis (33%), or dental infection (2%). ■ Direct inoculation: History of head trauma or neurosurgical procedures. ■ Hematogenous spread (25% of cases): Often shows a middle cerebral artery distribution with multiple abscesses that are poorly encapsulated and located at the gray-white junction.

FIGURE 2.8-10. 

Brain abscess.

Post–contrast MRI of the brain shows ring-enhancing lesions in the lateral right frontal lobe, with “daughter” lesions (smaller adjacent rings of enhancement) also noted. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT

History/PE Headache (most common), drowsiness, inattention, confusion, and seizures are early symptoms, followed by signs of increasing ICP and then a focal neurologic deficit (CN III and IV deficits). Diagnosis ■ CT scan will show a ring-enhancing lesion with a low-density core. ■ Most accurate test: MRI has a higher sensitivity for early abscesses and posterior fossa lesions. ■ CSF analysis is not necessary and may precipitate brainstem herniation. ■ Lab values may show peripheral leukocytosis, ↑ erythrocyte sedimentation rate (ESR), and ↑ C-reactive protein (CRP).

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The classic clinical triad of headache, fever, and a focal neurologic deficit is present in 50% of cases of brain abscess.

A 19-year-old college student is brought to the ED from her dorm room, where she was found by her roommate in a confused state. She complains of fever, nausea, vomiting, and pain in her neck and head. She has a petechial rash on her legs. CSF exam reveals a glucose level of 22 mg/dL, a protein level of 140mg/dL, and a WBC count of 1400/mm3. What is the most likely organism responsible for her condition?

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KEY FACT In general, do not perform LP on a patient with a mass lesion in the brain because of the potential, but lifethreatening risk for uncal herniation.

MNEMONIC

INFECTIOUS DISEASE Treatment ■ IV antibiotics: Metronidazole + a third-generation cephalosporin ± vancomycin for 6–8 weeks. Obtain serial CT/MRIs to follow resolution. Lesions < 2 cm can often be treated medically. ■ Surgical drainage (aspiration or excision) if necessary for diagnostic and/or therapeutic purposes. ■ Dexamethasone with taper may be used in severe cases to ↓ cerebral edema; IV mannitol may be used to ↓ ICP. Prophylactic anticonvulsants should be given. BOTULISM

AIDS pathogens—

The Major Pathogens Concerning Complete T-Cell Collapse Toxoplasma gondii Mycobacterium avium–intracellulare Pneumocystis jirovecii Candida albicans Cryptococcus neoformans Tuberculosis CMV Cryptosporidium parvum

KEY FACT If a pregnant HIV ⊕ patient is not on ART at the time of delivery, she should be treated with zidovudine (ZDV) intrapartum. Infants should receive ZDV for 6 weeks after birth.

KEY FACT CMV retinitis is painless with fluffy, granular hemorrhages. In contrast, HSV or VZV causes severe, painful inflammation that can lead to acute retinal necrosis syndrome with widespread, pale, and necrotic retinas.

Symmetric descending paralysis caused by ingestion of Clostridium botulinum spores or exposure to spores in soil of endemic regions (California, Utah). Treat with IV botulism immune-globulin and respiratory support. Consider in any infant with bulbar palsies, ptosis, constipation, or hypotonia. Avoid giving honey to young infants to avoid risk for botulism.

Human Immunodeficiency Virus A retrovirus that targets and destroys CD4+ T lymphocytes. Infection is characterized by a high rate of viral replication that leads to a progressive decline in CD4+ count (see Figure 2.8-11). CD4+ count: Indicates the degree of immunosuppression; guides therapy and prophylaxis, and helps determine prognosis. ■ Viral load: May predict the rate of disease progression; provides indications for treatment and gauges response to antiretroviral therapy (ART). ■

History/PE ■ Acute HIV infection (acute infection/seroconversion, acute retroviral syndrome) occurs days to weeks after exposure. The initial infection is often asymptomatic, but patients may also present with mononucleosis-like or flulike symptoms (eg, fever, lymphadenopathy, maculopapular rash, pharyngitis, diarrhea, nausea/vomiting, weight loss, headache). ■ HIV infection can later present as night sweats, weight loss, thrush (see Figure 2.8-12), recurrent infections, or opportunistic infections. Complications are inversely correlated with CD4+ count (see Figure 2.8-13).

ACUTE

LATENT

IMMUNODEFICIENCY

CD4 lymphocytes

Neisseria meningitidis. Suspect meningococcal meningitis in a very ill patient with fever, headache, altered mental status, a petechial rash in the lower extremities, and a CSF profile indicative of bacterial meningitis.

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Virus, p24 antigen 0

1

2

3 Months

4

5

6

3 – ≥10 Years

F I G U R E 2 . 8 - 1 1 .   Time course of HIV infection. Note that the level of CD4 lymphocytes (red curve) remains normal for many years but then declines, resulting in the immunodeficiency stage, which is characterized by opportunistic infections and malignancies.

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INFECTIOUS DISEASE Diagnosis ■ ELISA test (high sensitivity, moderate specificity): Detects anti-HIV antibodies in the bloodstream (can take up to 6 months to appear after exposure). ■ Western blot (low sensitivity, high specificity): Confirmatory. ■ Rapid HIV tests are now available. ■ Baseline evaluation should include HIV RNA PCR (viral load), CD4+ cell count, CXR, PPD skin test or interferon-gamma release assay, Pap smear, mental status exam, VDRL/RPR, and serologies for CMV, viral hepatitis, toxoplasmosis, and VZV. ■ Evaluation for acute retroviral syndrome (acute HIV) should include HIV RNA PCR (viral load); ELISA may be ⊝. Treatment ■ Lifelong ART for all HIV-infected patients, regardless of CD4+ count or associated symptoms/illnesses, especially benefitting those with CD4+ 200 mm3). Do not give oral polio vaccine to HIV ⊕ patients or their contacts.

KEY FACT Common AIDS-defining illnesses: ■ Esophageal candidiasis. ■ CMV retinitis. ■ Kaposi sarcoma (human herpesvirus-8) (see Figure 2.8-14). ■ CNS lymphoma, toxoplasmosis, PML. ■ P jirovecii pneumonia or recurrent bacterial pneumonia. ■ HIV encephalopathy. ■ Disseminated mycobacterial or fungal infection. ■ Invasive cervical cancer or anal cancer in HPV ⊕ patient.

200 Pneumocystosis Toxoplasmosis Cryptococcosis Coccidioidomycosis Cryptosporidiosis 50

Disseminated MAC infection Histoplasmosis CMV retinitis CNS lymphoma

F I G U R E 2 . 8 - 1 3 .   Relationship of CD4+ count to development of opportunistic infections. (Reproduced with permission from USMLE-Rx.com.)

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F I G U R E 2 . 8 - 1 4 .   Kaposi sarcoma (HHV-8). A neoplasm of endothelial

cells seen in HIV/AIDS and transplant patients. (Reproduced courtesy of the U.S. Department of Health and Human Services.)

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Prophylaxis for HIV-Related Opportunistic Infection

Pathogen

Indication for Prophylaxis

P jirovecii pneumonia

CD4+ < 200/mm3, prior

High-dose IV TMP-SMX + tapered-dose

Discontinue prophylaxis when CD4+

Pjirovecii infection

steroids

is > 200/mm3 for ≥ 3 months

CD4+ < 50–100/mm3

Weekly azithromycin

Discontinue prophylaxis when CD4+

Mycobacterium avium

Treatment

Notes

is > 100/mm3 for > 6 months

complex (MAC) Toxoplasma gondii

CD4+ < 100/mm3 +

Double-strength TMP-SMX

PPD > 5 mm or “high

INH for 9 months (+ pyridoxine) or rifampin

Include pyridoxine with INH-

risk” (see TB section)

for 4 months

containing regimens

Esophagitis: fluconazole

⊕ IgG serologies M tuberculosis

Candida

Multiple recurrences

Oral: fluconazole or nystatin swish and swallow HSV

Multiple recurrences

Daily suppressive acyclovir, famciclovir, or

valacyclovir S pneumoniae

All patients

PCV13 followed by PSV23 in 2 months

Give every 5 years provided that CD4+ is > 200/mm3

Influenza

All patients

Influenza vaccine annually

possible with a basic two-drug regimen or an expanded regimen of three or more drugs for 4 weeks, depending on the severity of the source infection. Table 2.8-9 outlines prophylactic measures against opportunistic infections.

Opportunistic Infections Figure 2.8-15 illustrates the microscopic appearance of some common opportunistic organisms. OROPHARYNGEAL CANDIDIASIS (THRUSH)

Risk factors: Xerostomia, antibiotic use, denture use, and immunosuppression (eg, HIV, leukemias, lymphomas, cancer, diabetes, corticosteroid inhaler use, immunosuppressive treatment).

Pseudohyphae and budding yeast

45° angle branching septate hyphae

5–10 µm yeasts with wide capsular halo

Irregular broad (empty-looking) nonseptate hyphae, wide-angle branching

Rare fruiting bodies

Narrow-based unequal budding

Germ tubes at 37°C Candida FIGURE 2.8-15. 

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Aspergillus

Crytococcus

Mucor

Common opportunistic organisms. (Reproduced with permission from USMLE-Rx.com.)

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Hx/PE: Presents with soft white plaques that can be rubbed off, with an erythematous base and possible mucosal burning. The differential diagnosis includes oral hairy leukoplakia (affects the lateral borders of the tongue; not easily rubbed off). Odynophagia is characteristic of candidal esophagitis. ■ Dx: Usually clinical. KOH or Gram stain shows budding yeast and/or pseudohyphae. ■ Tx: Treat thrush with local therapy (eg, nystatin suspension, clotrimazole tablets, or a PO azole such as fluconazole). Treat candidal esophagitis with PO azole therapy. ■

CRYPTOCOCCAL MENINGITIS

Risk factors: AIDS, exposure to pigeon droppings. Hx/PE: Presents with headache, fever, impaired mentation, signs of increased ICP, and absent meningeal signs. The differential diagnosis includes toxoplasmosis, lymphoma, TB meningitis, AIDS dementia complex, PML, HSV encephalitis, and other fungal disease. ■ Dx: LP (↓ CSF glucose; ↑ protein; ↑ leukocyte count with monocytic predominance, ↑↑ opening pressure); ⊕ cryptococcal antigen testing in CSF and/or blood, CSF India ink stain, and fungal culture. ■ Tx: ■ IV amphotericin B + flucytosine for 2 weeks; then fluconazole for 8 weeks. Lifelong maintenance therapy should be administered with fluconazole until symptoms resolve and CD4+ is > 100/mm3 for > 1 year. ■ ↑ Opening pressure may require serial LPs or a ventriculoperitoneal shunt for management. ■ ■

KEY FACT The CSF antigen test for cryptococcal meningitis is highly sensitive and specific.

HISTOPLASMOSIS

Risk factors include HIV/AIDS, spelunking, and exposure to bird or bat excrement, especially in the Ohio and Mississippi river valleys (see Figure 2.8-16).

Blastomycosis Histoplasmosis Coccidioidomycosis

F I G U R E 2 . 8 - 1 6 .   Geographic distribution of systemic fungal infection in the United States. (Reproduced with permission from Ryan KJ, Ray CG. Sherris Medical Microbiology, 5th ed. New York, NY: McGraw-Hill; 2010.)

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  Differential Diagnosis of Opportunistic Pulmonary Fungal Infections

Histoplasmosis

Coccidioidomycosis

Blastomycosis

Disseminated

Hepatosplenomegaly, lymphadenop-

Meningitis, bone lesions, abscesses, ery-

Meningitis, bone, prostate, and skin

disease

athy, nonproductive cough

thema nodosum

lesions, ARDS

Diagnosis

Urine and serum polysaccharide antigens

PCR assay of bronchiolar lavage and

Culture shows broad-budding yeast

tissue samples

F I G U R E 2 . 8 - 1 7 .   Histiocyte macrophage containing numerous yeast cells of Histoplasma capsulatum (Giemsa stain). (Reproduced courtesy of Dr. DT McClenan, Centers for Disease Control and Prevention, Atlanta, GA.)

KEY FACT Nocardia is a partially acid-fast, gram⊕, branching rod found in soil that is a common cause of lung and CNS infection in immunocompromised hosts. TMP-SMX is the treatment of choice (see Figure 2.8-18).

History/PE ■ 1° Exposure is often asymptomatic or causes a flulike illness. ■ Presentation may range from no symptoms to fulminant disease with pulmonary and/or extrapulmonary manifestations. ■ Fever, weight loss, hepatosplenomegaly, lymphadenopathy, nonproductive cough, palatal ulcers, and pancytopenia indicate disseminated infection (most often within 14 days). ■ The differential diagnosis includes atypical bacterial pneumonia, blastomycosis, coccidioidomycosis, TB, sarcoidosis, pneumoconiosis, and lymphoma (see Table 2.8-10). Diagnosis ■ CXR shows diffuse nodular densities, focal infiltrate, cavity, or hilar lymphadenopathy (chronic infection is usually cavitary). ■ Urine and serum polysaccharide antigen tests are the most sensitive for making the initial diagnosis of disseminated disease, monitoring response to therapy, and diagnosing relapse. Culture is also diagnostic (blood, sputum, bone marrow, CSF). ■ The yeast form is seen with special stains on biopsy (bone marrow, lymph node, liver) or bronchoalveolar lavage (see Figure 2.8-17). Treatment ■ Mild pulmonary disease or stable nodules: Treat supportively in the immunocompetent host. Consider itraconazole. ■ Chronic cavitary lesions: Give itraconazole for > 1 year. ■ Severe acute pulmonary disease or disseminated disease: Liposomal amphotericin B or amphotericin B for 14 days followed by itraconazole for 1 year or longer. Lifelong maintenance therapy with daily itraconazole may be necessary. COCCIDIOIDOMYCOSIS

F I G U R E 2 . 8 - 1 8 .   Nocardia. Branching filaments on acid-fast stain. (Modified

A pulmonary fungal infection endemic to the southwestern United States (see Figure 2.8-16). Can present as an acute or subacute pneumonia or as a flulike illness, and may involve extrapulmonary sites, including bone, CNS, and skin (manifestations include erythema multiforme or erythema nodosum). The incubation period is 1–4 weeks after exposure. Filipino, African-American, pregnant, and HIV ⊕ patients are at ↑ risk for disseminated disease.

with permission from Leli C, et al. Fatal Nocardia farcinica bacteremia diagnosed by matrix-assisted laser desorption-ionization time of flight mass spectrometry in a patient with myelodysplastic syndrome treated with corticosteroids. Case Rep Med. 2013;2013:368637.)

History/PE Patients present with fever, anorexia, headache, chest pain, cough, dyspnea, arthralgias, and night sweats. Disseminated infection can present with meningitis, bone lesions, and soft tissue abscesses.

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Diagnosis ■ Serology is specific but not sensitive during the first 1–2 weeks after infection. Repeat testing can increase sensitivity, and can be confirmed with immunodiffusion testing. ■ PCR assays of respiratory specimens have been developed that are highly sensitive and specific. ■ Obtain bronchoalveolar lavage and fungal cultures of sputum, wound exudate, or other affected tissue. Cultures are usually only obtained in hospitalized patients or patients with severe disease, and growth can take days to weeks. ■ Identify Coccidioides immitis spherules on hematoxylin and eosin (H&E) stain or other special sputum or tissue stains. ■ CXR findings may be normal or show infiltrates, nodules, cavities, mediastinal or hilar adenopathy, or pleural effusion.

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KEY FACT Consider coccidioidomycosis in a patient from the southwestern United States who presents with respiratory infection. HIV ⊕, Filipino, AfricanAmerican, and pregnant patients are at ↑ risk for disseminated disease.

Treatment ■ Acute: PO fluconazole or itraconazole for mild infection. IV amphotericin B only for severe or protracted 1° pulmonary infection and disseminated disease, followed by PO azole therapy once stable. ■ Chronic: No treatment is needed for asymptomatic chronic pulmonary nodules or cavities. Progressive cavitary or symptomatic disease usually requires surgery plus long-term azole therapy for 8–12 months. BLASTOMYCOSIS

A fungal infection endemic to the central and southeastern United States, particularly the Mississippi and Ohio river valleys. Hx/PE: Presents similarly to coccidioidomycosis, and typically has extrapulmonary involvement in the bone, prostate, and skin. ■ Dx: Serologic tests are not sensitive enough; culture is the only way to definitively diagnose, and a sputum smear will show broad-budding yeast. ■ Tx: Treat symptomatic patients with itraconazole, and consider inpatient treatment with amphotericin B and ICU admission if complicated by ARDS, meningitis, or other systemic involvement. ■

PNEUMOCYSTIS JIROVECII PNEUMONIA

Formerly known as Pneumocystis carinii pneumonia, or PCP. Risk factors include impaired cellular immunity and AIDS. History/PE ■ Presents with dyspnea on exertion, fever, nonproductive cough, tachypnea, weight loss, fatigue, and impaired oxygenation. Typically, symptoms have been present for weeks. ■ Can also present as disseminated disease or as local disease in other organ systems. ■ The differential diagnosis includes TB, histoplasmosis, and coccidioido­ mycosis. Diagnosis ■ Diagnosed by cytology of induced sputum or bronchoscopy specimen with silver stain and immunofluorescence (see Figure 2.8-19A). Obtain an ABG to check Pao2.

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A 35-year-old HIV-infected man from Ohio presents to his primary care provider with low-grade fever, dry cough, malaise, and a 5-lb weight loss over the past month. He is adherent to his HIV medications. Physical exam shows hepatosplenomegaly and palatal ulcers. His CBC reveals pancytopenia, and a CXR shows hilar lymphadenopathy. What is the next most appropriate step in management?

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A

B

F I G U R E 2 . 8 - 1 9 .   Pneumocystis pneumonia. (A) Lung tissue stained with silver uncovers folded cysts containing comma-shaped spores. (B) Frontal CXR shows diffuse “ground-glass” lung opacities characteristic of PCP in this patient with AIDS and a CD4+ count of 26. (Image A reproduced with permission from Ryan KJ, Ray CG. Sherris Medical Microbiology, 5th ed. New York, NY: McGraw-Hill; 2010. Image B reproduced with permission from USMLE-Rx.com.)

CXR most commonly shows diffuse, bilateral interstitial infiltrates with a ground-glass appearance (see Figure 2.8-19B), but any presentation is possible.

Treatment ■ Treat with high-dose TMP-SMX for 21 days. ■ Use a prednisone taper in patients with moderate to severe hypoxemia (Pao2 < 70 mm Hg or an alveolar-arterial oxygen gradient > 35). CYTOMEGALOVIRUS

Seventy percent of adults in the United States have been infected with CMV, and most are asymptomatic; reactivation generally occurs in immunocompromised patients. Transmission occurs via sexual contact, vertical transmission, breast milk, respiratory droplets in nursery or day care facilities, and blood transfusions. ■ Risk factors for reactivation include the first 100 days status post tissue or bone marrow transplant and HIV/AIDS (CD4+ < 50/mm3 or viral load >10,000 copies). ■

Liposomal amphotericin B followed by itraconazole. The patient has clinical features of disseminated histoplasmosis (fever, malaise, weight loss, pancytopenia, hepatosplenomegaly, palatal ulcers).

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History/PE ■ Systemic infection may resemble EBV mononucleosis (see the discussion of infectious mononucleosis). ■ Specific manifestations include the following: ■ CMV retinitis: Associated with retinal detachment (“pizza pie” retinopathy); presents with floaters and visual field changes (CD4+ < 50/ mm3). ■ GI and hepatobiliary involvement: Can present with multiple nonspecific GI symptoms, including bloody diarrhea and abdominal pain. CMV, microsporidia, and cryptosporidia have been implicated in the development of AIDS cholangiopathy. ■ CMV esophagitis: Typically presents with odynophagia and shallow ulcers on the distal esophagus (CD4+ < 50/mm3). ■ CMV pneumonitis: Presents with cough, fever, and sparse sputum production; associated with a high mortality rate. Much more common

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in patients with hematologic malignancies and transplant patients than in those with AIDS. ■ CNS involvement: Can include polyradiculopathy, transverse myelitis, and subacute encephalitis (CD4+ < 50/mm3; periventricular calcifications). Diagnosis Virus isolation, culture, tissue histopathology, serum PCR. Treatment Treat with ganciclovir, valganciclovir, or foscarnet. Treat underlying disease if the patient is immunocompromised. MYCOBACTERIUM AVIUM COMPLEX

Ubiquitous organisms causing pulmonary and disseminated infection in several demographic groups. The 1° pulmonary form occurs in apparently healthy nonsmokers (Lady Windermere syndrome); a 2° pulmonary form affects patients with preexisting pulmonary disease such as COPD, TB, or CF. Disseminated infection occurs in AIDS patients with a CD4+ < 50/mm3. History/PE ■ Disseminated M avium infection in AIDS is associated with fever, weakness, and weight loss in patients who are not on highly active ART (HAART) or chemoprophylaxis for MAC. ■ Hepatosplenomegaly and lymphadenopathy are occasionally seen. ■ Adrenal insufficiency is possible in the setting of adrenal infiltration. Diagnosis ■ Obtain mycobacterial blood cultures (⊕ in 2–3 weeks). ■ Labs show anemia, hypoalbuminemia, and ↑ serum alkaline phosphatase and LDH. ■ Biopsy of lung, bone marrow, intestine, or liver reveals foamy macrophages with acid-fast bacilli. Typical granulomas may be absent in immunocompromised patients. Treatment Treat with clarithromycin + ethambutol, and consider HAART if drug-naïve. Rifabutin is second line. Continue for > 12 months and until CD4+ is >100/mm3 for > 6 months. Prevention Weekly azithromycin for those with a CD4+ < 50/mm3 or AIDS-defining opportunistic infection. TOXOPLASMOSIS

Risk factors include ingesting raw or undercooked meat and changing cat litter. History/PE ■ 1° Infection is usually asymptomatic. ■ Reactivated toxoplasmosis occurs in immunosuppressed patients and may present in specific organs (brain, lung, and eye > heart, skin, GI tract, and liver).

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A 27-year-old man with HIV presents to his primary-care physician with fever, night sweats, weight loss, and diarrhea. Today his CD4+ count is 25 cells/mm3. A CBC is performed and is significant for anemia (a hemoglobin level of 8 mg/dL). Other labs show hypoalbuminemia and elevated alkaline phosphatase. What could have prevented this patient’s condition?

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Encephalitis is common in seropositive AIDS patients. Classically, CNS lesions present with fever, headache, altered mental status, seizures, and focal neurologic deficits.

Diagnosis ■ Serology, PCR (indicates exposure and risk for reactivation); tissue exam for histology, isolation of the organism in mice, or tissue culture. ■ In the setting of CNS involvement, obtain a CT scan (see Figure 2.8-20) (look for multiple isodense or hypodense ring-enhancing mass lesions) or an MRI (has a predilection for the basal ganglia; more sensitive).

F I G U R E 2 . 8 - 2 0 .   Toxoplasmosis. (Modified with permission from Rabhi S, Amrani K, Maaroufi M, et al. Hemichorea-hemiballismus as an initial manifestation in a Moroccan patient with acquired immunodeficiency syndrome and toxoplasma infection: a case report and review of the literature. The Pan Afr Med J. 2011;10:9.)

Treatment ■ Most accurate treatment: Induction with high-dose PO pyrimethamine + sulfadiazine and leucovorin (a folic acid analog to prevent hematologic toxicity) for 4–8 weeks; maintenance with a low-dose regimen until the disease has resolved clinically and radiographically. ■ TMP-SMX (Bactrim DS) or pyrimethamine + dapsone can be used for prophylaxis in patients with a CD4+ count < 100/mm3 and a ⊕ toxoplasmosis IgG.

Sexually Transmitted Diseases CHLAMYDIA

KEY FACT Ring-enhancing lesions in patients with AIDS should always prompt consideration of toxoplasmosis and CNS lymphoma.

KEY FACT Chlamydia species cause arthritis, neonatal conjunctivitis, pneumonia, nongonococcal urethritis/PID, and LGV.

Azithromycin. The patient has signs and symptoms of disseminated Mycobacterium avium complex. HIV-infected patients with CD4+ counts < 50 cells/mm3 should receive prophylaxis against MAC with azithromycin once a week.

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The most common bacterial STD in the United States. Caused by Chlamydia trachomatis, which can infect the genital tract, urethra, anus, and eye. Risk factors include unprotected sexual intercourse and new or multiple partners. Often coexists with or mimics N gonorrhoeae infection (known as nongonococcal urethritis when gonorrhea is absent). Lymphogranuloma venereum (LGV) serovars of C trachomatis cause lymphogranuloma venereum, an emerging cause of proctocolitis. History/PE ■ Infection is often asymptomatic in men and may present with urethritis, mucopurulent cervicitis, or pelvic inflammatory disease (PID) in women. ■ Exam may reveal cervical/adnexal tenderness in women or penile discharge and testicular tenderness in men. ■ The differential diagnosis includes gonorrhea, endometriosis, PID, orchitis, vaginitis, and UTI. ■ Lymphogranuloma venereum presents in its 1° form as a painless, transient papule or shallow ulcer. In its 2° form, it presents as painful swelling of the inguinal nodes, and in its 3° form it can present as an “anogenital syndrome” (anal pruritus with discharge, rectal strictures, rectovaginal fistula, and elephantiasis). Diagnosis ■ Diagnosis is usually clinical; culture is the gold standard. ■ Urine tests (nucleic acid amplification test) are a rapid means of detection, whereas DNA probes and immunofluorescence (for gonorrhea/chlamydia) take 48–72 hours. ■ Gram stain of urethral or genital discharge may show PMNs but no bacteria (intracellular). Treatment ■ Doxycycline for 7 days or azithromycin once. Use azithromycin or amoxicillin in pregnant patients.

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Treat sexual partners, and maintain a low threshold to treat for N gonorrhoeae. LGV serovars require prolonged therapy for 21 days.

Complications ■ Chronic infection and pelvic pain, Reiter syndrome (urethritis, conjunctivitis, arthritis), Fitz-Hugh–Curtis syndrome (perihepatic inflammation and fibrosis). See Figures 2.8-21 and 2.8-22. ■ Ectopic pregnancy/infertility can result from PID (in women) and epididymitis (in men). GONORRHEA

A gram ⊝ intracellular diplococcus that can infect almost any site in the female reproductive tract. Infection in men tends to be limited to the urethra.

F I G U R E 2 . 8 - 2 1 .   Purulent cervical discharge in pelvic inflammatory disease. (Adapted with permission from SOS-AIDS Amsterdam.)

History/PE ■ Presents with a greenish-yellow discharge, pelvic or adnexal pain, and swollen Bartholin glands. Men experience a purulent urethral discharge, dysuria, and erythema of the urethral meatus. ■ The differential diagnosis includes chlamydia, endometriosis, pharyngitis, PID, vaginitis, UTI, salpingitis, and tubo-ovarian abscess. Diagnosis ■ Gram stain and culture is the gold standard for any site (pharynx, cervix, urethra, or anus). Nucleic acid amplification tests can be sent on penile/ vaginal tissue or from urine. ■ Disseminated disease may present with monoarticular septic arthritis, rash, and/or tenosynovitis. See Figures 2.8-23 and 2.8-24. Treatment ■ Ceftriaxone IM and azithromycin PO (regardless of whether chlamydia is present). Condoms are effective prophylaxis. Treat the sexual partner or partners if possible. Fluoroquinolones should not be used because of emerging resistance. ■ Disseminated disease requires IV ceftriaxone for at least 24 hours.

KEY FACT Treat gonorrhea with two agents because of the high prevalence of resistance.

F I G U R E 2 . 8 - 2 2 .   Adhesions in Fitz-Hugh–Curtis syndrome in pelvic inflammatory disease. Note the adhesions (arrow) extending from the peritoneum to the surface of the liver. (Reproduced with permission from Hic et nunc.)

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F I G U R E 2 . 8 - 2 3 .   Disseminated gonococcal infection. Hemorrhagic, painful pustules are seen on erythematous bases. (Reproduced with permission from Wolff K, et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008.)

Complications Persistent infection with pain; infertility; tubo-ovarian abscess with rupture; disseminated gonococcal infection (characterized by migratory polyarthralgia, tenosynovitis, and pustular skin lesions) (see Figure 2.8-24). SYPHILIS

Caused by Treponema pallidum, a spirochete. AIDS can accelerate the course of disease progression. History/PE ■ 1° (10–90 days after infection): Presents with a painless ulcer (chancre; see Figure 2.8-25A) and local lymphadenopathy. ■ 2° (4–8 weeks after chancre): Presents with low-grade fever, headache, malaise, and generalized lymphadenopathy with a diffuse, symmetric, asymptomatic (nonpruritic) maculopapular rash on the soles and palms (see Figure 2.8-25C, D). Highly infective 2° eruptions include mucous patches called condylomata lata (see Figure 2.8-25E) and alopecia. Meningitis, hepatitis, nephropathy, and eye involvement may also be seen. ■ Early latent (period from resolution of 1° or 2° syphilis to the end of the first year of infection): No symptoms; ⊕ serology.

F I G U R E 2 . 8 - 2 4 .   Neisseria gonorrhoeae joint infection. (Reproduced with permission from Susan Lindsley, Public Health Image Library, Centers for Disease Control and Prevention, Atlanta, GA.)

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A

B

C

D

E

F

G

H

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F I G U R E 2 . 8 - 2 5 .   Syphilis. (A) Localized disease presenting with painless chancre and (B) dark-field microscopy visualizing treponemes in fluid from chancre in 1° syphilis. (C) Maculopapular rash ([D] including palms and soles) and (E) condylomata lata in 2° syphilis. (F)Gummas (chronic granulomas) in 3° syphilis. (G) Rhagades (linear scars at angle of mouth), snuffles (nasal discharge), saddle nose, and (H) notched (Hutchinson) teeth in congenital syphilis. (Image A reproduced courtesy of U.S. Department of Health and Human Services and M. Rein. Image B reproduced courtesy of U.S. Department of Health and Human Services and Renelle Woodall. Image C reproduced with permission from Dr. Richard Usatine. Image D reproduced courtesy of the U.S. Department of Health and Human Services and Robert Sumpter. Images E and H reproduced courtesy of US Department of Health and Human Services and Susan Lindsley. Image F modified with permission from Chakir K, Benchikhi H. Centro-facial granuloma revealing a tertiary syphilis. Pan Afr Med J. 2013;15:82. Image G reproduced courtesy of the U.S. Department of Health and Human Services and Dr. Norman Cole.)

Late latent (period of asymptomatic infection beyond the first year): No symptoms; ⊕ or ⊝ serology. One-third of cases progress to 3° syphilis. ■ 3° (late manifestations appearing 1–20 years after initial infection): Presents with destructive, granulomatous gummas (see Figure 2.8-25F). Neurosyphilis includes tabes dorsalis (posterior column degeneration), meningitis, and Argyll Robertson pupil (constricts with accommodation but not reactive to light). Cardiovascular findings include dilated aortic root, aortitis, aortic root aneurysms, and aortic regurgitation. ■

KEY FACT

Diagnosis ■ Table 2.8-11 summarizes relevant diagnostic tests. ■ Venereal disease research laboratory (VDRL) test: False ⊕ results are seen with viruses (mononucleosis, HSV, HIV, hepatitis), drugs/IV drug use, rheumatic fever/rheumatoid arthritis, and SLE/leprosy. ■ Neurosyphilis should be suspected and ruled out in patients with AIDS, neurologic symptoms, and a ⊕ rapid plasma reagin (RPR) test.

Syphilis is the “great imitator” because its dermatologic findings resemble those of many other diseases.

Treatment ■ 1°/2°: Benzathine penicillin IM for one dose. Tetracycline or doxycycline for 14 days may be used for patients with penicillin allergy. Pregnant patients who are penicillin allergic and have ⊕ antibody titers must be desensitized and treated with penicillin. ■ Latent infection: Treat with benzathine penicillin. Give one dose for early latent infection; give a weekly dose for 3 weeks for late latent infection or for asymptomatic infection of unknown duration.

Treatment of syphilis can result in an acute flulike illness (headache, fever, chills, myalgias) known as the JarischHerxheimer reaction, which results from the release of endotoxins by the killed organisms.

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KEY FACT

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TA B L E 2.8 - 11. 

Diagnostic Tests for Syphilis

Test

Comments

Dark-field microscopy

Identifies motile spirochetes (only 1° and 2° lesions)

VDRL/RPR

Nontreponemal tests Rapid and cheap, but sensitivity is only 75–85% in 1° disease Many false ⊕ results Used for screening and quantitative measurement

KEY FACT

FTA-ABS, TP-PA,

Treponemal tests

MHA-TP, TP-EIA

Sensitive and specific Used as confirmatory tests

Genital lesions caused by Haemophilus “do cry,” and herpes lesions are painful. Syphilis and the others are painless.

KEY FACT In a patient with a nonhealing ulcerative lesion and inguinal lymphadenopathy with a ⊝ work-up for an STI, think cancer.

TA B L E 2.8 - 12. 

Neurosyphilis: Treat with penicillin IV for 10–14 days; penicillin-allergic patients should be desensitized before therapy.

GENITAL LESIONS

See Table 2.8-12 for a description of common sexually transmitted genital lesions along with an outline of their diagnosis and treatment.

Sexually Transmitted Genital Lesions

Variable

Klebsiella granulomatisa (granuloma inguinale)

Haemophilus ducreyi (chancroid)

Lesion

Papule becomes a

Papule or pustule

Vesicle (3–7 days postex-

Papule (condylo-

Papule (chancre) (see

beefy-red ulcer with

(chancroid) (see

posure) (see Image C)

mata acuminata,

Image E)

a characteristic rolled

Image B)

HSV-1 or HSV-2

HPV

b

c

Treponema pallidum (Syphilis)

warts) (see Image D)

edge of granulation tissue (see Image A) Appearance

Raised red lesions with

Irregular, deep, well

Regular, red, shallow

Irregular, pink

Regular, red, round,

a white border

demarcated, necrotic

ulcer

or white, raised;

raised

cauliflower Number

One or multiple

1–3

Multiple

Multiple

Single

Size

5–10 mm

10–20 mm

1–3 mm

1–5 mm

1 cm

Pain

No

Yes

Yes

No

No

Concurrent

Granulomatous ulcers

Inguinal

Malaise, myalgias, and

Pruritus

Regional

lymphadenopathy

fever with vulvar burning

signs and symptoms

adenopathy

and pruritus (continues)

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Sexually Transmitted Genital Lesions (continued)

Variable

Klebsiella granulomatisa (granuloma inguinale)

Haemophilus ducreyi (chancroid)

Diagnosis

Clinical exam, biopsy

Difficult to culture;

Tzanck smear shows

Clinical exam;

Spirochetes seen

(Donovan bodies)

diagnosis is made

multinucleated giant

shave biopsy only if

under dark-field

on clinical grounds,

cells (best initial test [see

uncertain

microscopy; T pal-

culture on special-

Image F]); viral cultures

lidum identified by

ized media

(most accurate test); DFA

serum antibody tests

HSV-1 or HSV-2b

HPVc

Treponema pallidum (Syphilis)

or serology Treatmentd

Doxycycline or

Single-dose azithro-

Acyclovir, famciclovir,

Cryotherapy, laser,

azithromycin

mycin or ceftriaxone

or valacyclovir for

or excision; topical

1°infection

agents such as

Foscarnet if resistant

Penicillin IM

podophyllotoxin, imiquimod, or trichloroacetic acid

A

D a

  B

  E

  C

  F

Previously known as Calymmatobacterium granulomatis.

b

Some 85% of genital herpes lesions are caused by HSV-2.

c

HPV serotypes 6 and 11 are associated with genital warts; types 16, 18, and 31 are associated with cervical cancer.

d

For all, treat sexual partners.

Image A reproduced with permission from Longo DL, et al. Harrison’s Principles of Internal Medicine, 18th ed. New York, NY: McGraw-Hill; 2012. Image B reproduced with permission from Wolff K, Johnson RA, Saavedra AP. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2013. Image C reproduced with permission from Wolff K, Johnson R, Saavedra A. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2013. Image D reproduced courtesy of Dr. Wiesner, Public Health Image Library, Centers for Disease Control and Prevention, Atlanta, GA. Image E reproduced courtesy of Public Health Image Library, Centers for Disease Control and Prevention, Atlanta, GA. Image F modified with permission from Yale Rosen.

Genitourinary Infections URINARY TRACT INFECTIONS

Affect women more frequently than men caused by shorter urethral length, and ⊕ E coli cultures are obtained in 80% of cases. See the mnemonic SEEKS PP for other pathogens. Risk factors include the presence of catheters

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MNEMONIC Common UTI bugs—

SEEKS PP Serratia E coli Enterobacter Klebsiella pneumoniae Staphylococcus saprophyticus Pseudomonas Proteus mirabilis

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or other urologic instrumentation, anatomic abnormalities (eg, BPH, vesicoureteral reflux), previous UTIs or pyelonephritis, diabetes, recent antibiotic use, sexual intercourse, immunosuppression, and pregnancy. History/PE ■ Present with dysuria, urgency, frequency, suprapubic pain, and hematuria. ■ Children may present with bedwetting, poor feeding, recurrent fevers, and foul-smelling urine. ■ Elderly patients may present with delirium/acute confusion and few other symptoms. ■ The differential diagnosis includes vaginitis, STDs, urethritis or acute urethral syndrome, and prostatitis. Diagnosis ■ Diagnosed by clinical symptoms. In the absence of symptoms, treatment is warranted only for children, patients with anatomic GU tract anomalies, pregnant women, those with instrumented urinary tracts, patients scheduled for GU surgery, and renal transplant patients. ■ Best initial test: Urine dipstick/urinalysis (UA); ↑ leukocyte esterase (a marker of WBCs) is 75% sensitive and up to 95% specific. ↑ Nitrites (a marker of bacteria), ↑ urine pH (Proteus infections), and hematuria (seen with cystitis) are also commonly seen. ■ Microscopic analysis: Pyuria (> 5 WBCs/hpf) and bacteriuria (1organism/hpf = 106 organisms/mL) are suggestive. ■ Most accurate test: Urine culture; the gold standard is > 105 CFU/mL. All children with suspected UTI should undergo urinalysis and culture. Use catheterization to obtain the sample in patients who are not toilettrained to avoid contamination.

KEY FACT Prostatitis can be differentiated from a UTI by prostate tenderness on exam. Urethral catheterization and prostate massage are highly contraindicated because they increase the likelihood of bacteremia. Treat with trimethoprim/ sulfamethoxazole (TMP/SMX) or ciprofloxacin for 6 weeks.

Treatment ■ Uncomplicated UTI: Treat on an outpatient basis with PO TMP-SMX or a fluoroquinolone for 3 days, or nitrofurantoin for 5 days. The use of fluoroquinolones should be reserved for severe symptoms in light of resistance and MRSA selection and risk for C difficile infection. ■ Complicated UTI (urinary obstruction, UTI in men, renal transplant, catheters, instrumentation): Administer the same antibiotics as above, but for 7–14 days. ■ Pregnant patients: Treat asymptomatic bacteriuria or symptomatic UTI with nitrofurantoin, oral cephalosporin, or amoxicillin for 3–7 days. Avoid fluoroquinolones, TMP-SMX, and tetracyclines. Confirm clearance with a posttreatment urine culture. ■ Urosepsis: Patients with urosepsis should be hospitalized and initially treated with IV antibiotics. Consider broader coverage to include resistant GNRs or enterococcus. ■ Prophylactic antibiotics may be given to women with uncomplicated recurrent UTIs. Check for prostatitis in men. Methenamine can also be used, which is converted to formaldehyde by acidic urine. PYELONEPHRITIS

Nearly 85% of community-acquired cases of pyelonephritis result from the same pathogens that cause cystitis. Cystitis and pyelonephritis have similar risk factors.

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History/PE Signs and symptoms are similar to those of cystitis but show evidence of upper urinary tract disease: flank or costovertebral pain, fever/chills, and nausea/ vomiting. Diagnosis ■ UA and culture: Results are similar to those of cystitis, but with WBC casts. Send blood cultures to rule out urosepsis. ■ CBC: Reveals leukocytosis. ■ Imaging: In general, imaging is not necessary. Patients who relapse or do not respond to therapy within 48–72 hours should be evaluated by ultrasound or CT for obstruction, abscess, and other complications.

KEY FACT Pyelonephritis is the most common serious medical complication of pregnancy. Among patients with untreated bacteriuria, 20–30% will develop pyelonephritis.

Treatment ■ For mild cases, patients may be treated on an outpatient basis for 7–14days. ■ Best initial treatment: Fluoroquinolones. Encourage ↑ PO fluids, and monitor closely. ■ Admit and administer IV antibiotics to patients who have serious medical complications or systemic symptoms, are pregnant, present with severe nausea and vomiting, or have suspected bacteremia. Fluoroquinolones, third- or fourth-generation cephalosporins, β-lactam/β-lactamase inhibitors, and carbapenem can be used depending on disease severity. ■ Abscesses ≥ 3 cm should be drained and cultured.

Hematologic Infections SEPSIS

The presence of systemic inflammatory response syndrome (SIRS) with a documented infection induced by microbial invasion or toxins in the bloodstream. Severe sepsis refers to sepsis with end-organ dysfunction caused by poor perfusion. Septic shock refers to sepsis with hypotension and organ dysfunction from vasodilation. Examples include the following: Gram ⊕ shock (eg, staphylococci and streptococci) 2° to fluid loss caused by exotoxins. ■ Gram ⊝ shock (eg, E coli, Klebsiella, Proteus, and Pseudomonas) 2° to vasodilation caused by endotoxins (lipopolysaccharide). ■ Neonates: GBS, E coli, Listeria monocytogenes, H influenzae. ■ Children: H influenzae, pneumococcus, meningococcus. ■ Adults: Gram ⊕ cocci, aerobic gram ⊝ bacilli, anaerobes (dependent on the presumed site of infection). ■ IV drug users/indwelling lines: S aureus, coagulase ⊝ Staphylococcus species. ■ Asplenic patients: Pneumococcus, H influenzae, meningococcus (encapsulated organisms). ■

KEY FACT Urosepsis should be considered in any elderly patient with altered mental status.

History/PE ■ Presents with abrupt onset of fever and chills, altered mental status, tachycardia, and tachypnea. Severe sepsis may lead to end-organ dysfunction such as renal or hepatic failure. Hypotension occurs in cases of septic shock.

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Septic shock is typically a warm shock with warm skin and extremities. This contrasts with cardiogenic shock, which typically presents with cool skin and extremities. ■ Petechiae, ecchymoses, or abnormal coagulation tests suggest DIC (2–3% of cases). ■

KEY FACT SIRS = two or more of the following: 1. Temperature: Either < 36°C ( 38°C (> 100.4°F) (ie, hypothermia or fever) 2. Tachypnea: > 20 bpm or Paco2 90 bpm 4. Leukocytosis/leukopenia: WBC count < 4000 cells/mm3 or >12,000 cells/mm3 or > 10% immature (band) forms

Diagnosis ■ Make a clinical diagnosis promptly based on SIRS criteria. ■ Labs show leukocytosis or leukopenia with ↑ bands, thrombocytopenia (50% of cases), evidence of ↓ tissue perfusion (↑ creatinine, ↑ LFTs, ↑ lactate), and abnormal coagulation studies (↑ INR). ■ It is critical to obtain cultures of all appropriate sites (eg, blood, sputum, CSF, wound, urine). ■ Imaging (CXR, CT) may aid in establishing the etiology or site of infection. Treatment ■ ICU admission may be required. Treat aggressively with IV fluids, empiric antibiotics (based on the likely source of infection), and vasopressors. ■ Treat underlying factors (eg, remove Foley catheter or infected lines, drain abscesses). ■ The 1° goal is to maintain BP and perfuse end organs. MALARIA

A protozoal disease caused by five species of the genus Plasmodium (P falciparum, P vivax, P ovale, P malariae, P knowlesi) and transmitted by the bite of an infected female Anopheles mosquito. P falciparum has the highest morbidity and mortality, occasionally within 24 hours of symptom onset. Travelers to endemic areas should take chemoprophylaxis and use mosquito repellent and bed nets to minimize exposure. History/PE ■ Patients have a history of exposure in a malaria-endemic area, with periodic attacks of sequential chills, fever (> 41°C, or > 105.8°F), myalgias, headache, and diaphoresis occurring over 4–6 hours. ■ Splenomegaly often appears 4 or more days after symptom onset. Patients are often asymptomatic between attacks, which recur every 2–3 days depending on the Plasmodium species involved. ■ Severely ill patients may present with hyperpyrexia, prostration, impaired consciousness, pulmonary edema, acidosis, hyperventilation, and bleeding. Rash, skin ulcer, eosinophilia, lymphadenopathy, neck stiffness, or photophobia suggests a different or additional diagnosis.

F I G U R E 2 . 8 - 2 6 .   Plasmodium falciparum hyperparasitemia in the thin smear of a patient with cerebral malaria. (Reproduced courtesy of Steven Glenn, Public Health Image Library, Centers for Disease Control and Prevention, Atlanta, GA.)

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Diagnosis ■ Timely diagnosis of the correct species is essential, because P falciparum can be fatal and is often resistant to standard chloroquine treatment. ■ Send Giemsa- or Wright-stained thick and thin blood films for evaluation to detect plasmodium and determine the species type, respectively, and the degree of parasitemia (see Figure 2.8-26). ■ CBC usually demonstrates normochromic, normocytic anemia with reticulocytosis and thrombocytopenia early in the disease.

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If resources allow, more sensitive serologic tests are available, including rapid antigen detection methods, fluorescent antibody methods, and PCR. ■ In patients with altered mental status, obtain a fingerstick glucose to rule out hypoglycemia.

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Treatment ■ Uncomplicated malarial infection can be treated orally. Chloroquine has historically been the standard antimalarial medication, but high resistance rates often necessitate the use of other medications such as mefloquine, atovaquone-proguanil, or artemisinins (for severe cases). ■ In cases of P vivax, P ovale, or an unknown species, primaquine is added to eradicate the hypnozoites in the liver. ■ For patients traveling to endemic regions, prescribe prophylaxis consisting of atovaquone-proguanil or mefloquine given at least 2 weeks before travel and continued for 4 weeks after returning.

KEY FACT Antimalaria contraindications: ■ Primaquine: must be tested for G6PD first. ■ Mefloquine: seizure, psychiatric, and cardiac conduction disorders. ■ Atovaquone/proguanil: pregnant/ breastfeeding, renal disease. ■ Chloroquine: psoriasis.

Complications Cerebral malaria, severe hemolytic anemia, renal impairment, noncardiogenic pulmonary edema, hypoglycemia, lactic acidosis, acute hepatopathy, gram ⊝ bacteremia. OTHER MOSQUITO-BORNE VIRUSES

The following viruses are carried by the Aedes mosquito and present with rash, fever, and myalgias: Chikungunya: Notably causes joint pain. Treat with supportive care. Dengue: Presents with bone pain and can be complicated by severe thrombocytopenia, bleeding, and shock. Findings of low WBC and ↑ LFTs. Treat with fluids and blood products as needed. ■ Zika: Flavivirus that causes conjunctivitis and headache. Associated with Guillain-Barré syndrome, and can cause microcephaly if infected during pregnancy. ■ ■

INFECTIOUS MONONUCLEOSIS

Most commonly occurs in young adult patients; usually caused by acute EBV infection. Transmission most often occurs through exchange of body fluids, most commonly saliva. History/PE ■ Presents with fever and pharyngitis (see Figure 2.8-27). Fatigue invariably accompanies initial illness and may persist for 3–6 months. Exam may reveal low-grade fever, generalized lymphadenopathy (especially posterior cervical), tonsillar exudate and enlargement, palatal petechiae, a generalized maculopapular rash, splenomegaly, and bilateral upper eyelid edema. Symptoms appear 2–5 weeks after infection. ■ In older children/adults, it may cause mesenteric lymphadenitis, mimicking appendicitis. ■ Patients who present with pharyngitis as their 1° symptom may be misdiagnosed with streptococcal pharyngitis (30% of patients with infectious mononucleosis are asymptomatic carriers of GAS in their oropharynx). ■ The differential diagnosis includes CMV, toxoplasmosis, HIV, HHV-6, other causes of viral hepatitis, and lymphoma.

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KEY FACT Cerebral malaria presents with headache, altered mental status, neurologic signs, retinal hemorrhages, convulsions, and delirium. If left untreated, it can rapidly progress to coma and death.

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FIGURE 2.8-27. 

KEY FACT Lymphocytosis in EBV infection is predominantly caused by B-cell proliferation, but the atypical cells are Tlymphocytes.

Pharyngitis. (Reproduced with permission from Dr. Richard Usatine.)

Diagnosis ■ Best initial test: Heterophile antibody (Monospot) test (may be ⊝ in the first few weeks after symptoms begin). ■ EBV-specific antibodies can be ordered in patients with suspected mononucleosis and a ⊝ Monospot test. Monospot ⊝ and EBV-antibody ⊝ infectious mononucleosis syndromes are most often caused by CMV infection. Acute HIV and other viral etiologies should be considered. ■ CBC with differential often reveals mild thrombocytopenia with relative lymphocytosis and > 10% atypical T lymphocytes. ■ Comprehensive metabolic panel usually reveals mildly elevated transaminases, alkaline phosphatase, and total bilirubin. Treatment Treatment is mostly supportive, as there is no effective antiviral therapy. Corticosteroids are indicated for airway compromise caused by tonsillar enlargement, severe thrombocytopenia, or severe autoimmune hemolytic anemia.

KEY FACT Patients with mononucleosis who are given ampicillin for suspected streptococcal pharyngitis may develop a prolonged, pruritic maculopapular rash.

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Complications ■ CNS infection: Can present as aseptic meningitis, encephalitis, meningoencephalitis, cranial nerve palsies (particularly CN VII), optic and peripheral neuritis, transverse myelitis, or Guillain-Barré syndrome. ■ Splenic rupture: Occurs in < 0.5% of cases. More common in men, and presents with abdominal pain, referred left shoulder pain, or hemodynamic compromise. Patients should avoid contact sports for at least 4 weeks to prevent this complication. ■ Upper airway obstruction: Treat with steroids. ■ Bacterial superinfection: Many patients develop a 2° streptococcal pharyngitis. ■ Fulminant hepatic necrosis: More common in men; the most common cause of death in affected men. ■ Autoimmune hemolytic anemia: Occurs in 2% of patients during the first 2 weeks. Coombs ⊕. Mild anemia lasts 1–2 months. Treat with corticosteroids if severe. ■ Nasopharyngeal carcinoma: Presents with epistaxis, headache and cervical lymph node spread; especially prevalent in southeast Asia.

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Fever FEVER OF UNKNOWN ORIGIN

A temperature of > 38.3°C (> 100.9°F) of at least 3 weeks’ duration that remains undiagnosed following three outpatient visits or 3 days of hospitalization. History/PE Presents with fever, headache, myalgia, and malaise. The differential diagnosis includes the following: Infectious: TB, endocarditis (eg, HACEK organisms; see the discussion of infective endocarditis), occult abscess (abdominal, prostatic), osteomyelitis, catheter infections, sinusitis. In HIV patients, consider MAC, histoplasmosis, or CMV. ■ Neoplastic: Lymphomas, leukemias, hepatic and renal cell carcinomas. ■ Autoimmune: Still disease, SLE, cryoglobulinemia, polyarteritis nodosa, connective tissue disease, granulomatous disease (including sarcoidosis). ■ Miscellaneous: Pulmonary emboli/DVT, IBD, alcoholic hepatitis, drug fever, familial Mediterranean fever, factitious fever. ■ Idiopathic (10–15%). ■

Diagnosis ■ Confirm the presence of fever, and take a detailed history, including family, social, sexual, occupational, dietary, exposures (pets/animals), and travel. ■ Labs: Obtain a CBC with differential, ESR, serum protein electrophoresis, multiple blood cultures, sputum Gram stain and culture, UA and culture, and PPD. Specific tests (ANA, RF, CK, viral cultures, viral serologies/antigen tests) can be obtained if an infectious or autoimmune etiology is suspected. ■ Imaging: Obtain an CXR. CT of the chest, abdomen, and pelvis should be done early in the work-up of a true FUO. Invasive testing (marrow/liver biopsy) is generally low yield. Laparoscopy and colonoscopy are higher yield as second-line tests (after CT). Treatment Stop unnecessary medications. Patients with FUO and a completely ⊝ workup have a favorable prognosis, with fevers resolving over months to years.

KEY FACT Overall, infections and cancer account for the majority of cases of fever of unknown origin (FUO) (> 60%). Autoimmune diseases account for ∼15%. In the elderly, rheumatic diseases account for one-third of cases.

1 A 45-year-old woman presents to the ED with fever, chills, nausea, vomiting, and severe flank pain. She has a history of multiple UTIs and was recently hospitalized for pyelonephritis. UA reveals pyuria and bacteriuria. Ultrasound performed in the ED shows what appears to be a perinephric abscess. What is the next most appropriate step in management?

2 NEUTROPENIC FEVER

Defined as a single oral temperature of ≥ 38.3°C (≥ 101°F) or a temperature of ≥ 38°C (≥ 100.4°F) for ≥ 1 hour in a neutropenic patient (ie, an absolute neutrophil count < 500 cells/mm3). History/PE Common in cancer patients undergoing chemotherapy (neutropenic nadir 7–10 days postchemotherapy). Inflammation may be minimal or absent. Diagnosis ■ Conduct a thorough physical exam, but avoid a rectal exam in light of the bleeding risk if the patient is thrombocytopenic.

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A 17-year-old boy presents with 1 week of fever, sore throat, and progressive fatigue. Physical exam reveals palatal petechiae, large tonsils with whitish exudates, splenomegaly, and cervical and axillary lymphadenopathy. The patient says that he has been too tired to attend football practices and is concerned that he may lose his spot on the starting roster. What is the most appropriate advice to be given regarding his participation in athletics?

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Obtain a CBC with differential, serum creatinine, BUN, and transaminases; send blood, urine, lesion, sputum, and stool cultures. Consider testing for viruses, fungi, and mycobacteria. ■ CXR for patients with respiratory symptoms; CT scan to evaluate for abscesses or other occult infection. ■

Treatment Empiric antibiotic therapy with antipseudomonal agent (cefepime, piperacillintazobactam), and vancomycin for MRSA coverage in patients with indwelling catheters, pneumonia, or cutaneous abscess. Admission and IV antibiotics are warranted for high-risk patients (eg, hematologic malignancy, chemotherapy, neutropenia > 14 days). Routine use of colony-stimulating factors is not indicated. If fevers persist after 72 hours despite antibiotic therapy, start antifungal treatment. KEY FACT Ehrlichiosis is a disease transmitted by the lone star tick endemic to the south central and southeastern United States. It causes headache, fever, chills, altered mental status, and myalgias, but rash is uncommon. Leukopenia, thrombocytopenia, and ↑ liver enzymes are common laboratory findings. Doxycycline is the treatment of choice.

1 Hospitalize the patient for empiric broad-spectrum antibiotics. This patient has complicated pyelonephritis and therefore needs to be initially managed as an inpatient. Antibiotic therapy can subsequently be narrowed and converted to PO as patient circumstances permit.

2 Tell the patient to refrain from contact sports until his physical exam normalizes. Splenomegaly 2° to infectious mononucleosis puts him at ↑ risk for splenic rupture.

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Tick-Borne Infections LYME DISEASE

A tick-borne disease caused by the spirochete Borrelia burgdorferi. Usually seen during the summer months, and carried by Ixodes ticks on white-tailed deer and white-footed mice. Endemic to the Northeast, northern Midwest, and Pacific coast. History/PE ■ Presents with the onset of rash with fever, malaise, fatigue, headache, myalgias, and/or arthralgias. Infection usually occurs after a tick feeds for > 18 hours. ■ 1° (early localized disease): Erythema migrans begins as a small erythematous macule or papule that is found at the tick-feeding site and expands slowly over days to weeks. The border may be macular or raised, often with central clearing (“bull’s eye”; see Figure 2.8-28). ■ 2° (early disseminated disease): Presents with migratory polyarthropathies, neurologic phenomena (eg, facial nerve palsy; bilateral is classic for Lyme disease), lymphocytic meningitis and/or myocarditis, and conduction abnormalities (third-degree heart block). ■ 3° (late disease): Arthritis and subacute encephalitis (memory loss and mood change). Diagnosis ■ Early Lyme disease is diagnosed on clinical grounds alone (erythema migrans + endemic area). Serologic tests are not required or recommended, as IgM becomes ⊕ 1–2 weeks, and IgG 2–6 weeks after onset of erythema migrans. ■ Early disseminated or late Lyme disease presenting with consistent symptoms and exposure risk factors should be diagnosed with serology. If ELISA IgM and IgG are ⊕ or equivocal, then Western blot for confirmation. Do not use for “screening” or nonspecific symptoms. Western blots sent without ELISA have high false ⊕ rates. Treatment ■ Treat early disease with doxycycline (or amoxicillin in children < 8 years of age and in pregnant patients); more advanced disease (eg, CNS or arthritic disease) should be treated with ceftriaxone.

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F I G U R E 2 . 8 - 2 8 .   Erythema chronicum migrans seen in Lyme disease. Note the classic “bull’s eye” lesion, which consists of an outer ring where the spirochetes are found, an inner ring of clearing, and central erythema caused by an allergic response at the site of the tick bite. (Reproduced courtesy of James Gathany, Centers for Disease Control and Prevention, Atlanta, GA.)

Consider empiric therapy for patients with the characteristic rash, arthralgias, or a tick bite acquired in an endemic area. Prevent with tick bite avoidance. ■ Prophylaxis: Lyme disease is not usually transmitted within the first 48 to 72 hours of tick attachment. Give one dose of doxycycline if all the following apply: tick is Ixodes scapularis and has been attached for ≥ 36 hours, prophylaxis is started ≤ 72 hours of removal, and local rate of infection of ticks with Borrelia burgdorferi is > 20%. If criteria not met, observe and treat only if erythema migrans develops. ■

KEY FACT “Tick testing” is a common incorrect answer choice; it has no effect on management and is not performed in a Lyme disease work-up.

BABESIOSIS

Tick-borne protozoal illness also transmitted by I scapularis (high rate of coinfection with Lyme disease). Causes flulike symptoms, intravascular hemolysis, anemia, and jaundice. Ring-shaped or “Maltese cross” organisms may be seen on blood smear. Treat with azithromycin and atovaquone. ROCKY MOUNTAIN SPOTTED FEVER

A disease caused by Rickettsia rickettsii and carried by the American dog tick (Dermacentor variabilis). The organism invades the endothelial lining of capillaries and causes small vessel vasculitis. ■ Hx/PE: Presents with headache, fever, malaise, and rash. The characteristic rash is initially macular (beginning on the wrists and ankles) but becomes petechial/purpuric as it spreads centrally (see Figure 2.8-29). Altered mental status or DIC may develop in severe cases. ■ Dx: Clinical diagnosis should be confirmed with biopsy and indirect immunofluorescence of the skin lesion. ■ Tx: Doxycycline. The condition can be rapidly fatal if left untreated. If clinical suspicion is high, begin treatment while awaiting testing. Chloramphenicol can be used during the first two trimesters of pregnancy in ■

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KEY FACT Rocky Mountain spotted fever starts on the wrists and ankles and then spreads centrally.

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F I G U R E 2 . 8 - 2 9 .   Rocky Mountain spotted fever. These erythematous macular lesions will evolve into a petechial rash that will spread centrally. (Reproduced with permission from Wolff K, Johnson RA, Saavedra AP. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 7th ed. New York, NY: McGraw-Hill; 2013.)

uncomplicated cases, but if it is not available, doxycycline therapy should be initiated. MNEMONIC

Miscellaneous Infections

Presentation of endocarditis—

INFECTIVE ENDOCARDITIS

FROM JANE

Infection of the endocardium. Most commonly affects the heart valves, especially the mitral valve. Risk factors include rheumatic, congenital, or valvular heart disease; prosthetic heart valves; IV drug use; and immunosuppression. Etiologies are as follows (see Table 2.8-13):

Fever Roth spots Osler nodes Murmur Janeway lesions Anemia Nail hemorrhage Emboli

TA B L E 2.8 - 13. 

S aureus: The causative agent in > 80% of cases of acute bacterial endocarditis in patients with a history of IV drug use. ■ Viridans streptococci: The most common pathogens for left-sided subacute bacterial endocarditis and following dental procedures in native valves. ■

Causes of Endocarditis

Acute S aureus (IV drug use, prosthetic valves)

Subacute Viridans streptococci (native valve, dental procedures)

Marantic Cancer (poor prognosis) Metastases seed valves; emboli can cause cerebral infarcts

Culture ⊝ (includes HACEK) Haemophilus parainfluenzae Actinobacillus

S pneumoniae

Enterococcus (UTIs)

N gonorrhoeae

S epidermidis (prosthetic valve)

Cardiobacterium

S bovis (GI insult)

Eikenella

Fungi

Kingella

SLE Libman-Sacks endocarditis (autoantibody to valve)

Coxiella burnetii Brucella Bartonella

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INFECTIOUS DISEASE Coagulase ⊝ Staphylococcus: The most common infecting organism in prosthetic valve endocarditis. ■ Streptococcus bovis: S bovis endocarditis is associated with coexisting GI malignancy. Perform colonoscopy if S bovis diagnosed. ■ Candida and Aspergillus species: Account for most cases of fungal endocarditis. Predisposing factors include long-term indwelling IV catheters, malignancy, AIDS, organ transplantation, and IV drug use.

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KEY FACT Otitis media should not cause pain with movement of the tragus/pinna.

History/PE ■ Constitutional symptoms are common (fever/FUO, weight loss, fatigue). ■ Exam reveals a heart murmur. The mitral valve (mitral regurgitation) is more commonly affected than the aortic valve in non–IV drug users; more right-sided involvement is found in IV drug users (tricuspid valve > mitral valve > aortic valve). ■ Osler nodes (small, tender nodules on the finger and toe pads), Janeway lesions (small peripheral hemorrhages; see Figure 2.8-30A), splinter hemorrhages (subungual petechiae; see Figure 2.8-30B), and Roth spots (retinal hemorrhages). Diagnosis ■ Guided by risk factors, clinical symptoms, and the Duke criteria (see Table 2.8-14). The presence of two major, one major + three minor, or five minor criteria all merit the diagnosis of endocarditis. Obtain serial blood cultures from different sites before starting antibiotic therapy. ■ CBC with leukocytosis and left shift; ↑ ESR and CRP. Treatment ■ Early empiric IV antibiotic treatment for acutely ill patients. Vancomycin + gentamicin is an appropriate choice for most patients. Tailor antibiotics once

1 A 70-year-old woman with a history of hypertension and lymphoma presents with nausea, vomiting, and fever of 2 days’ duration. She just completed her second cycle of high-dose chemotherapy. She has a temperature of 38.5°C (101.3°F). Her CXR is unchanged, and her WBC count is 900/mm3 with 25% neutrophils. After urine and blood cultures have been sent, what is the next step in management?

2

A

B

F I G U R E 2 . 8 - 3 0 .   Cutaneous manifestations of infective endocarditis. (A) Janeway lesions. Peripheral embolization to the sole leads to a cluster of erythematous macules known as Janeway lesions. (B) Splinter hemorrhages. The splinter hemorrhages shown along the distal aspect of the nail plate are caused by emboli from subacute bacterial endocarditis. (Image A reproduced with permission from the Armed Forces Institute of Pathology, Bethesda, MD, as published in Knoop KJ, et al. Atlas of Emergency Medicine, 2nd ed. New York, NY: McGraw-Hill; 2002, Image B reproduced with permission from the Department of Dermatology, Wilford Hall USAF Medical Center and Brooke Army Medical Center, San Antonio, TX, as published in Knoop KJ, et al. Atlas of Emergency Medicine, 2nd ed. New York, NY: McGraw-Hill; 2002.)

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A 41-year-old woman returns to the ED a week after she was discharged for diabetic ketoacidosis treatment. Today she complains of low-grade fever, tenderness and swelling over her face, and a persistent nasal discharge with occasional blood. Physical exam demonstrates necrosis in the left nasal turbinates and left eye proptosis. Specimens from the sinuses show broad, nonseptate hyphae. What is the next most appropriate step in management?

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TA B L E 2.8 - 14. 

Duke Criteria for the Diagnosis of Endocarditis

Criteria Major

Components 1. ⊕ Blood cultures for a typical organism (either two samples drawn > 12 hours apart or three out of four drawn over the course of at least 1 hour) 2. Evidence of endocardial involvement (via transesophageal echocardiography or new murmur)

Minor

1. Predisposing risk factors/IV drug use 2. Fever ≥ 38°C (≥ 100.4°F) 3. Vascular phenomena: Septic emboli, septic infarcts, mycotic aneurysm, Janeway lesions 4. Immunologic phenomena: Glomerulonephritis, Osler nodes, Roth spots 5. Microbiologic evidence that does not meet major criteria 6. Echo findings that are consistent with IE but do not meet major criteria

1 Admit the patient and begin IV antibiotics with an antipseudomonal β-lactam (eg, cefepime, piperacillintazobactam, meropenem, imipenem). Febrile, neutropenic patients who are on high-dose chemotherapy, have a hematologic malignancy, or have been neutropenic for > 14 days should be admitted for empiric IV antibiotics.

2 Surgical debridement and amphotericin B. The patient has mucormycosis, a dangerous and aggressive infection found in diabetic and immunocompromised patients. Aggressive surgical debridement is warranted.

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the causative agent is known. Acute valve replacement is sometimes necessary if rupture occurs. The prognosis for prosthetic valve endocarditis is poor. ■ Preprocedure prophylaxis: Endocarditis prophylaxis is only indicated in patients with the following: ■ Significant cardiac defects (prosthetic valves, unrepaired cyanotic congenital heart disease, prior history of endocarditis, transplanted heart with valvular disease). ■ Undergoing high-risk procedures (dental work involving gingival tissue or perforation of mucosa, respiratory tract surgery involving perforation of mucosa, GI or GU surgeries in patients with ongoing GI or GU infections). ■ Amoxicillin is the preferred antibiotic prophylaxis. For patients who are penicillin allergic, use cephalexin, clindamycin, azithromycin, or clarithromycin. Complications Focal neurologic deficits from embolic strokes, metastatic infection (most common cause of splenic abscess), heart failure caused by valvular insufficiency, and glomerulonephritis. ANTHRAX

Caused by the spore-forming gram ⊕ bacterium Bacillus anthracis. Infection is an occupational hazard for veterinarians, farmers, and individuals who handle animal wool, hair, hides, or bone meal products. Also, a biologic weapon. B anthracis can cause cutaneous (most common), inhalation (most deadly), or GI anthrax. There is no person-to-person spread of anthrax. History/PE ■ Cutaneous: Presents 1–7 days after skin exposure and penetration of spores. The lesion begins as a pruritic papule that enlarges to form an ulcer surrounded by a satellite bulbus/lesion with an edematous halo and a round, regular, raised edge. Regional lymphadenopathy is also characteristic. The lesion evolves into a black eschar within 7–10 days (see Figure 2.8-31).

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Inhalational: Presents with fever, dyspnea, hypoxia, hypotension, or symptoms of pneumonia (1–3 days after exposure), classically caused by hemorrhagic mediastinitis. Patients typically do not have pulmonary infiltrates. ■ GI: Occurs after the ingestion of poorly cooked, contaminated meat; can present with dysphagia, nausea/vomiting, bloody diarrhea, and abdominal pain. ■

Diagnosis Criteria for diagnosis include culture isolation or two nonculture supportive tests (PCR, immunohistochemical staining, or ELISA). CXR is the most sensitive test for inhalational disease (shows a widened mediastinum and pleural effusions). Treatment ■ Best initial treatment: Ciprofloxacin or doxycycline plus one to two additional antibiotics for at least 14 days for inhalational disease or cutaneous disease of the face, head, or neck. ■ For other cutaneous disease, treat for 7–10 days. Postexposure prophylaxis (ciprofloxacin) to prevent inhalation anthrax should be continued for 60days.

FIGURE 2.8-31. 

Cutaneous anthrax.

Black eschar is seen on the forearm. (Reproduced courtesy of James H. Steele, Centers for Disease Control and Prevention, Atlanta, GA.)

OSTEOMYELITIS

Bone infection caused by direct spread from a soft tissue infection (80% of cases) is most common in adults, whereas infection caused by hematogenous seeding (20% of cases) is more common in children (metaphysis of the long bones) and IV drug users (vertebral bodies). Common pathogens are outlined in Table 2.8-15. History/PE Presents with localized bone pain and tenderness along with warmth, swelling, erythema, and limited motion of the adjacent joint. Systemic symptoms (fevers, chills) and purulent drainage may be present.

TA B L E 2.8 - 15. 

Common Pathogens in Osteomyelitis

If

Think

No risk factors

S aureus

IV drug user

S aureus or Pseudomonas

Sickle cell disease

Salmonella

Hip replacement

S epidermidis (coagulase-negative staphylococcus)

Foot puncture wound

Pseudomonas

Chronic

S aureus, Pseudomonas, Enterobacteriaceae

Diabetic

Polymicrobial, Pseudomonas, S aureus, streptococci, anaerobes

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An 11-year-old African-American boy with a history of multiple hospitalizations for pain crises, all related to his sickle cell anemia, presents with fever and severe pain in his right hand. Exam shows an area of redness, tenderness, and swelling near the right second metacarpal. Labs show leukocytosis and an elevated ESR. MRI shows an area of ↑ intensity in the painful area. What pathogen is the most likely cause of his condition?

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KEY FACT Diabetic osteomyelitis should be treated with antibiotics targeting gram⊕ organisms and anaerobes.

KEY FACT Penicillin and cephalosporins have minimal cross-reactivity. If a patient had an allergic rash to penicillin, cephalosporins are considered safe. If a patient had an anaphylactic reaction or developed angioedema while on penicillin, use a non–β-lactam antibiotic.

Salmonella. S aureus is the most common cause in patients without sickle cell disease and is the second most common organism that causes osteomyelitis in patients with sickle cell disease.

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INFECTIOUS DISEASE Diagnosis ■ Labs: ↑ WBC count; ↑ ESR and CRP levels in most cases. Blood cultures may be ⊕. ■ Imaging: ■ X-rays are often ⊝ initially but may show periosteal elevation within 10–14 days. Bone scans are sensitive for osteomyelitis but lack specificity. ■ MRI (the test of choice) will show ↑ signal in the bone marrow and associated soft tissue infection (see Figure 2.8-32). ■ Most accurate test: Bone aspiration with Gram stain and culture. Clinical diagnosis made by probing through the soft tissue to bone is usually sufficient, as aspiration carries a risk for infection. Treatment ■ Most accurate treatment: Surgical debridement of necrotic, infected bone followed by IV antibiotics for 4–6 weeks. Empiric antibiotic selection is based on the suspected organism and Gram stain. ■ Consider clindamycin plus ciprofloxacin, ampicillin/sulbactam, or oxacillin/ nafcillin (for methicillin-sensitive S aureus); vancomycin (for MRSA); or ceftriaxone or ciprofloxacin (for gram ⊝ bacteria). Complications Chronic osteomyelitis, sepsis, septic arthritis. Long-standing chronic osteomyelitis with a draining sinus tract may eventually lead to squamous cell carcinoma (Marjolin ulcer).

F I G U R E 2 . 8 - 3 2 .   Diskitis/osteomyelitis. Sagittal contrast-enhanced MRI shows destruction of a lower thoracic intervertebral disk with abnormal enhancement throughout the adjacent vertebral bodies (arrows) and a posterior rim-enhancing epidural abscess (arrowhead) in the spinal canal. (Reproduced with permission from Tintinalli JE, et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 6th ed. New York, NY: McGraw-Hill; 2004.)

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MUSCULOSKELETAL Common Adult Orthopedic Injuries

254

Gout 264

Common Peripheral Nerve Injuries

256

Rheumatoid Arthritis

266

Compartment Syndrome

257

Seronegative Spondyloarthropathy

267

Carpal Tunnel Syndrome

258

Bursitis 259

Ankylosing Spondylitis

267

Polymyositis and Dermatomyositis

268

Pes Anserinus Pain Syndrome

259

Raynaud Phenomenon

269

Patellofemoral Pain Syndrome

259

Systemic Sclerosis

269

Tendinitis 259

Systemic Lupus Erythematosus

270

Low Back Pain

Serum Sickness–like Reaction

271

Giant Cell Arteritis

271

Takayasu Arteritis

272

Behçet Syndrome

272

Complex Regional Pain Syndrome

272

260

Herniated Disk

260

Spinal Stenosis

260

Osteosarcoma 261 Septic Arthritis

262

Osteoarthritis 263 Osteoporosis 264 Morton Neuroma

264

Fibromyalgia 273 Polymyalgia Rheumatica

273

253

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Common Adult Orthopedic Injuries Table 2.9-1 outlines the presentation and treatment of orthopedic injuries that commonly affect adults.

TA B L E 2.9 - 1. 

Common Adult Orthopedic Injuries

Upper Extremity Injury Shoulder dislocation

Presentation Anterior dislocation: Most common (95%); risk for axillary nerve injury. Patients hold arm in slight abduction and external rota-

Treatment Reduction followed by a sling and swath. Recurrent dislocations may need surgical treatment

tion (see Images A and B) Posterior dislocation: Rare; associated with seizure and electrocution. Patients hold arm in adduction and internal rotation Rotator cuff injury

Pain and weakness with abduction or external rotation of the humerus after fall on outstretched arm

Rest and NSAIDs for minor injury Surgery for complete tear

Impingement syndrome (pain caused by compression of soft tissue structures) may be present Diagnosis can be made clinically and confirmed with MRI (Do not confuse with adhesive capsulitis, characterized by significant shoulder stiffness but only mild pain with movement) Humerus

Direct trauma. Radial nerve palsy may lead to wrist drop and loss of

Hanging-arm cast vs coaptation splint and sling. Func-

fracture

thumb extension

tional bracing

“Nightstick

Ulnar shaft fracture from direct trauma often in self-defense

ORIF if significantly displaced

fracture”

against a blunt object

Monteggia

Diaphyseal fracture of the proximal ulna with subluxation of the

ORIF of the shaft fracture and closed reduction of the

fracture

radial head (see Image C). Results from fall on pronated and out-

radial head

stretched arm Galeazzi

Diaphyseal fracture of the radius with dislocation of the distal radio-

ORIF of the radius and casting of the fractured forearm

fracture

ulnar joint (see Image D). Results from a direct blow to the radius

in supination to reduce the distal radioulnar joint

Colles

Involves the distal radius. Often results from a fall onto an

Closed reduction followed by application of a

fracture

outstretched hand that is in dorsiflexion, leading to a dorsally dis-

long-arm cast; open reduction if the fracture is

placed, dorsally angulated fracture (see Image E). Commonly seen

intra-articular

in the elderly (osteoporosis) and children Scaphoid fracture

Most commonly fractured carpal bone. Results from a fall onto an outstretched hand May take 2 weeks for x-rays to show fracture (see Image F). Assume a fracture if there is tenderness in anatomic snuffbox

Thumb spica cast. If displacement or scaphoid nonunion is present, treat with open reduction With proximal-third fractures, AVN may result from disruption of blood flow

Boxer’s

Fracture of the fifth metacarpal neck. Caused by forward trauma of

Closed reduction and ulnar gutter splint; percuta-

fracture

a closed fist (eg, punching a wall)

neous pinning if the fracture is excessively angulated (continues)

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TA B L E 2.9 - 1. 

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255

Common Adult Orthopedic Injuries (continued)

Upper Extremity Injury

Presentation

Treatment

De Quervain

New mother holding infant with outstretched thumb

Tenosynovitis

Pain on Finkelstein test (flexing thumb across palm and placing the

NSAIDs and casting

wrist in ulnar deviation)

Lower Extremity Injury Hip

Presentation Posterior dislocation: Most common (> 90%); occurs via a poste-

dislocation

riorly directed force on an internally rotated, flexed, adducted

Treatment Closed reduction followed by abduction pillow/ bracing. Evaluate with CT scan after reduction

hip (“dashboard injury”). Associated with a risk for sciatic nerve injury and AVN (see Image G) Anterior dislocation: Can injure the obturator nerve Hip fracture

↑ Risk with osteoporosis. Presents with a shortened and externally rotated leg Can be radiographically occult, so a good clinical history with ⊝ x-rays warrants further evaluation with CT or MRI Displaced femoral neck fractures associated with an ↑ risk for AVN and nonunion

ORIF. Displaced femoral neck fractures in elderly patients may require a hip hemiarthroplasty or total arthroplasty Anticoagulate to ↓ the likelihood of DVT Hip fracture involves the acetabulum and/or the proximal intracapsular femur

Associated with DVTs Femoral

Direct trauma. Beware of fat emboli, which present with fever,

Intramedullary nailing of the femur. Irrigate and

fracture

changes in mental status, dyspnea, hypoxia, petechiae, and

debride open fractures

↓platelets Knee injuries

Present with knee instability and hematoma

MRI is the diagnostic test of choice

ACL:

Treatment of MCL/LCL and meniscal tears can be

Result from a noncontact twisting mechanism, forced

hyperextension, or impact to an extended knee ⊕ Anterior drawer and Lachman tests

Rule out a meniscal or MCL injury (MCL injury = ⊕ valgus stress

test; LCL injury = ⊕ varus stress test) PCL: Result from a posteriorly directed force on a flexed knee (eg,

dashboard injury) ⊕ Posterior drawer test

conservative Treatment of ACL injuries in active patients is generally surgical with graft from the patellar or hamstring tendons Operative PCL reconstruction is reserved for highly competitive athletes with high-grade injuries Operative meniscal repair is for younger patients with reparable tears or older patients with mechanical

symptoms who do not respond to conservative

Meniscal tears:

treatment

Result from an acute twisting injury or a degenerative tear in

elderly patients Clicking or locking may be present

Exam shows joint line tenderness and a ⊕ McMurray test

Tibial stress

Direct trauma. Watch for compartment syndrome

Casting vs intramedullary nailing vs ORIF

fracture (continues)

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TA B L E 2.9 - 1. 

MUSCULOSKELETAL

Common Adult Orthopedic Injuries (continued)

Lower Extremity Injury Achilles tendon rupture

Presentation

Treatment

Presents with a sudden “pop” like a rifle shot. More likely with ↓

Surgery followed by a long-leg cast for 6 weeks

physical conditioning Limited plantar flexion and a ⊕ Thompson test (pressure on the gastrocnemius leading to absent foot plantar flexion)

Popliteal (Baker) cyst rupture

Caused by extrusion of synovial fluid into gastrocnemius or semimembranosus bursa in patients with underlying arthritis

Ultrasound to rule out DVT, then surgery if symptomatic

May present with painless bulge in popliteal space, or with acute calf pain

A

D

  B

  E

  F

  C

  G

Images A, B, and F reproduced with permission from USME-Rx.com. Images C and D reproduced with permission from Knoop K, et al., editors. The Atlas of Emergency Medicine, 3rd ed. NewYork: McGraw-Hill, 2009, Figs. 11.16, 11.17. Image E reproduced with permission from Usatine RP et al., editors. The Color Atlas of Family Medicine, 2nd ed. New York: McGraw-Hill, 2013 Image G reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York: McGraw-Hill, 2010.

KEY FACT The classic unhappy triad of knee injury involves the ACL, the MCL, and the medial meniscus. However, lateral meniscal tears are more commonly seen in acute ACL injuries.

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Common Peripheral Nerve Injuries Table 2.9-2 outlines the clinical findings of the most common peripheral nerve injuries.

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MUSCULOSKELETAL

TA B L E 2.9 - 2. 

Nerve Radial

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257

Common Peripheral Nerve Injuries

Motor Deficit Wrist extension

Sensory Deficit

Common Causes

Dorsal forearm and hand

Midshaft humeral fracture. Prolonged

(first 3½ fingers)

compression at level of humerus (“Sat-

Clinical Findings Wrist drop

urday night palsy”) Median

Ulnar

Axillary

Forearm pronation,

Palmar surface (first 3½

thumb opposition

fingers)

Finger abduction

Palmar and dorsal surface

Elbow dislocation, or entrapment at

(last 2 fingers)

medial epicondylar groove of humerus

↓ Sensation over the

Anterior shoulder dislocation

Arm abduction

Carpal tunnel

Weak wrist flexion and flat thenar eminence Claw hand

deltoid (regimental badge area) Peroneal

Dorsiflexion,

Dorsal foot and lateral leg

eversion Superior

Hip adduction

Knee dislocation, prolonged immobiliza-

Foot drop

tion (crossed legs), trauma to the fibula None

Gluteal

Weakness of gluteus medius or minimus

Dropping of contralateral

muscles

pelvis below horizontal while walking (Trendelenburg sign)

Femoral

Hip flexion, knee

Anteromedial thigh and

Direct injury (trauma), prolonged pres-

extension

medial side of leg and foot

sure on nerve

Abnormal knee reflex

(saphenous nerve) Lateral

None

Femoral

Lateral thigh (can cause

Iatrogenic compression (surgeries,

meralgia paresthetica)

IVCfilter placement)

Cutaneous

Compartment Syndrome ↑ Pressure within a confined space that compromises nerve, muscle, and soft tissue perfusion. Occurs primarily in the anterior compartment of the lower leg and in forearm 2° to trauma to the affected limb (fracture or muscle injury). History/PE ■ Presents with pain out of proportion (POOP) to physical findings; pain with passive motion of the fingers and toes; and paresthesias, pallor, poikilothermia, pulselessness, and paralysis (the 6 Ps). ■ Paralysis and pulselessness occur as late signs of compartment syndrome! Diagnosis Based on history, exam, and elevated compartment pressures (although not necessary). Calculate delta pressures (diastolic pressure – compartment pressure); ⊕ if delta pressure ≤ 30 mm Hg). Treatment Immediate fasciotomy to ↓ pressures and ↑ tissue perfusion.

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KEY FACT Open fractures are an orthopedic emergency. Patients should be taken to the OR within 8–24 hours for irrigation and debridement followed by fracture repair. Reduce infection risk with antibiotics and tetanus prophylaxis.

KEY FACT In carpal tunnel syndrome, patients may present with difficulty doing daily activities such as holding an object, turning doorknobs, opening a bottle cap, typing, and driving.

KEY FACT ■

Posterior hip dislocation: Shortened, internally rotated leg. ■ Anterior hip dislocation: Lengthened, externally rotated leg. ■ Hip fracture: Shortened, externally rotated leg.

MUSCULOSKELETAL

Carpal Tunnel Syndrome Entrapment of the median nerve at the wrist caused by ↓ size or space of the carpal tunnel, leading to paresthesias, pain, and occasionally paralysis. Can be precipitated by overuse of wrist flexors; associated with pregnancy, diabetes mellitus, hypothyroidism, acromegaly, and amyloidosis. History/PE ■ Presents with aching over the thenar area of the hand and proximal forearm. ■ Paresthesias or numbness is seen in a median nerve distribution (first 3½ digits). ■ Symptoms worsen at night and awaken patient from sleep. ■ Exam shows thenar eminence atrophy (if CTS is long-standing). ■ Phalen maneuver and Tinel sign are ⊕ (see Figure 2.9-1). Diagnosis ■ Usually a clinical diagnosis from symptoms and signs. ■ Electrodiagnostic tests: Nerve conduction studies and electromyography. Treatment ■ Best initial treatment: Splint the wrist in a neutral position at night and during the day if possible. ■ Medical treatment: Corticosteroid injection of the carpal canal and NSAIDs. ■ Most definitive treatment: Decompressing the tunnel is a widely accepted treatment, particularly for fixed sensory loss, thenar weakness, or intolerable symptoms with no improvement after splinting and/or glucocorticoids. Complications Permanent loss of sensation, hand strength, and fine motor skills.

A

B

F I G U R E 2 . 9 - 1 .   Carpal tunnel syndrome. (A) The Tinel test is performed by tapping the volar surface of the wrist over the median nerve. (B) The Phalen maneuver is performed by compressing the opposing dorsal surfaces of the hand with the wrists flexed together as shown. This causes tingling over the median nerve distribution. (Reproduced with permission from USMLE-Rx.com.)

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Bursitis Inflammation of the bursa by repetitive use, trauma, infection, systemic inflammatory disease (eg, autoimmune disease), or microcrystalline disorders (eg, gout). Common sites of bursitis include subacromial, olecranon, trochanteric, popliteal fossa (Baker cyst), prepatellar (housemaid’s knee), and infrapatellar bursae. PES ANSERINUS PAIN SYNDROME

Also called anserine bursitis. Presents with localized pain at the anteromedial tibia at insertion of the pes anserinus that is aggravated by overuse, obesity, knee osteoarthritis, and pressure from the opposite knee while lying on the side. Valgus stress test will not aggravate the pain, and x-rays will also be normal.

Patellofemoral Pain Syndrome Anterior knee pain caused by overuse. Common in women, obese, and diabetics. Pain can be reproduced with knee extension. Treatment with activity modification and NSAIDs. History/PE Presents with localized tenderness, ↓ range of motion (ROM), edema, and erythema; patients may have a history of trauma or inflammatory disease. Diagnosis ■ Mainly a clinical diagnose based on symptoms and physical exam findings. ■ Needle aspiration is indicated if septic bursitis is suspected. No labs or imaging is needed. Treatment ■ Best initial treatment: Rest, heat and ice, elevation, and NSAIDs. ■ Intrabursal corticosteroid injection can be considered but is contraindicated if septic bursitis is suspected. ■ Septic bursitis should be treated with 7–10 days of antibiotics.

Tendinitis An inflammatory condition characterized by pain at tendinous insertions into bone associated with swelling or impaired function. It commonly occurs in the supraspinatus, biceps, wrist extensor, patellar, iliotibial band, posterior tibial, and Achilles tendons. Overuse is the most common cause.

KEY FACT Median nerve injury leads to the “Benediction sign” caused by an inability to close the first through third digits. Ulnar nerve injury leads to the “claw hand” caused by an inability to open the fourth to fifth digits.

KEY FACT Volkmann contracture of the wrist and fingers is caused by compartment syndrome, which is associated with supracondylar humerus fractures. These fractures may affect the brachial artery and radial nerve. Ischemia results in fibrosis of dead muscle.

KEY FACT Infection of the superficial bursae occurs after trauma to the skin. Infection of deep bursae is often iatrogenic following injections or aspirations.

KEY FACT Oral fluoroquinolones are associated with an ↑ risk for tendon rupture and tendinitis.

History/PE ■ Presents with pain at a tendinous insertion that worsens with repetitive stress and resisted strength testing of the affected muscle group. ■ Lateral epicondylitis (or tennis elbow) worsens with resisted extension of the wrist, and medial epicondylitis (or golfer’s elbow) with resisted flexion of the wrist. Diagnosis ■ Usually a clinical diagnosis. ■ Imaging: Ultrasound or MRI may be useful in detecting tendon tears.

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MUSCULOSKELETAL Treatment ■ Best initial treatment: Rest, NSAIDs, apply ice for the first 24–48 hours, and consider splinting, bracing, or immobilization. ■ Begin strengthening exercises once pain has subsided. ■ Next best treatment: consider corticosteroid injection. Never inject the Achilles tendon in view of the ↑ risk for rupture. Avoid repetitive injection.

Low Back Pain

KEY FACT Tendinitis is a slight misnomer, as a classic cellular inflammatory response is absent or minimal in cases of overuse tendinopathy. Tendinosis is a more appropriate term referring to chronic tendinopathy without cellular inflammation.

KEY FACT Bowel or bladder dysfunction (urinary overflow incontinence), impotence, and saddle-area anesthesia are consistent with cauda equina syndrome, a surgical emergency.

Low back pain (LBP) is the second-leading symptom-related cause for office visits in the United States. Though often self-limited, it can also be a sign of more severe disease, including infection, malignancy, or AAA. HERNIATED DISK

Causes include degenerative changes, trauma, or neck/back strain or sprain. Most common (95%) in the lumbar region, especially at L5–S1 (most common site) and L4–L5 (second most common site). History/PE ■ Presents with sudden onset of severe, electricity-like LBP, usually preceded by several months of aching, “discogenic” pain. ■ Common among middle-aged and older men. ■ Exacerbated by ↑ intra-abdominal pressure or Valsalva (eg, coughing). ■ Associated with sciatica, paresthesias, muscle weakness, atrophy, contractions, or spasms. ■ A passive straight-leg raise ↑ pain (highly sensitive but not specific). ■ A contralateral (crossed) straight-leg raise ↑ pain (highly specific but not sensitive). ■ Large midline herniations can cause cauda equina syndrome. Diagnosis ■ Diagnosed with a ⊕ passive straight-leg raise. ■ Imaging: MRI (see Figure 2.9-2) is the preferred test; Necessary for cauda equina syndrome or for a severe or rapidly progressing neurologic deficit. ■ Additional tests: Obtain an ESR and a plain x-ray if other causes of back pain are suspected (eg, infection, trauma, compression fracture). Treatment ■ Best initial treatment: NSAIDs in scheduled doses, physical therapy, and local heat. Do not prescribe bed rest; continuation of regular activities is preferred. ■ Epidural steroid injection or nerve block may be of benefit in those who do not respond to initial treatment. ■ Most definitive treatment: Surgery—only in focal neurologic deficits, cauda equina syndrome, and persistent pain for at least 6 weeks.

FIGURE 2.9-2. 

Disk herniation.

Sagittal T2-weighted MRI of the lumbar spine shows posterior herniation of the L5–S1 disk. (Reproduced with permission from Fauci AS et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

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SPINAL STENOSIS

Narrowing of the lumbar or cervical spinal canal, leading to compression of the nerve roots and spinal cord. Most commonly caused by degenerative joint disease; typically occurs in middle-aged or elderly patients.

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261

Motor and Sensory Deficits in Back Pain

Associated Deficit

Nerve Root

Motor

Reflex

Sensory

L4

Foot dorsiflexion (tibialis anterior)

Patellar

Medial aspect of the lower leg

L5

Big toe dorsiflexion (extensor hal-

None

Dorsum of the foot and lateral

lucis longus), foot eversion (peroneus

aspect of the lower leg

muscles) S1

Plantarflexion (gastrocnemius/soleus), hip extension (gluteus maximus)

Achilles

Lateral aspects of the foot and little toe

History/PE ■ Presents with neck pain, back pain that radiates to the arms or the buttocks and legs bilaterally, and leg numbness/weakness. ■ In lumbar stenosis, leg cramping is worse with standing and with walking. ■ In lumbar stenosis, symptoms improve with flexion at the hips and bending forward, which relieves pressure on the nerves. Diagnosis MRI is the main imaging modality to use. Treatment ■ Mild to moderate: NSAIDs, weight loss, and abdominal muscle strengthening. ■ Advanced: Epidural corticosteroid injections can provide relief. ■ Refractory: Surgical laminectomy is needed in 75% of patients. Table 2.9-3 outlines the motor, reflex, and sensory deficits with which LBP is associated.

KEY FACT Most LBP is mechanical, so bed rest is contraindicated.

KEY FACT Red flags for LBP include > 50 years of age, > 6 weeks of pain, previous cancer history, severe pain, constitutional symptoms, neurologic deficits, and loss of anal sphincter tone.

1

Osteosarcoma Although a rare tumor, it is the most common primary malignancy of bone in children and adolescents. It tends to occur in the metaphyseal regions of the distal femur, proximal tibia, and proximal humerus; it often metastasizes to the lungs. In adults, osteosarcoma is often a result of sarcomatous transformation of other benign tumors, including Paget disease. History/PE ■ Presents as progressive and eventually intractable pain that worsens at night. ■ Constitutional symptoms such as fever, weight loss, and night sweats may be present. ■ Erythema and enlargement over the site of the tumor may be seen. See the Endocrinology chapter for a discussion of osteosarcoma vs Paget disease. Diagnosis ■ Best initial test: Plain x-rays. These can show a Codman triangle (periosteal new-bone formation at the diaphyseal end of the lesion) or a “sunburst

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A 23-year-old man presents to the ED with a swollen and erythematous right hand following an altercation at a bar a few days ago. The dorsum of the hand shows abrasions and x-ray films reveal a fracture of the fifth metacarpal. What is the next step in management?

2 A 37-year-old man is seen after a motorcycle accident. He complains of intense leg pain, tingling in his foot, and inability to move his toes. Exam reveals pain with passive motion of his toes and palpable dorsalis pedis pulses. An x-ray film confirms a tibial fracture. What is the best treatment?

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MUSCULOSKELETAL

KEY FACT The most common benign bone tumor is osteochondroma A

B

F I G U R E 2 . 9 - 3 .   Malignant bone tumors. (A) Osteosarcoma. Femoral x-ray shows the typical “sunburst” appearance of osteosarcoma (arrows). (B) Ewing sarcoma. The characteristic “onion skinning” of Ewing sarcoma (arrowhead) is evident in the proximal femur in this x-ray of the left hip. (Reproduced with permission from Kantarjian HM, et al. MD Anderson Manual of Medical Oncology, 1st ed. New York, NY: McGraw-Hill; 2006.)

pattern” of the osteosarcoma (see Figure 2.9-3)—in contrast to the multilayered “onion skinning” that is classic for Ewing sarcoma and the “soap bubble” appearance of giant cell tumor of bone (see Figure 2.9-4). ■ Most accurate test: Biopsy. ■ CT of the chest facilitates staging (soft tissue and bony invasion) and planning for surgery.

F I G U R E 2 . 9 - 4 .   Giant cell tumor of the bone. Note the “soap bubble”

appearance at the proximal end of the tibia. The distal end of the femur (not shown) is another common location. (Reproduced with permission from Skinner HB. Current Diagnosis & Treatment in Orthopedics, 4th ed. New York, NY: McGraw-Hill; 2006.)

1 If skin is broken in a boxer’s fracture, assume infection by human oral pathogens and treat with surgical irrigation, debridement, and IV antibiotics to cover Eikenella.

2 Immediate fasciotomy for compartment syndrome (within 6 hours to prevent muscle necrosis) followed by fracture stabilization. Remember that nonpalpable pulses are a late finding.

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Treatment ■ Limb-sparing surgical procedures and pre- and postoperative chemotherapy (eg, methotrexate, doxorubicin, cisplatin, ifosfamide). ■ Amputation may be necessary.

Septic Arthritis An infection of the joint space that can occur after open injury or bacteremia. Prosthetic joints greatly ↑ the risk. Rheumatoid arthritis (RA), osteoarthritis (OA), and bacteremia from endocarditis and IV drug use are also risk factors (see later). History/PE Presents as a warm, red, immobile joint. Palpable effusions may also be present. Fevers and chills can be seen if the patient is bacteremic. Diagnosis ■ Most accurate test: Joint aspiration. See Table 2.9-4. ■ A WBC count > 80,000 per mm3, ⊕ Gram stain, or ⊕ fluid culture. ■ The most common organisms are Staphylococcus, Streptococcus, and gram-⊝ rods. Treatment Empirically treat with ceftriaxone and vancomycin initially until culture test results; then modify therapy for specific organisms. Septic joints are treated with joint drainage or surgical debridement.

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Synovial Fluid Analysis

Normal

Noninflammatory

Inflammatorya

Septic

Color

Clear

Yellow

Yellow

Yellow-green

Viscosity

High

High

Low

Variable

WBC, per mm3

< 200

0–1000

1000–10,000

10,000–100,000

(up to 100,000) PMN (%)

< 25

< 25

≥ 50

≥ 75

Glucose, mg/dL

= serum

= serum

> 25

< 25

(Crystal analysis for gout/pseudogout) A joint affected by inflammatory arthritis can become secondarily infected.

a

KEY FACT

Osteoarthritis A common, chronic, noninflammatory arthritis of the synovial joints. Characterized by deterioration of the articular cartilage and osteophyte bone formation at the joint surfaces. Risk factors include a ⊕ family history, obesity, and a history of joint trauma. Table 2.9-5 contrasts OA with RA. History/PE Presents with crepitus, ↓ ROM, and initially pain that worsens with activity and weight bearing but improves with rest. Morning stiffness generally lasts for < 30 minutes. Stiffness is also experienced after periods of rest (“gelling”). Diagnosis ■ X-rays show joint space narrowing, osteophytes, subchondral sclerosis, and subchondral bone cysts (see Figure 2.9-5). X-ray severity does not correlate with symptomatology. ■ Laboratory tests, including inflammatory markers, are typically normal. TA B L E 2.9 - 5. 

History

Osteoarthritis

Rheumatoid Arthritis

Affects the elderly; slow onset

Affects the young

Pain worsens with use

Prolonged morning stiffness that improves with use

Joint

Affects the DIP, PIP, hips, and knees

involvement

Affects the wrists, MCP, ankles, knees, shoulders, hips, and elbows Symmetric distribution

Synovial fluid analysis and imaging

WBC count < 2000 cells/mm3; osteophytes X-ray shows joint space narrowing

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KEY FACT Classic findings of a giant cell tumor of bone: a woman 20–40 years of age presenting with knee pain and mass, along with a “soap bubble” appearance on x-ray in the epiphyseal/metaphyseal region of long bones.

1

Osteoarthritis vs Rheumatoid Arthritis

Variable

Classic findings of Ewing sarcoma: 10–20 years of age with a multilayered “onion-skinning” finding on x-ray in the diaphyseal regions of the femur. “Eat wings and onion rings.”

Anti-CCP antibodies

A 55-year-old man with a history of prostate cancer presents with LBP and bilateral leg weakness. On exam, he is found to have point tenderness on the lumbar spine and ↓ sensation in his legs. What is the best next step?

2 A 15-year-old youth presents with several months’ history of pain in the upper part of his thigh. The pain is worse at night. A plain film shows a small nidus of lucency. What OTC remedy is indicated?

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MUSCULOSKELETAL

KEY FACT In sexually active individuals with joint pain, consider gonococcal septic arthritis. Neisseria gonorrhoeae septic arthritis can present with asymmetric oligoarthritis, tenosynovitis, and skin rash.

KEY FACT An elevated white count in synovial fluid can be either inflammatory or infectious in etiology.

KEY FACT In a child with gout and inexplicable injuries, consider Lesch-Nyhan syndrome (hypoxanthine-guanine phosphoribosyltransferase [HGPRT] deficiency).

F I G U R E 2 . 9 - 5 .   Osteoarthritis. Plain x-rays show joint space narrowing, osteophytes, and subchondral degenerative cysts involving the DIP and PIP joints, with sparing of the MCP. (Reproduced with permission from USMLE-Rx.com.)

Treatment ■ Best initial treatment: Physical therapy, weight reduction, and NSAIDs. Intra-articular corticosteroid injections may provide temporary relief. ■ Most definitive treatment: Surgery—consider joint replacement (eg, total hip/knee arthroplasty) in advanced cases. Patients are at higher risk for developing osteoporosis.

Osteoporosis Refer to Endocrinology chapter.

1 Give steroids to relieve spinal cord compression resulting from likely bone metastasis. MRI is the best study, but preventing permanent neurologic disability is the priority. Remember to consider multiple myeloma, which can present almost identically.

2 This adolescent patient is likely presenting with osteoid osteoma, a benign bone-forming tumor characterized by prostaglandin formation. Relief of pain is thus often achieved with NSAIDs. Tumors may self-resolve, but surgical removal of the nidus may be necessary for symptom relief.

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Morton Neuroma Neuropathic degeneration of nerves (most commonly between the third and fourth toes) that causes numbness, pain, and paresthesias. Often associated with a "clicking sensation" when palpating this joint space. Occurs in runners, and symptoms worsen when metatarsals are squeezed together (eg, wearing high-heeled shoes). Treatment is with padded shoe inserts.

Gout Recurrent attacks of acute monoarticular arthritis resulting from intraarticular deposition of monosodium urate crystals caused by disorders of urate metabolism. Risk factors include male gender, obesity, postmenopausal status in women, and binge drinking. History/PE ■ Presents with excruciating joint pain of sudden onset. ■ Most commonly affects the first MTP joint (podagra) and the midfoot, knees, ankles, and wrists; the hips and shoulders are generally spared.

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F I G U R E 2 . 9 - 6 .   Tophaceous gout. Note the slowly enlarging nodule of the right second toe in a 55-year-old alcoholic, hypertensive man on hydrochlorothiazide. (Reproduced with permission from USMLE-Rx.com.)

Joints are erythematous, swollen, and exquisitely tender. Tophi (urate crystal deposits in soft tissue) can be seen with chronic disease (see Figure 2.9-6). Tophi can ulcerate and discharge a chalky white substance. ■ Uric acid kidney stones are seen with chronic disease. ■

KEY FACT

Diagnosis ■ Diagnostic tests: Joint fluid aspirate shows needle-shaped, negatively birefringent crystals (vs pseudogout; see Table 2.9-6). ■ Lab tests and imaging: Serum uric acid is usually ↑ (≥ 7.5 mg/dL), but patients may have normal levels. X-rays may show punched-out erosions with overhanging cortical bone (“rat-bite” erosions) that are seen in advanced gout. Treatment ■ Acute attacks: ■ High-dose NSAIDs (eg, indomethacin) are first line. Colchicine may also be used but is inferior to NSAIDs. ■ Steroids are used when NSAIDs are ineffective or contraindicated, as in renal disease. ■ Maintenance therapy: ■ Allopurinol for overproducers, those with contraindications to probenecid treatment (tophi, renal stones, chronic kidney disease), and refractory cases; probenecid for undersecretors. ■ Allopurinol can ↓ the incidence of acute urate nephropathy. ■ Weight loss and avoidance of triggers of hyperuricemia will prevent recurrent attacks in many patients. Avoid alcohol consumption. TA B L E 2.9 - 6. 

Disorder

Gout vs Pseudogout

History

Physical Findings

Crystal Shape

Gout (uric

Male gender, binge

First big toe is

Needle

acid)

drinking, recent surgery

affected

shaped

Pseudogout:

Hemochromatosis or

Wrists and knees

Rhomboid

CPPD

hyperparathyroidism

are affected

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Crystal

Gout crystals appear yeLLow when paraLLel to the condenser.

KEY FACT Causes of hyperuricemia: ■ ↑ Cell turnover (hemolysis, blast crisis, tumor lysis, myelodysplasia, psoriasis). ■ Cyclosporine. ■ Dehydration. ■ Diabetes insipidus. ■ Diet (eg, ↑ red meat, alcohol). ■ Diuretics. ■ Lead poisoning. ■ Lesch-Nyhan syndrome. ■ Salicylates (low dose). ■ Starvation.

KEY FACT Colchicine inhibits neutrophil chemotaxis and is most effective when used early during a gout flare. However, it can cause diarrhea and bone marrow suppression (neutropenia).

Birefringence ⊝

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KEY FACT Keratoconjunctivitis sicca 2° to Sjögren syndrome is a common ocular manifestation of RA.

KEY FACT Felty syndrome is characterized by RA, splenomegaly, and neutropenia. Caplan syndrome is characterized by RA, pneumoconiosis, and lung nodules.

KEY FACT The DIP joint is spared in RA but is involved in OA.

MUSCULOSKELETAL

Rheumatoid Arthritis A systemic autoimmune disorder characterized by chronic, destructive, inflammatory arthritis with symmetric joint involvement that results in synovial hypertrophy and pannus formation, ultimately leading to erosion of adjacent cartilage, bone, and tendons. Risk factors include female gender, 35–50years of age, and HLA-DR4. History/PE ■ Insidious onset of prolonged morning stiffness (> 30 minutes) along with painful, warm swelling of multiple symmetric joints (wrists, MCP joints, PIP joints of hands, ankles, knees, shoulders, hips, and elbows) for >6weeks. ■ Rheumatoid nodules may form at bony prominences and near joints affected by the disease. ■ In late cases, ulnar deviation of the fingers is seen with MCP joint hypertrophy (see Figure 2.9-7). ■ Also presents with ligament and tendon deformations (eg, swan-neck and boutonnière deformities), vasculitis, atlantoaxial subluxation (intubation risk), and keratoconjunctivitis sicca. Diagnosis ■ Diagnostic criteria (need ≥ 6 points): ■ ↑ Rheumatoid factor (RF) (IgM antibodies against Fc IgG) or the presence of anti-CCP antibodies (1 point). ■ ↑ ESR or CRP (1 point). ■ Inflammatory arthritis of ≥ 3 or more joints (up to 5 points). ■ Symptom duration > 6 weeks (1 point). ■ Exclusion of diseases with similar clinical presentations such as psoriatic arthritis, gout, pseudogout, and systemic lupus erythematosus (SLE). ■ Labs: ■ Anemia of chronic disease is common. ■ Synovial fluid aspirate shows turbid fluid, ↓ viscosity, and an ↑ WBC count (3000–50,000 cells/μL).

A

B

F I G U R E 2 . 9 - 7 .   Rheumatoid arthritis. (A) Note the typical ulnar deviation of the MCP joints and swelling of the MCP and PIP joints. Multiple subcutaneous rheumatoid nodules are also seen. (B) Hand x-ray shows symmetric erosions and joint space narrowing involving the MCP (arrow), carpal (arrowhead), and radioulnar (curved arrow) joints. Ulnar deviation at the MCP joint is also noted. Image A reproduced with permission from Wolff K, et al. Fitzpatrick’s Dermatology in General Medicine, 7th ed. New York, NY: McGraw-Hill; 2008. Image B reproduced with permission from USMLE-Rx.com.)

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X-rays (not necessary to confirm RA): ■ Early: Soft tissue swelling and juxta-articular demineralization. ■ Late: Symmetric joint space narrowing and erosions (see Figure 2.9-7B).

Treatment ■ Best initial therapy: NSAIDs. Can be ↓ or discontinued following successful treatment with disease-modifying antirheumatic drugs (DMARDs). ■ DMARDs should be started early and include methotrexate (the best initial DMARD to start with), hydroxychloroquine, and sulfasalazine. Second-line agents include TNF inhibitors, rituximab (anti-CD20), and leflunomide.

KEY FACT Hydroxychloroquine causes retinal toxicity.

Complications Joint deformation, osteopenia, osteoarthritis. Extra-articular manifestations that affect several organ systems. Examples include anemia, rheumatoid nodules, scleritis, amyloidosis, cardiovascular disease, vasculitis, lung fibrosis, Caplan syndrome, carpal tunnel syndrome, Sjögren syndrome, and Felty syndrome.

Seronegative Spondyloarthropathy ANKYLOSING SPONDYLITIS

A chronic inflammatory disease of the spine and pelvis that leads to fusion of the affected joints. Strongly associated with HLA-B27. Risk factors include male gender and a ⊕ family history.

KEY FACT Reactive arthritis: “Can’t see (uveitis), can’t pee (urethritis), can’t climb a tree (arthritis).”

History/PE ■ Typical onset is in the late teens and early 20s. Presents with fatigue, intermittent hip pain, and LBP that worsens with inactivity and in the mornings. Pain is relieved by exercise. ■ ↓ Spine flexion (⊕ Schober test), loss of lumbar lordosis, hip pain and stiffness, and ↓ chest expansion are seen as the disease progresses. Vertebral fracture may occur after minimal trauma. ■ Anterior uveitis and heart block can occur. ■ Associated with enthesitis (pain at insertion of tendons/ligaments) at the heel. ■ Other forms of seronegative spondyloarthropathy must be ruled out, including the following: ■ Reactive arthritis: A disease of young men. The characteristic arthritis, uveitis, conjunctivitis, and urethritis usually follow an infection with Campylobacter, Shigella, Salmonella, Chlamydia, or Ureaplasma. ■ Psoriatic arthritis: An oligoarthritis that can include the DIP joints. Associated with psoriatic skin changes and sausage-shaped digits (dactylitis). X-rays show a classic “pencil in cup” deformity. ■ Enteropathic spondylitis: An ankylosing spondylitis–like disease characterized by sacroiliitis that is usually asymmetric and is associated with IBD. Diagnosis ■ Best initial test: X-rays may show fused sacroiliac joints, squaring of the lumbar vertebrae, development of vertical syndesmophytes, and bamboo spine (see Figure 2.9-8). ■ ⊕ HLA-B27 is found in 85–95% of cases. ■ ESR or CRP is ↑ in 85% of cases. ■ ⊝ RF; ⊝ antinuclear antibody (ANA).

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F I G U R E 2 . 9 - 8 .   Ankylosing spondylitis. Frontal view of the thoracolumbar

spine shows the classic “bamboo” appearance of the spine, which results from fusion of the vertebral bodies and posterior elements. (Reproduced with permission from

Chen MY et al. Basic Radiology, 2nd ed. New York, NY: McGraw-Hill; 2011.)

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MUSCULOSKELETAL Treatment ■ Best initial therapy: NSAIDs (eg, indomethacin) for pain; exercise to improve posture and breathing. ■ TNF inhibitors or sulfasalazine can be used in refractory cases.

Polymyositis and Dermatomyositis Polymyositis is a progressive, systemic connective tissue disease characterized by immune-mediated striated muscle inflammation. Dermatomyositis pre­ sents with symptoms of polymyositis plus cutaneous involvement, although the pathogenesis is different. Most often affect patients 50–70 years of age; the male-to-female ratio is 1:2. African-American individuals are affected more often than white individuals (see Table 2.9-7). History/PE ■ See Table 2.9-7. ■ Patients may also develop myocarditis and cardiac conduction deficits. ■ Can be associated with an underlying malignancy, especially lung, breast, and ovarian carcinoma. Dermatomyositis is associated with ↑ rate of malignancy. Diagnosis ■ Based on characteristic clinical and laboratory presentation. ■ Best initial test: ↑ Serum creatine kinase and anti-Jo-1 antibodies can be seen (see Table 2.9-8). TA B L E 2.9 - 7. 

Polymyositis vs Dermatomyositis

Polymyositis Symmetric, progressive proximal muscle weakness and/or pain

Dermatomyositis ⊕ Rash Heliotrope rash: A violaceous periorbital rash (see image A)

Difficulty getting up from a seat or climbing stairs Difficulty breathing or swallowing (advanced disease)

A “Shawl sign”: A rash involving the shoulders, upper chest, and back Gottron papules: Papular rash with scales on the dorsa of the hands, over bony prominences (see image B)

Gottron papule

Capillary nail fold changes

B Images reproduced with permission from Dhoble A, Puttarajappa C, Neiberg A. Dermatomyositis and supraventricular tachycardia. Int Arch Med. 2008;1:25.

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Most accurate test: Muscle biopsy can provide accurate diagnosis in atypical presentations.

Treatment ■ Best initial treatment: High-dose corticosteroids with taper after 4–6weeks to ↓ the maintenance dose. ■ Azathioprine and/or methotrexate can be used in steroid-resistant or intolerant cases.

Raynaud Phenomenon Abnormal vasoconstriction of peripheral arteries in response to cold, leading to blue or white color changes. May be primary or associated with other autoimmune conditions. Patients should be tested for antinuclear antibodies and rheumatoid factor, and can be treated with calcium channel blockers.

Systemic Sclerosis Also called scleroderma; characterized by inflammation that leads to progressive tissue fibrosis through excessive deposition of types I and III collagen. TA B L E 2.9 - 8. 

Common Antibodies and Their Disease Associations

Antibody

Disease Association

ANA

SLE

Anti-CCP

RA

Anticentromere

CREST syndrome

Anti-dsDNA

SLE

Antihistone

Drug-induced SLE

Anti-Jo-1

Polymyositis/dermatomyositis

Anti-Ro/anti-La

Sjögren syndrome

Anti-Scl-70

Systemic sclerosis

Anti-Sm

SLE

Anti–smooth muscle

Autoimmune hepatitis

c-ANCA

Vasculitis, especially granulomatosis with polyangiitis (Wegener)

p-ANCA

Vasculitis, microscopic polyangiitis

RF

RA

U1RNP antibody

Mixed connective tissue disease

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A 49-year-old man presents with a painful, swollen big toe after a night of heavy drinking. His home medications are lansoprazole, ASA, sildenafil, and psyllium. Which medication should he temporarily discontinue?

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MNEMONIC CREST syndrome— Calcinosis Raynaud phenomenon Esophageal dysmotility Sclerodactyly Telangiectasias

KEY FACT Raynaud phenomenon may be triggered by cold temperatures and stress. It can be treated with CCBs such as nifedipine or amlodipine.

MUSCULOSKELETAL

Commonly manifests as CREST syndrome (limited form) but can also occur in a diffuse form (20% of cases) involving the skin and the GI, GU, renal, pulmonary, and cardiovascular systems. Risk factors include female gender and 35–50 years of age. History/PE ■ Exam may reveal symmetric thickening of the skin of face and/or distal extremities. ■ Limited cutaneous: Head, neck, distal upper extremities. ■ Diffuse cutaneous: Torso, abdomen, proximal upper extremity/ shoulder. ■ CREST syndrome: Associated with limited cutaneous type. ■ Raynaud phenomenon: Vasospasm of arteries supplying fingers causing pain and pallor (white), followed by cyanosis (blue), and finally reactive hyperemia (red). ■ The diffuse form can lead to GI dysmotility, pulmonary fibrosis, cor pulmonale, acute renal failure (scleroderma renal crisis), and malignant hypertension. Diagnosis ■ Diagnosis and categorization depends on constellation of symptoms. ■ RF and ANA may be ⊕. ■ Anti-centromere antibodies are specific for CREST syndrome (see Table 2.9-8). ■ Anti-Scl-70 (anti-topoisomerase 1) antibodies are associated with diffuse disease and a poor prognosis (see Table 2.9-8). ■ Severe disease may cause microangiopathic hemolytic anemia with schistocytes. Treatment ■ Treatment is organ-based and includes frequent monitoring for progressive damage. ■ Corticosteroids for acute flares (but ↑ risk for renal crisis); methotrexate for limited scleroderma. ■ Calcium channel blockers (dihydropyridine) such as amlodipine for Raynaud phenomenon. ■ Angiotensin-converting enzyme inhibitors for renal disease and for prevention/treatment of renal crisis. Complications Mortality is most commonly caused by complications of pulmonary hypertension, and resulting renal or cardiac disease.

F I G U R E 2 . 9 - 9 .   Systemic lupus erythematosus (SLE). The malar rash

of SLE is a red-to-purple, continuous plaque extending across the bridge of the nose and to both cheeks. (Reproduced with

permission from Bondi EE. Dermatology: Diagnosis and Therapy, 1st ed. Stamford, CT: Appleton & Lange; 1991.)

ASA (aspirin). This patient is having an acute gout attack, and ASA can cause ↓ excretion of uric acid by the kidney.

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Systemic Lupus Erythematosus A multisystem autoimmune disorder related to antibody-mediated cellular attack and deposition of antigen-antibody complexes. African-American women are at highest risk. Usually affects women of childbearing age. History/PE ■ Presents with nonspecific symptoms such as fever, anorexia, weight loss, and symmetric joint pain. ■ The mnemonic DOPAMINE RASH summarizes many of the key clinical manifestations of SLE (see Figure 2.9-9).

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MUSCULOSKELETAL Diagnosis ■ The mnemonic DOPAMINE RASH summarizes the criteria for diagnosing SLE. Patients with four of the criteria are likely to have SLE (96% sensitive and specific). ■ A ⊕ ANA is highly sensitive (present in 95–99% of cases). If ⊕ ANA, test for other antibodies, mainly anti-dsDNA and anti-Sm. Both are highly specific but not as sensitive (see Table 2.9-8). ■ Drug-induced SLE: ⊕ Antihistone antibodies are seen in 100% of cases but are nonspecific. ■ Neonatal SLE: Associated with ⊕ anti-Ro antibodies transmitted from mother to neonate. ■ The following may also be seen: ■ Low complement levels. ■ Antiphospholipid antibodies (antibodies to anticardiolipin, anti– β2-glycoprotein, or lupus “anticoagulant”). All cause hypercoagulable state and may cause recurrent spontaneous abortion. ■ Raynaud phenomenon. ■ Anemia, leukopenia, and/or thrombocytopenia. ■ Proteinuria and/or casts. Treatment ■ NSAIDs for mild joint symptoms. ■ Corticosteroids for acute exacerbations. Be wary of Cushing syndrome and possible avascular necrosis from chronic use. ■ Corticosteroids, hydroxychloroquine, cyclophosphamide, and azathioprine can be used for progressive or refractory cases. A few have specific uses: ■ Hydroxychloroquine: Can be used for isolated skin and joint involvement. ■ Cyclophosphamide: Used for severe cases of lupus nephritis. Be sure to get a renal biopsy for patients with nephritic symptoms.

Serum Sickness–like Reaction Fever, urticarial rash, arthralgia, lymphadenopathy, and proteinuria within 1–2 weeks of exposure to a β-lactam antibiotic or sulfa drug. Symptoms resolve upon discontinuation of the drug.

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MNEMONIC Criteria for SLE—

DOPAMINE RASH Discoid rash Oral ulcers Photosensitivity Arthritis (nondeforming) Malar rash Immunologic criteria: dsDNA, Sm proteins, antiphospholipids Neurologic symptoms (lupus cerebritis, seizures) Elevated ESR Renal disease ANA ⊕ Serositis (pleural or pericardial effusion) Hematologic abnormalities

KEY FACT The lupus anticoagulant occurs in 5–10% of SLE cases. IgM or IgG binds proteins in clinical assay test and prolongs PTT.

KEY FACT Libman-Sacks endocarditis: Noninfectious vegetations often seen on the mitral valve in association with SLE and antiphospholipid syndrome.

KEY FACT

Giant Cell Arteritis Formerly temporal arteritis; caused by subacute granulomatous inflammation of the large vessels, including the aorta, external carotid (especially the temporal branch), and vertebral arteries. Risk factors include polymyalgia rheumatica (affects almost one-half of patients), > 50 years of age, and female gender. History/PE ■ Presents with new headache (unilateral or bilateral); scalp pain and temporal tenderness; and jaw claudication. ■ Fever, permanent monocular blindness, aortic aneurysm, weight loss, and myalgias and/or arthralgias (especially of the shoulders and hips) are also seen.

SLE can cause a ⊕ VDRL or RPR test!

KEY FACT SLE and RA both affect the MCP and PIP joints; the difference is that SLE is nondeforming.

Diagnosis ■ Best initial test: ESR > 50 mm/h (influenced by age). ■ Most accurate test: Temporal artery biopsy. Look for thrombosis, necrosis of the media, and presence of lymphocytes, plasma cells, and giant cells.

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MUSCULOSKELETAL Treatment ■ Best initial treatment: High-dose prednisone immediately to prevent ocular involvement (or involvement of the remaining eye after onset of monocular blindness). If suspected contribution to vision loss, give pulse-dose steroids. ■ Obtain a biopsy, but do not delay treatment. Conduct a follow-up eye exam. Complications The most feared manifestation is blindness 2° to occlusion of the central retinal artery (a branch of the internal carotid artery) that may initially present as transient vision loss.

Takayasu Arteritis Large vessel autoimmune vasculitis common in Asian women < 40 years of age. Classic symptoms include aortic claudication, differential blood pressure in both upper extremities, and the absence of palpable pulses (pulseless disease). ESR and CRP are highly elevated. Treat with steroids.

Behçet Syndrome Autoimmune vasculitis common in men of Turkish or Middle Eastern descent. Characterized by recurrent, painful oral ulcers, uveitis, and genital ulcers. Thrombosis is a common cause of morbidity. Treat with steroids.

Complex Regional Pain Syndrome A pain syndrome accompanied by loss of function and autonomic dysfunction, usually occurring after trauma. The disease has three phases: acute/traumatic → dystrophic phase → atrophic phase. Not linked with true nerve injury. History/PE ■ Diffuse pain occurs out of proportion to the initial injury, often in a nonanatomic distribution. ■ Pain can occur at any time relative to the initial injury. ■ Loss of function of the affected limb is seen. ■ Sympathetic dysfunction occurs and may be documented by skin, soft tissue, or blood flow changes. ■ Skin temperature, hair growth, and nail growth may ↑ or ↓. Edema may be present. Diagnosis A clinical diagnosis, but objective evidence of changes in skin temperature, hair growth, or nail growth may be present. Treatment ■ Best initial treatment: Trial of NSAIDs along with physical and occupational therapies. ■ Other medications include corticosteroids, low-dose tricyclic antidepressants, gabapentin, pregabalin, and calcitonin (no oral medications are consistently effective). ■ Chemical sympathetic blockade may relieve symptoms. ■ Referral to a chronic pain specialist is appropriate for complicated cases.

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Fibromyalgia A chronic musculoskeletal pain disorder that primarily affects young women and is characterized by soft tissue and axial skeletal pain in the absence of joint pain. Inflammation is notably absent (see Table 2.9-9). May be difficult to distinguish from myofascial pain (< 11 painful areas). Hx/PE: Most common in women 30–50 years of age; associated with depression, anxiety, sleep disorders, irritable bowel syndrome (IBS), and cognitive disorders (“fibro fog”). ■ Dx: Multiple (≥ 11 of 18) painful areas over all four body quadrants and the axial skeleton must be present for diagnosis. The presence of 50 years of age (see Table 2.9-9). Hx/PE: ■ Presents with pain and stiffness of the shoulder and pelvic girdle musculature with difficulty getting out of a chair or lifting the arms above the head. ■ Other symptoms include fever, malaise, and weight loss. Weakness is generally not appreciated on exam. ■ Dx: Labs reveal a markedly ↑ ESR, often associated with anemia. ■ Tx: Low-dose prednisone (10–20 mg/day). ■

TA B L E 2.9 - 9. 

Fibromyalgia vs Polymyalgia Rheumatica

Characteristic

Fibromyalgia

Polymyalgia Rheumatica

Age and sex

Women 30–50 years of age

Women > 50 years of age

Location

Various

Shoulder and pelvic girdle

ESR

Normal

Markedly ↑ (> 100 mm/h)

Muscle biopsy

Normal

Normal

Classic findings

Treatment

Anxiety, stress, point tenderness,

Temporal arteritis; response to

⊝ workup

steroids

Antidepressants, NSAIDs, rest

Low-dose prednisone

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A 55-year-old woman presents to the clinic with a chief complaint of “blindness.” She states that she experienced a temporary loss of vision in her left eye. She has also been experiencing new headaches and soreness in her jaw. Her vision exam is unremarkable. What diagnostic exam should be ordered?

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MUSCULOSKELETAL

NOTES

Monocular amaurosis fugax is associated with giant cell (temporal) arteritis and may progress to complete vision loss. A temporal artery biopsy should be obtained.

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NEUROLOGY Clinical Neuroanatomy

276

Dementia 297

High-Yield Peripheral Nerves

278

Alzheimer Disease

297

Trigeminal Neuralgia

278

Vascular Dementia

298

Cauda Equina Syndrome

278

Frontotemporal Dementia (Pick Disease)

298

Normal Pressure Hydrocephalus

299

Vascular Disorders

278

Stroke

278

Creutzfeldt-Jakob Disease

300

Lewy Body Dementia

300

Subarachnoid Hemorrhage

281

Intracerebral Hemorrhage

283

Movement Disorders

301

Subdural and Epidural Hematoma

284

Huntington Disease

301

Cavernous Sinus Thrombosis

284

Parkinson Disease

302

Restless Legs Syndrome

303

Headaches 286 Common Primary Headaches

286

Secondary Headaches

287

Neoplasms 303 Neurocutaneous Disorders

304

Seizure Disorders

288

Neurofibromatosis

Status Epilepticus

290

Tuberous Sclerosis

306

Sturge-Weber Syndrome

307

Vertigo 290 Benign Paroxysmal Positional Vertigo

291

Acute Peripheral Vestibulopathy   (LabyrinthitisorVestibularNeuritis)

291

Ménière Disease

292

Syncope

292

Disorders of the Neuromuscular Junction

293

Myasthenia Gravis

293

Lambert-Eaton Myasthenic Syndrome

294

Demyelinating Lesions

294

Multiple Sclerosis

294

Guillain-Barré Syndrome

295

Amyotrophic Lateral Sclerosis

296

304

Aphasia 307 Broca Aphasia

307

Wernicke Aphasia

308

Coma 308 Nutritional Deficiencies

310

Ophthalmology 310 Visual Field Defects

310

Glaucoma

310

Cataracts

312

Age-Related Macular Degeneration

312

Retinal Vascular Occlusion

313

275

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NEUROLOGY

Clinical Neuroanatomy Tables 2.10-1 to 2.10-4 highlight critical aspects of clinical neuroanatomy, including the clinical presentation of common spinal cord lesions; facial nerve lesions; and pertinent clinical reflexes. TA B L E 2.10 - 1. 

Tract

Spinal Tract Functions

Function

Clinical Effects of Lesion

Lateral

Movement of ipsilateral

Ipsilateral paresis at and below level of lesion

corticospinal

limbs and body

Dorsal column

Fine touch, vibration, con-

Ipsilateral loss of fine touch, vibration, and

medial lemniscus

scious proprioception

proprioception at and below level of lesion

Spinothalamic

Pain, temperature

Contralateral loss of pain and temperature at and below level of lesion

TA B L E 2.10 - 2. 

Spinal Cord Lesions

Area Affected

Disease Poliomyelitis and

Characteristics LMN lesions only, caused by destruction of anterior horns; flaccid paralysis

spinal muscular atrophy

Multiple sclerosis

Caused by demyelination; random and asymmetric lesions; white matter of spinal cord, mostly cervical region

Brown-Séquard

Contralateral loss of pain and temperature sensation one to two levels below lesion

hemisection

Ipsilateral hemiparesis and diminished dorsal column sensation below level of lesion

Amyotrophic

Combined UMN and LMN deficits with no sensory or oculomotor deficits; both UMN and LMN signs

lateral sclerosis

Commonly presents as fasciculations with eventual atrophy and weakness of hands; fatal Riluzole treatment modestly ↑ survival by ↓ presynaptic glutamate release Commonly known as Lou Gehrig disease in the United States and motor neuron disease in the United Kingdom. For Lou Gehrig disease, give rilouzole

Posterior spinal arteries

Complete occlu-

Spares dorsal columns. Sensory-motor dissociation

sion of anterior

Associated with abdominal aortic surgery

spinal artery

Anterior spinal artery

(continues)

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TA B L E 2.10 - 2. 

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Spinal Cord Lesions (continued)

Area Affected

Disease

Characteristics

Central cord

Weakness more pronounced in upper extremities than lower extremities

syndrome

Caused by hyperextension injuries in individuals > 50 years of age

Tabes dorsalis

Caused by 3° syphilis. Results from degeneration (demyelination) of dorsal columns and roots → impaired sensation and proprioception, progressive sensory ataxia (inability to sense or feel the legs) → poor coordination Associated with Charcot joints (repeated unknowing trauma to joint caused by lack of pain), shooting pain, Argyll Robertson pupils Exam will demonstrate absence of deep tendon reflex and ⊕ Romberg sign

Syringomyelia

Syrinx (CSF-filled cavity within spinal cord) expands and damages anterior white commissure of spinothalamic tract. Can arise from trauma or tumors; seen in 35% of Chiari malformations. Results in a capelike, bilateral loss of pain and temperature in upper extremities

Vitamin B12

Subacute combined degeneration—demyelination of dorsal columns, lateral corticospinal tracts,

deficiency

and spinocerebellar tracts; ataxic gait, paresthesia, impaired position and vibration sense

Cauda equina

Compression of spinal roots L2 and below, most likely caused by disc herniation; saddle anes-

syndrome

thesia, loss of bladder and anal sphincter control, and absent knee and ankle jerk reflexes

Modified with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill Education; 2018. TA B L E 2.10 - 3. 

Facial Nerve Lesions

Type UMN lesion

Description Lesion of the motor cortex: contralateral paralysis of the lower face only

LMN lesion

Comments ALexander Bell with STD: AIDS, Lyme, Sarcoid, Surgery, Tumors, Diabetes Face area of motor cortex

Peripheral ipsilateral facial paralysis with inability to close the eye on the involved side. If it occurs idiopathically, it is Bell palsy. Gradual recovery is seen in most cases

Facial nerve

Seen as a complication in AIDS, Lyme disease,

palsy

Sarcoidosis, Parotid Surgery, Tumors, and Diabetes

Corticobulbar tract (UMN lesion—central) Upper division Facial Lower division nucleus CN VII (LMN lesion—peripheral; cannot wrinkle forehead)

Adapted with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill Education; 2018. Image reproduced with permission from USMLE-Rx.com.

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NEUROLOGY

TA B L E 2.10 - 4. 

Commonly Tested Reflexes

Distribution

C5, 6 C7, 8 L3, 4

Location

Mnemonic

Biceps = C5 nerve root

1–2, tie your shoe

Triceps = C7 nerve root

3–4, kick the door

Patella = L4 nerve root

5–6, pick up sticks

Achilles = S1 nerve root

7–8, close the gate

Babinski—dorsiflexion of the big toe and fanning of other toes; sign of UMN lesion, but normal

S1, 2

reflex in the first year of life

Adapted with permission from Le T et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill; 2018.

HIGH-YIELD PERIPHERAL NERVES

Femoral nerve: Innervates anterior thigh muscles and controls knee extension and hip flexion. ■ Lateral femoral cutaneous nerve: Sensation to lateral thigh. Can be compressed as a result of surgeries or procedures (IVC filter placement) and can cause paresthesias (meralgia paresthetica). ■

TRIGEMINAL NEURALGIA

Recurrent, severe pain along distributions of the trigeminal nerve (CN V), often triggered by cold or minor trauma. Treat with carbamazepine. If bilateral, suspect multiple sclerosis. CAUDA EQUINA SYNDROME

Compression of lumbar and sacral nerve roots. May be caused by epidural abscess, trauma, or metastatic cancer. Dx: Presents with saddle anesthesia, bowel or bladder incontinence, hyporeflexia, and asymmetric muscle weakness. ■ Tx: MRI, and surgical evaluation (in that order). ■

Conus medullaris syndrome presents similarly with robust parasympathetic dysfunction, but has symmetric weakness. Treatment is the same as for cauda equina.

Vascular Disorders STROKE

KEY FACT Cerebrovascular accident is the fifth most common cause of death and a leading cause of major disability in the United States.

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Disruption of cerebral blood flow leads to death of brain cells, resulting in acute onset of focal neurologic deficits. Can be ischemic (80%) or hemorrhagic (20%). Table 2.10-5 contrasts modifiable and nonmodifiable risk factors associated with stroke. Common etiologies are listed later. Atherosclerosis of the extracranial (carotid and vertebral) and intracranial vessels (internal carotid, cerebral, basilar, and vertebral arteries). ■ Chronic hypertension, hypercholesterolemia, and diabetes can damage perforating vessels supplying deep regions of brain, leading to lacunar infarcts. ■ Cardiac or aortic emboli. ■

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TA B L E 2.10 - 5. 

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279

Modifiable and Nonmodifiable Risk Factors for Stroke

Modifiable Risk Factors

Nonmodifiable Risk Factors

“Live the way a COACH SHoulDD”:

FAME:

CAD

Family history of MI or stroke

Obesity

Age > 60

Atrial fibrillation

Male gender

Carotid stenosis

Ethnicity (African-American, Hispanic, Asian)

Hypercholesterolemia Smoking Hypertension (highest risk factor) Diabetes Drug use (cocaine, IV drugs)

Other causes: Hypercoagulable states, craniocervical dissection, venous sinus thrombosis, sickle cell anemia, vasculitis (eg, giant cell arteritis).

History/PE Symptoms are dependent on the vascular territory affected (see Table 2.10-6). TA B L E 2.10 - 6. 

A 82-year-old woman presents to the ED with a 2-day history of difficulty speaking and weakness in her right face and arm. During the interview, she speaks in two- to three-word choppy sentences but can follow commands. She cannot repeat what you say. Where is her lesion?

Common Stroke Symptoms by Vessel Territory

Vessel Territory Middle cerebral artery

Distinguishing Symptoms Contralateral paresis and sensory loss in the face and arm; gaze; homonymous hemianopsia preference toward the side of the lesion Nondominant hemisphere—neglect Dominant hemisphere (90% left side)—aphasia

Anterior cerebral artery

Contralateral paresis and sensory loss in the leg; cognitive or personality changes; urinary incontinence

Posterior cerebral artery

Vertigo; homonymous hemianopsia; ipsilateral sensory loss of face, CN IX and CN X; contralateral sensory loss of limbs; limb ataxia

Lacunar

Symptoms are pure motor, pure sensory, ataxic hemiparesis, dysarthria, or clumsy hand Strokes affecting the thalamus may cause thalamic pain syndrome several weeks after the event, with hypersensitive pain response over the affected area of the body

Small penetrating arteries of basal

Eye deviation toward lesion (putamen injury), contralateral hemiparesis and sensory loss

ganglia and internal capsule Transient ischemic attack

Any of the symptoms above, depending on location of vascular lesion Neurologic deficit lasts < 24 hours (most last < 1 hour) Often without findings on MRI

PICA/vertebral (Wallenberg

Loss of pain and temperature sensation on ipsilateral face and contralateral body

syndrome)

Ipsilateral bulbar weakness Ipsilateral Horner syndrome Vertigo, nystagmus

Carotid artery dissection

Sudden headache, neck pain, Horner syndrome Caused by oropharyngeal injury

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MNEMONIC MCA stroke can cause CHANGes— Contralateral paresis and sensory loss in the face and arm Hemiparesis Aphasia (dominant) Neglect (nondominant) Gaze preference toward the side of the lesion

MNEMONIC Contraindications to tPA therapy (major ones italicized)—

NEUROLOGY Diagnosis ■ Best initial step: Head CT without contrast (see Figure 2.10-1A) to differentiate ischemic from hemorrhagic stroke and identify potential candidates for thrombolytic therapy. Ischemic strokes < 6 hours old are usually not visible on CT scan. ■ Labs to draw immediately, in case thrombolytic therapy or intervention may be required, include CBC, PT/PTT, cardiac enzymes and troponin, and BUN/creatinine. ■ Diffusion-weighted MRI (follow-up to CT) (see Figure 2.10-1B) to identify early ischemic changes not detected on CT. ■ Determine underlying cause of stroke: ■ Cardioembolic: ECG; echocardiogram; Holter monitor if initial ECG normal. ■ Thrombotic: Carotid ultrasonography; MRA; CTA; transcranial Doppler; conventional angiography (see Figure 2.10-1C). ■ Other potential causes that should be worked up if there is a high index of suspicion: hypercoagulable states; sickle cell disease; vasculitis. Treatment Acute treatment measures are as follows: Hemorrhagic stroke: See intracerebral hemorrhage discussion. Ischemic stroke: ■ Thrombolytics (tPA) if < 3–4.5 hours since onset of stroke and no bleeding or absolute contraindications. Permissive hypertension allowed in stroke for perfusion of ischemic area, but patient’s systolic BP must be < 185 and diastolic BP < 110 mm Hg for tPA. Note: Because of uncertainties within this 3–4.5-hour window, the USMLE exam will make it very clear how long it has been since onset of symptoms. ■ ASA if > 3 hours since onset of stroke/TIA. ■ Treat fever and hyperglycemia as both are associated with poorer prognoses in the setting of acute stroke. ■ Monitor for signs and symptoms of brain swelling, ↑ intracranial pressure (ICP), and herniation. Treat acutely with mannitol and hyperventilation. ■ Prevent and treat poststroke complications, such as aspiration pneumonia, urinary tract infection (UTI), and deep vein thrombosis (DVT).

■ ■

SAMPLE STaGES Stroke or head trauma within the last 3months *Anticoagulation with INR > 1.7 or prolonged PTT MI in past 3 months Prior intracranial hemorrhage Low platelet count (< 100,000/mm3) *Elevated BP: Systolic > 185 mm Hg or diastolic > 110 mm Hg Major Surgery in the past 14 days TIA (mild symptoms or rapid improvement of symptoms) within 6 months GI or urinary bleeding in the past 21 days or Glucose < 50 *Elevated (> 400 mg/dL) or ↓ (< 50 mg/ dL) blood glucose Seizures present at onset of stroke *If values can be corrected using appropriate treatment before the 3–4.5-hour period, consider tPA treatment.

This patient presents with Broca aphasia. In Broca aphasia, the lesion is in the posterior frontal cortex of the dominant side of the brain, in this case the left.

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Preventive and long-term treatment measures are as follows: Hypertension management (diastolic BP < 80 mm Hg). Diabetes management (blood sugar level approximately 100 mg/dL). Blood lipids management with a statin. Acetylsalicylic acid (ASA) or clopidogrel. Diet, exercise, and a reasonable BMI. For cardioembolic strokes, anticoagulation. In new atrial fibrillation (AF) or hypercoagulable states, the target 0 is 2–3. In cases involving a prosthetic valve, the target INR is 2.5–3.5. ■ For vascular pathology (pipe failure), antiplatelet medication. ■ Carotid endarterectomy: If stenosis is > 60% in symptomatic patients or > 70% in asymptomatic patients (contraindicated in 100% occlusion; see Figure 2.10-2). Benefits may also occur in lower absolute percent stenosis; use clinical judgment when answering these questions. ■ ■ ■ ■ ■ ■

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HIGH-YIELD FACTS IN

281

A

B

C

F I G U R E 2 . 1 0 - 1 .   Acute ischemic stroke. Acute left hemiparesis in a 62-year-old woman. (A) Noncontrast head CT with loss of gray and white matter differentiation and asymmetrically decreased size of the right lateral ventricle in a right MCA distribution (indicating mass effect). (B) Diffusion-weighted MRI with reduced diffusion in the same distribution, consistent with an acute infarct; diffusion-weighted sequences are the most sensitive modality for diagnosing an acute ischemic infarct. (C) MRA shows the cause: an abrupt occlusion of the proximal right MCA (red arrow). Compare with the normal left MCA (yellow arrowhead). (Reproduced with permission from USMLE-Rx.com.)

SUBARACHNOID HEMORRHAGE

Etiologies of SAH include ruptured saccular aneurysms (berry aneurysms), arteriovenous malformation (AVM), and trauma; usually the bleed is located in the convexity of hemisphere to the circle of Willis.

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NEUROLOGY

A

B

F I G U R E 2 . 1 0 - 2 .   Vascular studies pre- and postendarterectomy. (A) Carotid arteriogram showing stenosis of the proximal internal carotid artery. (B) Postoperative arteriogram with restoration of the normal luminal size following endarterectomy. (Reproduced with permission from Way LW. Current Surgical Diagnosis & Treatment, 10th ed. Stamford, CT: Appleton & Lange; 1994.)

KEY FACT SAH = “the worst headache of my life” with sudden onset. Migraine = a gradually worsening headache (peak intensity > 30 minutes)

MNEMONIC Conditions associated with berry aneurysms that can MAKE an SAH more likely— Marfan syndrome Aortic coarctation Kidney disease (autosomal dominant, polycystic) Ehlers-Danlos syndrome Sickle cell anemia; Smoking tobacco Atherosclerosis History (familial); Hypertension; Hyperlipidemia

History/PE ■ Aneurysmal SAH presents with an abrupt-onset, intensely painful “thunderclap” headache, often followed by neck stiffness (caused by meningeal irritation). Other signs of meningeal irritation, including photophobia, nausea/vomiting, and meningeal stretch signs (Kernig and Brudzinski signs), can also be seen. ■ More than one-third of patients will give a history of a “sentinel bleed” (“warning leak”) days to weeks before presentation. ■ In the absence of neurosurgical intervention, rapid development of obstructive hydrocephalus or seizures often leads to ↓ arousal or frank coma and death. Diagnosis ■ Immediate head CT without contrast (see Figure 2.10-3A) to look for blood in the subarachnoid space. ■ Lumbar puncture (LP) if CT is ⊝ to look for RBCs, xanthochromia (yellowish cerebrospinal fluid [CSF] caused by breakdown of RBCs), ↑ protein (from the RBCs), and ↑ intracranial pressure (ICP) a few hours after onset of thunderclap headache. ■ Four-vessel angiography (or equivalent noninvasive angiography such as CT angiography with three-dimensional reconstructions) should be performed once SAH has been confirmed (see Figure 2.10-3B–D) to identify source of bleeding. Noninvasive angiography is warranted in high-risk cases and in those with high clinical suspicion even if CT and LP are unrevealing. Treatment ■ Most definitive treatment: Neurosurgery. May perform angiographic coiling and/or stenting to stabilize aneurysm. ■ Prevent rebleeding (most likely to occur in the first 24 hours) by maintaining systolic BP < 150 mm Hg until the aneurysm has been clipped or coiled.

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B

A

1

C

D

F I G U R E 2 . 1 0 - 3 .   Subarachnoid hemorrhage. Noncontrast CT (A) showing SAH filling the basilar cisterns and sylvian fissures (straight arrows). The curved arrow shows the dilated temporal horns of the lateral ventricles/hydrocephalus. Coned-down images (right) from a catheter angiogram (B), a CT angiogram (C), and an MRA (D) show a saccular aneurysm arising from the anterior communicating artery (arrow). (Image A reproduced with permission from Tintinalli JE, et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 6th ed. New York, NY: McGraw-Hill; 2004. Images B, C, and D reproduced with permission from Doherty GM. Current Diagnosis & Treatment: Surgery, 13th ed. New York, NY: McGraw-Hill; 2010.)

Prevent vasospasm and subsequent ischemic stroke (most likely to occur 4–10 days after SAH) by administering calcium channel blockers (CCBs), such as nimodipine. ■ Vasospasm is a major cause of delayed morbidity and mortality in patients with SAH. ■ ↓ ICP by raising the head of the bed and instituting hyperventilation in an acute setting (< 30 minutes after onset). ■ Treat hydrocephalus through a lumbar drain, serial LPs, or ventriculoperitoneal shunt. ■

INTRACEREBRAL HEMORRHAGE

Bleeding within brain parenchyma. Commonly affects deep brain regions such as basal ganglia, thalamus, pons, and cerebellum. Some risk factors

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A 68-year-old man presents to the ED with numbness and droop on the right side of the face, difficulty talking, and numbness and weakness in the right arm that began 2 hours ago. Where is this lesion, and what is the next best step in management?

2 A 59-year-old man with prior medical history of polycystic kidney disease was admitted for treatment of subarachnoid hemorrhage (SAH). Four days after admission, he developed weakness in his right arm. What could have prevented this?

3 A 59-year-old man with prior medical history of polycystic kidney disease is admitted for treatment of SAH. Four hours after admission, he develops weakness in his left arm. What is the cause of this new finding?

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C H

P T

F I G U R E 2 . 1 0 - 4 .   Intracerebral hemorrhage. Noncontrast head CT shows an intraparenchymal hemorrhage (H) and surrounding edema (arrows) centered in the left putamen, a common location for hypertensive hemorrhage. C, P, and T denote the normal contralateral caudate, putamen, and thalamus. (Reproduced with permission from Fauci AS, et al. Harrison’s Principles of Internal Medicine, 17th ed. New York, NY: McGraw-Hill; 2008.)

KEY FACT A “blown pupil” suggests ipsilateral third nerve compression.

1 Left MCA occlusion is the location, as aphasia and contralateral sensory loss and weakness are part of the description. CT of brain without contrast should be done to rule out hemorrhage and assess whether tPA should be initiated.

2 This patient’s focal weakness is probably caused by ischemia secondary to vasospasm.

3 New onset of neurologic symptoms within 24 hours following a SAH is most likely caused by rebleeding of the aneurysm (as opposed to bleeding days after, which is caused by vasospasm).

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include hypertension, tumor, and illicit drug use. Hypertension is the most common cause of intracerebral hemorrhage. History/PE ■ Early symptoms/signs: Focal motor or sensory deficits that often worsen as the hematoma expands. ■ Late symptoms/signs: Features of increased intracranial pressure (eg, vomiting and headache, bradycardia, reduced alertness). Diagnosis Immediate noncontrast head CT (see Figure 2.10-4). Look for hyperdense areas, mass effect, or edema that may predict herniation. Treatment ■ Monitor for signs of rebleed, shift, and possible herniation. ■ Suspect herniation if patient develops Cushing triad (hypertension, bradycardia, irregular respirations), fixed pupils, or loss of consciousness. ■ Herniation is a medical emergency. Treat with craniectomy to allow edema to expand outward. SUBDURAL AND EPIDURAL HEMATOMA

See Table 2.10-7. CAVERNOUS SINUS THROMBOSIS

A common etiology involves an uncontrolled infection of central facial skin, the orbit, or nasal sinuses that leads to septic thrombosis of the cavernous sinus. Staphylococcus aureus is the most common causative agent. Current antimicrobials have greatly ↓ both incidence and mortality.

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TA B L E 2.10 - 7. 

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Subdural Hematoma vs Epidural Hematoma

Subdural

Epidural

Common

Head trauma → rupture of bridging veins → accumulation

Head trauma → lateral skull fracture → tear of middle meningeal

etiology

of blood between dura and arachnoid membranes

artery → accumulation of blood between skull and dura mater

Epidemiology

Elderly, alcoholics

Severe trauma

History/PE

Headache; altered mental status; contralateral hemiparesis;

Immediate loss of consciousness followed by a lucid interval

focal neurologic findings; altered mental status in elderly

(minutes to hours)

Onset: subacute or chronic Diagnosis

CT findings: crescent-shaped, concave hyperdensity

CT findings: lens-shaped, biconvex hyperdensity

acutely (isodense subacutely; hypodense chronically)

Treatment

Neurosurgical evacuation if symptomatic

Emergent neurosurgical evacuation

Subdural hematomas may regress spontaneously

Can quickly evolve to brain herniation and death 2° to the arterial source of bleeding

Note:

In the setting of mild traumatic brain injury without vomiting, headache, and loss of consciousness but normal head CT, observe for 4–6 hours. If observation period is unremarkable, the patient can be sent home with extensive return precautions.

Images reproduced with permission from Aminoff MJ. Clinical Neurology, 3rd ed. Stamford, CT: Appleton & Lange; 1996.

History/PE ■ Headache is the most common presenting symptom. ■ Patients may present with orbital pain, edema, visual disturbances (2° to oculomotor, abducens, or trochlear nerve involvement). On exam, they typically appear ill and have a fever. ■ Late findings: Altered mental status such as confusion, drowsiness, or coma suggest spread to the CNS or sepsis. Diagnosis ■ MRI (with gadolinium and MR venography) is the main method for diagnosis, but CT angiography and CT venography are also often used for diagnosis.

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KEY FACT Altered mental status associated with an expanding epidural hematoma occurs within minutes to hours and classically includes: acute loss of consciousness → lucid interval → gradual loss of consciousness. With a subdural hematoma, such changes can occur within days to weeks.

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KEY FACT

NEUROLOGY Lab studies show ↑ WBC count. Blood cultures reveal the causative agent in up to 50% of cases.

■ ■

Xanthochromia (blood on an LP) is seen in two situations—herpes simplex virus (HSV) encephalitis and SAH.

Treatment ■ Treat aggressively and empirically with broad-spectrum antibiotics: ■ Vancomycin + third- or fourth-generation cephalosporin (eg, ceftriaxone or cefepime). ■ Metronidazole to cover anaerobic infection from sinus or dental sources. ■ Antifungal therapy is required for fungal cases. ■ IV antibiotics are recommended for at least 3–4 weeks. ■ Surgical drainage may be necessary if there is no response to antibiotics within 24 hours.

Headaches Headaches can either be primary/idiopathic (ie, migraine, cluster, tensiontype) or secondary (resulting from underlying disease, such as tumor or intracranial hemorrhage). COMMON PRIMARY HEADACHES

Migraine Headache

Recurrent headache disorder with attacks that last 4–72 hours. Headache is typically unilateral, pulsating, moderate or severe in intensity, and aggravated by routine physical activity. Affects women more than men; often familial; onset is usually by the teens to early 20s. Linked to changes in vascular tone and neurotransmitters (serotonin, dopamine). Triggers include certain foods (eg, red wine, cheese), fasting, stress, menses, OCPs, bright light, and disruptions in normal sleep patterns.

KEY FACT If a 25-year-old man wakes up repeatedly during the night with unilateral periorbital pain associated with ipsilateral lacrimation, think cluster headache.

History/PE ■ Presents with a throbbing headache (> 2 hours, but usually < 24 hours) that is associated with nausea, vomiting, photophobia, and noise sensitivity. Headache is usually relieved by sleep and darkness. Migraine can occur with or without aura. ■ Classic presentation of migraine with aura: Unilateral pulsating HA, preceded by a visual aura in the form of either scintillating scotomas (bright or flashing lights) or visual field cuts. Diagnosis Based on the history and an otherwise ⊝ work-up. Treatment ■ Avoid known triggers. ■ Abortive therapy includes triptans (after OTC NSAIDs have failed), alone or in addition to other analgesics such as naproxen. Consider symptomatic treatment for nausea. ■ Prophylaxis for frequent or severe migraines includes anticonvulsants (eg, valproate, gabapentin, topiramate), TCAs (eg, amitriptyline), β-blockers (propranolol), and CCBs. ■ Routine aerobic exercise and good sleep hygiene.

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Cluster Headache

Men are affected more often than women; average age of onset is 25 years. History/PE ■ Presents as a brief, excruciating, unilateral periorbital headache that lasts from 30 minutes to 3 hours, during which time the patient tends to be extremely restless. ■ Attacks tend to occur in clusters of time, affecting the same part of the head at the same time of day (commonly during sleep) during a certain season of the year. ■ Associated symptoms include ipsilateral lacrimation of the eye, conjunctival injection, Horner syndrome, and nasal stuffiness. Diagnosis Classic presentations with a history of repeated attacks over an extended period do not need imaging. First episodes require a work-up (ie, MRI, carotid artery ultrasound) to exclude structural brain lesion or disorders associated with Horner syndrome (ie, carotid artery dissection, cavernous sinus infection). Treatment ■ Acute therapy: High-flow O2 or sumatriptan injection. ■ Prophylactic therapy: Verapamil is first line. Alternatives include lithium, valproic acid, and topiramate. Tension-Type Headache

Hx: Presents with tight, bandlike pain around the head that is triggered by fatigue or stress. Nonspecific symptoms (eg, anxiety, poor concentration, difficulty sleeping) may also be seen. Usually occurs at the end of the day. ■ Dx: Must have at least two of the following characteristics: bilateral location, pressing/tightening quality; mild-moderate intensity; not aggravated by routine physical activity. Rule out giant cell arteritis in patients > 50 years of age with new headaches by obtaining an ESR, even if headaches are mild with no associated constitutional or vascular symptoms. ■ Tx: Relaxation, massage, hot baths, and avoidance of exacerbating factors. NSAIDs and acetaminophen are first-line abortive therapy, but triptans can also be considered. ■

SECONDARY HEADACHES

Consider secondary headaches when “red flags” are present. History/PE ■ Significant findings include fever or rash (consider meningitis or other infectious causes), jaw claudication (specific for temporal arteritis), or constitutional symptoms such as weight loss (associated with neoplastic, inflammatory, or infectious conditions). ■ Photophobia, nausea, vomiting, and neck stiffness can be associated with aneurysmal SAH and meningitis caused by meningeal irritation. ■ Conduct full general and neurologic exams, including a funduscopic exam.

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KEY FACT If a 30-year-old woman complains of headaches at the end of the day that worsen with stress and improve with relaxation or massage, think tensiontype headache.

KEY FACT Tension-type headaches are the most common type of headache diagnosed in adults.

1 A 28-year-old woman with no prior medical history presents with throbbing, unilateral headache that is exacerbated by menstruation and minimally relieved by acetaminophen and lying in a dark room. She would like something that would provide more symptomatic relief. What abortive therapy would you prescribe?

2 A 24-year-old woman with a BMI of 33 presents with a 3-week history of constant retro-orbital headache with occasional nausea, vomiting, and tinnitus. She also developed new-onset diplopia 2 hours before presentation. On physical exam, she is noted to have papilledema. What is the most likely diagnosis, and what are the risk factors for this condition?

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KEY FACT Headache red flags—First, Worst, Cursed; sudden onset of most severe headache ever, neurologic sequelae, nocturnal headache, morning vomiting, onset of headache > 50 years of age, focal neurologic signs or symptoms, papilledema, headache subsequent to head trauma.

NEUROLOGY

Neurologic sequelae: Look for diplopia, altered mental status or associated symptoms (numbness, weakness, dizziness, ataxia, visual disturbances), papilledema, or pupillary abnormalities (partial CN III palsy or Horner syndrome).

Diagnosis ■ If SAH is suspected, obtain a head CT without contrast. ■ Obtain a CBC to rule out systemic infections. ■ If temporal arteritis is suspected, obtain an ESR. Treatment ■ Directed toward underlying cause of headaches. ■ Analgesics for pain relief.

Seizure Disorders

KEY FACT 5 Ps of acute intermittent porphyria: Painful abdomen Polyneuropathy Psychiatric manifestations Port-wine colored urine Precipitated by certain drugs (eg inducers of cytochrome p450)

KEY FACT Both simple partial and complex partial seizures may evolve into 2° generalized seizures.

1 This patient’s symptoms are consistent with migraine headaches. You would prescribe a triptan for abortive therapy.

2 Given this patient’s symptoms and risk factors, she probably has pseudotumor cerebri, also known as idiopathic intracranial hypertension (IIH). In IIH, symptoms are suggestive of a brain tumor, and CSF pressure will be ↑; however, neuroimaging will be normal. Obesity, tetracycline, growth hormone, and excess vitamin A are risk factors for the disease. Treatment is with acetazolamide, frequent lumbar punctures, and ventriculoperitoneal shunt if needed.

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Sudden changes in neurologic activity caused by abnormal electrical activity in the brain that can often be detected on EEG. See Table 2.10-8 for common etiologies by age. Etiologies of seizures, and their distinguishing features, include the following: Idiopathic epilepsy (recurrent, unprovoked seizures): May be caused by genetics, developmental factors, early life brain injuries, and so on. ■ Acquired epilepsy could be caused by the following: ■ Structural brain lesion (tumor, stroke, AVM hemorrhage, or developmental abnormality). Tend to have focal onset or focal postictal deficit, suggesting focal CNS pathology. ■ Non-neurologic etiologies: Hypoglycemia, hyponatremia, hypocalcemia, hyperosmolar states, hepatic encephalopathy, uremia, porphyria, drug overdose (cocaine, antidepressants, neuroleptics, methylxanthines, lidocaine), drug withdrawal (alcohol and other sedatives), eclampsia, hyperthermia, hypertensive encephalopathy, head trauma, and cerebral hypoperfusion. ■

History/PE ■ Partial: Abnormal electrical activity arises from a discrete region (or multiple discrete regions) of the brain. Can involve motor features caused by sensory, autonomic, or psychic features (eg, fear, déjà vu, hallucinations). Aura is common (auditory, visual, olfactory, or tactile hallucinations). A postictal focal neurologic deficit (eg, hemiplegia/hemiparesis, or Todd paralysis) is possible and usually resolves within 24 hours. Can be simple or complex. ■ Simple: No impaired level of consciousness. TA B L E 2.10 - 8. 

Causes of Seizure by Age Group

Infants (< 2 years)

Children (2–10 years)

Perinatal

Adolescents (10–18 years)

Adults (18–35 years)

Adults (> 35 years)

Idiopathic

Idiopathic

Trauma

Trauma

injury

Infection

Trauma

Alcoholism

Stroke

Infection

Trauma

Drug withdrawal

Brain tumor

Metabolic disorders

Metabolic

Febrile

Arteriovenous mal-

Alcoholism

formations (AVM)

Brain tumor

Congenital

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NEUROLOGY

Complex: Typically involve the temporal lobe (70–80%) with bilateral spread of the aberrant electrical discharge, leading to impaired level of consciousness. Postictal confusion/disorientation/amnesia are characteristic. ■ Generalized seizures: Seizure activity that involves both cerebral hemispheres resulting in impaired level of consciousness. Examples include tonic-clonic, absence, myoclonic, clonic, tonic, and atonic. ■ Tonic-clonic: Sudden loss of consciousness with extension of the back and contraction of muscles (chest and extremities), repetitive, symmetric clonic (alternation between muscle contraction and relaxation) movements. Etiology often idiopathic. Simple and complex partial seizures may evolve into secondary generalized tonic-clonic seizures. ■ Marked by incontinence and tongue biting. ■ Patients may appear cyanotic during the ictal period. ■ Postictal confusion and drowsiness. Muscle aches and headaches may also be present. ■ Childhood absence epilepsy: Is a form of generalized seizure. Presents with brief (5- to 10-second), often unnoticeable episodes of impaired consciousness (petit mal seizures) occurring up to hundreds of times per day. Can appear to be daydreaming or staring. Symptoms may include sudden stop in motion, lip smacking, eyelid flutter, and chewing motions. Can be triggered by hyperventilation. No postictal phase. Begins in childhood; subsides before adulthood. Often familial.

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Diagnosis ■ Clinical history by a bystander and physical exam are always clues to the diagnosis and differentiating among similarly appearing clinical symptoms— history of brain trauma, infection, neoplasm, stroke, or developmental issues. ■ Best initial step: Obtain an EEG. ■ Partial seizures: Look for epileptogenic focus. ■ Childhood absence epilepsy: EEG shows 3-per-second spike-andwave discharges (remember classic EEG findings, but do not worry about learning how to read them!). EEG changes can be triggered by hyperventilation. ■ Tonic-clonic: EEG typically shows 10-Hz activity during the tonic phase and slow waves during the clonic phase. ■ If EEG is normal during event concerning for seizure, think of pseudoseizures. ■ Serum prolactin levels may be elevated in the immediate postictal period of generalized and complex-partial seizures. ■ Rule out: Systemic causes with a CBC, electrolytes, calcium, fasting glucose, LFTs, a renal panel, RPR, ESR, and a toxicology screen. ■ A focal seizure implies a focal brain lesion. Evaluate by CT or MRI with contrast. Treatment ■ Secure airway when appropriate. ■ For acute seizures lasting longer than 5 minutes, see treatment of status epilepticus later. ■ In cases of systemic 2° seizures, treat the underlying cause. ■ Anticonvulsants for partial and tonic-clonic seizures, levetiracetam, phenytoin, carbamazepine, phenobarbital, and valproic acid have similar efficacy and can be used as chronic monotherapy. ■ In children, phenobarbital is the first-line anticonvulsant. ■ If a certain antiepileptic is ineffective as monotherapy, try an alternative. If alternative is ineffective, try a regimen of multiple antiepileptics.

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KEY FACT If an adult patient presents with an episode of lip smacking associated with an impaired level of consciousness and followed by confusion, think complex partial seizures.

KEY FACT If a patient presents with uncontrollable twitching of his thumb and is fully aware of his symptoms, think simple partial seizures.

KEY FACT If a patient presents with clonic movements associated with loss of consciousness and incontinence, think tonic-clonic (grand mal) seizures.

KEY FACT If a child is brought from school to her pediatrician after experiencing multiple intermittent 5-second episodes of staring into space, think childhood absence epilepsy.

KEY FACT Petit mal seizures may be described with the classic EEG finding of 3-persecond spike-and-wave discharges.

A 40-year-old man presents to the ED with a single simple partial seizure of 1 minute but is no longer symptomatic. He also complains of 2 months of morning headaches and one episode of vomiting in the past week. What is the next step in management?

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NEUROLOGY

Other treatment options include gabapentin, topiramate, and oxcarbazepine. ■ Absence seizures: First-line is ethosuximide; second-line is valproic acid. ■ Intractable temporal lobe seizures: Consider anterior temporal lobectomy. ■ Treatment is not necessary for a single episode of seizure. ■

STATUS EPILEPTICUS

A medical emergency consisting of prolonged seizures (use > 5 minutes) or two or more seizures that occur without a return to baseline consciousness within 30 minutes. Common causes include anticonvulsant withdrawal/noncompliance, anoxic brain injury, EtOH/sedative withdrawal or other drug intoxication, metabolic disturbances (eg, hyponatremia), head trauma, and infection. ■ Mortality is 10–20%. ■

KEY FACT Though status epilepticus is traditionally defined as seizures lasting > 30 minutes, treatment should begin for any seizure lasting > 5 minutes to prevent brain-induced cardiac, pulmonary, and other complications.

MNEMONIC Withdrawal from ABBA can cause seizures— Alcohol Benzodiazepines Barbiturates Anticonvulsants

Diagnosis ■ Treatment and diagnostic work-up should be initiated simultaneously. ■ Determine the underlying cause with collateral history, physical exam, CBC, electrolytes, calcium, glucose, ABGs, LFTs, BUN/creatinine, ESR, antiepileptic drug levels, and a toxicology screen. ■ Continuous EEG monitoring if nonconvulsive status epilepticus is suspected or if patient is not waking up after clinically obvious seizures stop. ■ If intracranial pathology is suspected, obtain a stat head CT. ■ Obtain an LP in the setting of fever or meningeal signs, but only after a CT scan has been obtained to assess the safety of the LP. Treatment ■ Maintain airway, breathing, circulation (ABCs); consider rapid intubation for airway protection. ■ To rapidly treat potential etiologies, administer thiamine, followed by glucose. ■ SE treatment strategies vary greatly among different institutions. Following is an example guide: ■ Give an IV benzodiazepine (lorazepam or diazepam) within 0–5minutes. ■ Give another dose of IV benzodiazepine at 5–10 minutes. ■ If patient is still seizing at 20 minutes, give fosphenytoin, valproate sodium, phenobarbital (if severe), levetiracetam, or continuous infusion of midazolam. ■ For refractory status epilepticus (RSE), give continuous antiepileptic drugs (AEDs) with bolus for breakthrough SE. Early intubation is advisable when giving continuous AEDs.

Vertigo

Order a CT of the brain because history is suggestive of brain tumor and patient is no longer symptomatic. If seizures recur, consider beginning anticonvulsant therapy.

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Before discussing conditions that cause vertigo, it is worth defining vertigo and differentiating it from lightheadedness. “Dizziness” is often used to describe vertigo and lightheadedness. Vertigo feels as if one or one’s surroundings are moving when there is no actual movement. Lightheadedness feels as if one is about to faint or “pass out.” Conscious sensation of vertigo occurs in the cerebral cortex as a result of an error signal of observed over expected from the lower centers.

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BENIGN PAROXYSMAL POSITIONAL VERTIGO

A common cause of recurrent peripheral vertigo resulting from displacement of an otolith (“earstone”) that leads to disturbances in the semicircular canals. History/PE Patients present with transient, episodic vertigo (lasting < 1 minute) and nystagmus triggered by changes in head position (eg, while turning in bed, getting in and out of bed, or reaching overhead). Patients may complain of vertiginous or nonvertiginous dizziness or lightheadedness.

KEY FACT Progressive bilateral (highfrequency) sensorineural hearing loss and occasional tinnitus is normal (presbycusis). It is typically noticed by 60 years of age.

Diagnosis ■ Dix-Hallpike maneuver: Have the patient turn his or her head 45 degrees right or left and go from a sitting to a supine position. If vertigo and the typical nystagmus (fast phase toward the affected side) are reproduced, benign paroxysmal positional vertigo is the likely diagnosis. ■ Nystagmus that persists for > 1 minute, gait disturbance, or vomiting should raise concern for a central lesion. Treatment ■ Epley maneuver (an extended version of the Dix Hallpike maneuver used as treatment) resolves 80% of cases. ■ The condition usually subsides spontaneously in weeks to months, but 30% recur within 1 year. Long-term use of antivertigo medications (eg, meclizine) are generally contraindicated, as they have limited efficacy, they are sedating, and they inhibit vestibular compensation, which may lead to chronic unsteadiness. ACUTE PERIPHERAL VESTIBULOPATHY (LABYRINTHITISORVESTIBULARNEURITIS)

History/PE ■ Presents with acute onset of severe vertigo, head motion intolerance, and gait unsteadiness accompanied by nausea, vomiting, and nystagmus. ■ Labyrinthitis: Auditory or aural symptoms (tinnitus, ear fullness, or hearing loss). Lateral pontine/cerebellar stroke (anterior inferior cerebellar artery territory) may present with similar symptoms, but may have additional occipital headache, ataxia, nystagmus. ■ Vestibular neuritis: Lacks auditory or aural symptoms. Lateral medullary/ cerebellar stroke (posterior inferior cerebellar artery territory) can present with similar symptoms.

KEY FACT If a patient complains of vertigo and vomiting for 1 week after having been diagnosed with a viral infection, think acute vestibular neuritis.

Diagnosis ■ A diagnosis of exclusion once the more serious causes of vertigo (eg, cerebellar/brain stem stroke) have been ruled out. ■ Acute peripheral vestibulopathy demonstrates the following: ■ An abnormal vestibulo-ocular reflex as determined by a bedside head impulse test (ie, rapid head rotation from lateral to center while staring at the examiner’s nose). ■ A predominantly horizontal nystagmus that always beats in one direction, opposite the lesion. ■ No vertical eye misalignment by alternate cover testing. ■ If patients are “high risk” (ie, if they have atypical eye findings or neurologic symptoms or signs, cannot stand independently, have head or neck

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NEUROLOGY pain, are > 50 years of age, or have one or more stroke risk factors), MRI with diffusion-weighted imaging is indicated. Treatment Acute treatment consists of corticosteroids given < 72 hours after symptom onset and antivertigo agents (eg, meclizine). The condition usually subsides spontaneously within weeks to months. MÉNIÈRE DISEASE

A cause of recurrent vertigo with unilateral auditory symptoms that affects at least 1 in 500 individuals in the United States. More common among women. This disorder of the inner ear is characterized by ↑ volume of endolymph. History/PE ■ Presents with recurrent episodes of severe vertigo, hearing loss, tinnitus, and ear fullness, episodes often lasting minutes to hours. Nausea and vomiting are typical. Patients progressively lose low-frequency hearing over years and may become deaf on the affected side. ■ Rule out cerebellopontine angle tumors by MRI. Diagnosis The diagnosis is made clinically and is based on a thorough history and physical exam. Two episodes lasting ≥ 20 minutes with remission of symptoms between episodes, hearing loss documented at least once with audiometry, and tinnitus or aural fullness are needed to make the diagnosis once other causes (eg, TIA, otosyphilis) have been ruled out. Treatment ■ Acute: Meclizine or benzodiazepines to control spinning sensation during acute attacks; antiemetics for nausea/vomiting. ■ Chronic: Dietary changes that limit salt intake to avoid fluid retention; diuretics. ■ For severe unilateral cases, intratympanic injection of gentamicin into the middle ear (absorbed by the inner ear) has been shown to reduce the frequency and severity of vertigo attacks. SYNCOPE

One of the most common causes of loss of consciousness 2° to a sudden drop in cerebral perfusion. Etiologies can be cardiac or noncardiac. Presyncope can be associated with noncardiac causes and is described as a feeling of imminent loss of consciousness without actual fainting. Commonly confused with seizures. History/PE ■ Patients may report a trigger (eg, orthostatics, standing for a long period of time, fear/sight of blood, Valsalva maneuver). ■ Noncardiac: Typically involves prodromal symptoms that lead to loss of consciousness and muscle tone for < 30 seconds and recovery within seconds. Screen for the following potential etiologies: ■ Orthostatic hypotension: Symptoms triggered by postural changes. Common causes include dehydration and autonomic neuropathy (commonly seen in patients with diabetes).

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Vasovagal: Sudden increase in vagal tone triggered by prolonged standing, emotional distress, painful stimuli. Patient may experience prodromal symptoms of nausea, warmth, and diaphoresis before syncope. ■ Cardiac: Does not typically involve prodromal/postdromal symptoms; patient may have history of arrhythmia, valvular disease, or structural heart disease. Screen for the following potential etiologies: ■ Left ventricular outflow tract obstruction (LVOTO) (eg, aortic stenosis, hypertrophic obstructive cardiomyopathy); syncope with exertion or during exercise. ■ Arrhythmia: History of CAD, MI, cardiomyopathy, Wolff-ParkinsonWhite syndrome, or reduced EF. ■ Torsades de pointes: Triggered by electrolyte abnormalities (K+; Mg+) or any medications that can prolong QT interval. ■

Diagnosis ■ Unless there is a clear vasovagal syncope in a young patient with no history of cardiac disease or risk factors, place all patients on telemetry or Holter monitoring to evaluate for arrhythmia, and rule out myocardial ischemia with an ECG and cardiac enzymes. ■ Consider an echocardiogram, a tilt-table test, or neuroimaging, especially vascular imaging. ■ Consider seizure and rule out with EEG if the following occur: ■ Patient experiences limb jerking that is unilateral or lasts > 30 seconds. ■ Patient has prolonged confusion after the episode. ■ Patient bites the lateral aspect of his or her tongue. Treatment Treat the underlying cause; avoid triggers.

Disorders of the Neuromuscular Junction MYASTHENIA GRAVIS

An autoimmune disorder caused by antibodies that bind to postsynaptic acetylcholine (ACh) receptors located at the neuromuscular junction. Most often affects young adult women and older men, and can be associated with thymoma, thyrotoxicosis, and other autoimmune disorders. History/PE ■ Presents with fluctuating ptosis or double vision, bulbar symptoms (eg, dysarthria, dysphagia), and proximal muscle weakness. Symptoms typically worsen with fatigue at the end of the day. ■ Patients may report difficulty in climbing stairs, rising from a chair, brushing hair, and swallowing. ■ Myasthenic crisis is rare but includes the potentially lethal complications of respiratory compromise and aspiration. It may be precipitated by medications (fluoroquinolones), trauma, or surgery. Treatment is with airway management, IVIG or plasmapheresis, and IV steroids. Diagnosis ■ Best initial diagnostic test: Acetylcholine receptor antibody. Edrophonium (Tensilon test) is an anticholinesterase inhibitor that can be used as a diagnostic tool because it rapidly reverses symptoms.

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Application of an ice pack over the eyelids may improve symptoms. (This test is a board favorite.) ■ An abnormal single-fiber EMG and/or a decremental response to repetitive nerve stimulation can yield additional confirmation. ■ Chest CT is used to evaluate for thymoma. ■

Treatment ■ Anticholinesterase inhibitors (pyridostigmine) are used for symptomatic treatment. ■ Prednisone, other immunosuppressants (eg, azathioprine, cyclosporine, mycophenolate mofetil), plasmapheresis, or IVIG can also be used for treatment. ■ Resection of thymoma can be curative. ■ Avoid giving certain antibiotics (eg, aminoglycosides, fluoroquinolones) and drugs (eg, β-blockers) to patients with myasthenia gravis because of their direct/indirect effects on the neuromuscular junction. KEY FACT Repetitive nerve stimulation reveals a characteristic incremental response in Lambert-Eaton myasthenic syndrome but shows a decremental response in myasthenia gravis.

KEY FACT Anterior mediastinal mass with clinical weakness = thymoma (in a patient with myasthenia gravis) until proven otherwise

KEY FACT Lung mass with weakness = EatonLambert syndrome (in a patient with SCLC) until proven otherwise

LAMBERT-EATON MYASTHENIC SYNDROME

A paraneoplastic autoimmune disorder caused by antibodies directed toward presynaptic calcium channels in the neuromuscular junction. Small cell lung carcinoma is a significant risk factor (60% of cases). History/PE Presents with weakness of proximal muscles along with depressed or absent deep tendon reflexes. Extraocular, respiratory, and bulbar muscles are typically spared. Weakness will improve with ↑ activity. Diagnosis Repetitive nerve stimulation reveals a characteristic incremental response. Also diagnosed by autoantibodies to presynaptic calcium channels and a chest CT indicative of a lung neoplasm. Treatment ■ Treat small cell lung carcinoma. ■ 3,4-diaminopyridine or guanidine can be given; acetylcholinesterase inhibitors (eg, pyridostigmine) can be added to either regimen. ■ Corticosteroids and azathioprine can be combined or used alone for immunosuppression in cases where a neoplasm cannot be identified and an autoimmune cause is suspected.

Demyelinating Lesions MULTIPLE SCLEROSIS

KEY FACT The classic triad (Charcot triad) in MS is scanning speech, intranuclear ophthalmoplegia, and nystagmus.

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Multiple sclerosis (MS) is a demyelinating disorder of central nervous system of unclear etiology, but it is thought to be immune mediated. The female-tomale ratio is 3:2, and it is typically diagnosed between 20 and 40 years of age. MS becomes more common with increasing distance from the equator during childhood. Subtypes are relapsing-remitting (most common), 1° progressive, 2° progressive, and progressive relapsing. History/PE ■ Presents with multiple neurologic complaints that are separate in time and space and are not explained by a single lesion. As the disease progresses, permanent deficits can accumulate.

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Limb weakness, gait unsteadiness, paresthesias, optic neuritis, ophthalmoplegia (caused by involvement of the medial longitudinal fasciculus), diplopia, vertigo, nystagmus, urinary retention, sexual and bowel dysfunction, depression, and cognitive impairment are also seen. Symptoms classically worsen transiently with hot showers. ■ Attacks are unpredictable but on average occur every 1.5 years, lasting for 2–8 weeks. ■ Neurologic symptoms can come and go or be progressive. Those with a relapsing and remitting history have the best prognosis.

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Diagnosis ■ Most accurate tests: Use MRI and LP as outlined by McDonald Diagnostic Criteria for definitive diagnosis. ■ MRI (diagnostic test of choice for MS) shows multiple, asymmetric, often periventricular white matter lesions (Dawson fingers), especially in the corpus callosum. Active lesions enhance with gadolinium. ■ CSF reveals ↑ IgG index, or at least two oligoclonal bands not found in the serum (nonspecific). Treatment ■ Acute exacerbations: High-dose, IV corticosteroids. Plasma exchange in patients who do not respond to corticosteroids. ■ Disease-modifying medications: Ocrelizumab for progressive MS. Immunomodulators for relapsing—remitting MS can ↓ the number of relapses. Treat with injectable “ABCs”: Interferon-β1a (Avonex/Rebif), interferon-β1b (Betaseron), and copolymer-1 (Copaxone). Now, a number of oral small molecules and infusions of monoclonal antibodies are more common. ■ Symptomatic therapy is crucial and includes baclofen for spasticity, cholinergics for urinary retention, anticholinergics for urinary incontinence, carbamazepine or amitriptyline for painful paresthesias, and antidepressants for clinical depression. GUILLAIN-BARRÉ SYNDROME

An acute, rapidly progressive demyelinating autoimmune disorder of the peripheral nerves that results in weakness. Also known as acute inflammatory demyelinating polyneuropathy. Associated with recent Campylobacter jejuni infection, viral infection, or influenza vaccine (in extremely rare cases). Approximately 85% of patients make a complete or near-complete recovery (may take up to 1 year). The mortality rate is < 5%.

KEY FACT Pregnancy may be associated with a ↓ in MS symptoms.

KEY FACT For optic neuritis, give IV, not oral, corticosteroids.

MNEMONIC The 4 “A’s” of Guillain-Barré syndrome— Acute inflammatory demyelinating polyradiculopathy Ascending paralysis Autonomic neuropathy Albuminocytologic dissociation (increased albumin in CSF)

History/PE ■ Classically presents with progressive (over days), symmetric, ascending paralysis (distal to proximal), and areflexia. In severe cases, paralysis can progress to involve the trunk, diaphragm, and cranial nerves. ■ Autonomic and sensory nerves may also be affected, leading to glove-andstocking distribution paresthesias and autonomic dysregulation. Diagnosis ■ Evidence of diffuse demyelination is seen on nerve conduction studies, which show ↓ nerve conduction velocity. ■ Supported by a CSF protein level > 55 mg/dL with little or no pleocytosis (albuminocytologic dissociation). ■ Remember that ascending paralysis with normal CSF findings and without autonomic dysfunction is characteristic of tick-borne paralysis, not Guillain-Barré syndrome.

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NEUROLOGY Treatment ■ Frequently monitor maximal negative inspiratory force (NIF) inspiratory force (NIF) and vital capacity to determine whether patient should be admitted to ICU for impending respiratory failure. ■ Plasmapheresis and IVIG are first-line treatments. Corticosteroids are not indicated. ■ Aggressive physical rehabilitation is imperative.

KEY FACT If a 55-year-old man presents with slowly progressive weakness with increased reflexes in his left upper extremity and later in his right (upper motor neuron signs), associated with fasciculations and atrophy (lower motor neuron signs), but without bladder disturbance and with a normal cervical MRI, think amyotrophic lateral sclerosis.

KEY FACT Some 25% of people have “bulbar onset” ALS, which presents with difficulty swallowing, loss of tongue motility, and difficulty speaking (slurred or nasal quality).

KEY FACT Bulbar involvement suggests pathology above the foramen magnum, which distinguishes ALS from cervical spondylosis with compressive myelopathy as the cause of symptoms.

AMYOTROPHIC LATERAL SCLEROSIS

A chronic, progressive degenerative disease, usually of unknown etiology, that is characterized by loss of upper and lower motor neurons. Also known as Lou Gehrig disease in the United States and motor neuron disease in the United Kingdom. ALS has an unrelenting course and almost always progresses to respiratory failure and death, usually within 5 years of diagnosis. Men are more commonly affected than women, and onset is generally between 40 and 80 years of age. History/PE ■ Presents with asymmetric, slowly progressive weakness (over months to years) affecting the arms, legs, diaphragm, and lower cranial nerves. Some patients initially present with fasciculations (muscle twitching). Weight loss is common. ■ Associated with UMN and/or LMN signs (see Table 2.10-9). ■ Sensation, eye movements, and sphincter tone are generally spared. ■ Emotional lability is a common feature. Diagnosis ■ The clinical presentation is usually diagnostic. “Bulbar involvement” (involvement of the tongue [CN XII] or oropharyngeal muscles [CNIX,X]) suggests pathology above the foramen magnum and generally excludes the most common differential diagnosis, cervical spondylosis with compressive myelopathy, as a cause. ■ EMG/nerve conduction studies reveal widespread denervation and spontaneous action potentials (fibrillation potentials). Such studies are principally performed to exclude other demyelinating motor neuropathies. ■ CT/MRI of the cervical spine is done to exclude structural lesions, such as cervical spondylosis with compressive myelopathy. Especially useful in those without bulbar involvement.

TA B L E 2.10 - 9. 

UMN vs LMN Signs

Clinical Features Pattern of weakness

UMN Pyramidal (arm extensor and leg flexor

LMN Variable

weaknesses)

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Tone

Spastic (↑)

Flaccid (↓)

Deep tendon reflex (DTR)

↑ (hyperreflexia)

↓ (hyporeflexia)

Miscellaneous signs

Babinski reflex, pronator drift

Atrophy, fasciculations

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Treatment Supportive measures and patient education. Riluzole may delay disease progression by ↓ glutamate. Edaravone, while new, is a medication used for advanced ALS.

Dementia

MNEMONIC

Table 2.10-10 and the sections below contrast the time course, diagnostic criteria, and treatment of common types of dementia. ALZHEIMER DISEASE

Risk factors include age, female gender, family history, Down syndrome, and low educational status. Pathology involves neurofibrillary tangles, neuritic plaques with amyloid deposition, amyloid angiopathy (↑ risk for spontaneous lobar hemorrhage), and neuronal loss. History/PE ■ Usually presents first with amnesia for newly acquired information (distant memory is usually intact), followed by visuospatial deficits (difficulty performing ADLs, getting lost in familiar places), language deficits, and cognitive decline that can be accompanied by depression and agitation. ■ Mild cognitive impairment may precede Alzheimer disease by 10 years. ■ Early stages: Physical exam is generally normal except for mental status. ■ Late findings: May include noncognitive neurologic deficits, dyspraxia (difficulty with learned motor tasks), and urinary incontinence. TA B L E 2.10 - 10. 

Differential diagnosis—

DEMENTIAS NeuroDegenerative diseases Endocrine Metabolic Exogenous Neoplasm Trauma Infection (eg, HIV-associated dementia) Affective disorders Stroke/Structural

Types of Dementia

Type Alzheimer disease

Time Course Gradual

Pathology Diffuse atrophy with enlarged ventricles, senile plaques, and neurofibrillary tangles, initially temporal lobe

Vascular dementia

Frontotemporal

Stepwise

Gradual

dementia (Pick disease)

Imaging/Studies Definitive diagnosis cannot be made with neuroimaging at this time MRI/CT may show diffuse cortical atrophy, especially in the temporal and parietal lobes

Strokes in multiple areas of cere-

Brain imaging reveals evidence of old infarctions or extensive

bral cortex

deep white-matter changes 2° to chronic ischemia

Pick bodies (round intraneuronal

MRI/CT show frontotemporal atrophy

inclusions). In frontal lobes

Normal pressure

Gradual/

hydrocephalus

abrupt

Creutzfeldt-Jakob

Abrupt

disease

CT/MRI reveal ventricular enlargement

Prion proteins on biopsy

MRI with diffusion-weighted imaging may show ↑ T2 and

Spongiform degeneration

FLAIR intensity in the putamen and the head of the caudate and is also used to exclude structural brain lesions EEG shows periodic sharp wave complexes

Lewy Body dementia

Gradual

Lewy bodies (clumps of

MRI/CT to rule out other diagnoses

α- synuclein proteins)

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NEUROLOGY Diagnosis ■ A diagnosis of exclusion suggested by clinical features and by an insidiously progressive cognitive decline without substantial motor impairment. ■ Definitively diagnosed on autopsy. ■ MRI or CT may show atrophy, especially in temporal/parietal lobes, and can rule out other causes, particularly vascular dementia, normal-pressure hydrocephalus (NPH), and chronic subdural hematoma. ■ CSF is normal. ■ Neuropsychological testing can help distinguish dementia from depression. ■ Hypothyroidism, vitamin B12 deficiency, and neurosyphilis should be ruled out. Treatment ■ Prevention of disease progression: No treatment has yet been proven effective. ■ Cholinesterase inhibitors (ie, donepezil) are first-line therapy for treatment of symptoms in mild to moderate disease but do not affect outcome. Memantine, an NMDA receptor antagonist, may slow decline in moderate to severe disease. ■ Treatment of associated symptoms: ■ Provide supportive therapy for the patient and family. Make the environment adapt to the patient. ■ Treat depression, agitation, sleep disorders, hallucinations, and delusions. VASCULAR DEMENTIA

Dementia associated with a history of stroke and cerebrovascular disease (vascular dementia) is the second most common type of dementia. History/PE ■ Stepwise decline in cognitive functioning. ■ May be associated with other symptoms of stroke, such as sensory or motor deficits. ■ Risk factors include age, hypertension, diabetes, embolic sources, and a history of stroke. KEY FACT If a patient shows abrupt changes in symptoms over time rather than a steady decline, think vascular dementia.

Diagnosis Criteria for the diagnosis of vascular dementia include the presence of dementia and two or more of the following: Focal neurologic signs on exam. Symptom onset that was abrupt, stepwise, or related to stroke. ■ MRI shows large lacunar infarct burden in cortical and subcortical areas. ■ ■

Treatment Protocols for the prevention and treatment of vascular dementia are the same as those for stroke. FRONTOTEMPORAL DEMENTIA (PICK DISEASE)

A rare, progressive form of dementia characterized by atrophy of the frontal and temporal lobes. History/PE ■ Patients present with disinhibition and significant changes in behavior and personality early in the disease. Other symptoms include speech

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disturbance, inattentiveness, impulsive behaviors, and, occasionally, extrapyramidal signs. ■ Frontotemporal dementia rarely begins > 75 years of age. Diagnosis Suggested by clinical features and by evidence of frontotemporal atrophy seen on MRI or CT. Treatment Symptomatic. NORMAL PRESSURE HYDROCEPHALUS

A potentially treatable form of dementia that is thought to arise from impaired reabsorption of CSF. History/PE Symptoms include the classic triad of dementia, gait apraxia, and urinary incontinence. Headaches and other signs of ↑ ICP (eg, papilledema) typically do not appear, although continuous ICP monitoring may reveal spikes of elevated pressure.

KEY FACT NPH = “Wet (incontinence), Wobbly (gait apraxia), and Wacky (dementia).”

Diagnosis ■ Suggested by clinical features; gait is classically described as “magnetic” or with “feet glued to the floor.” ■ CT or MRI shows ventricular enlargement out of proportion to sulcal atrophy (see Figure 2.10-5). ■ LP reveals normal CSF pressures and can be therapeutic.

F I G U R E 2 . 1 0 - 5 .   Normal pressure hydrocephalus. T2-weighted MRI from a 60-year-old woman with slowly developing urinary incontinence, gait instability, and early dementia shows marked dilation of the lateral ventricles (red arrows). This is out of proportion to the sulci (yellow arrow), which appear normal. (Reproduced with permission from USMLE-Rx.com.)

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A 71-year-old woman is brought to her primary care physician’s office by her son, who is concerned that she has had worsening recent memory, difficulty participating in her daily activities, restlessness, and difficulty sleeping for the past year. She scores a 22 on the Mini-Mental State Exam (MMSE). What is the most likely diagnosis?

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NEUROLOGY Treatment LP or continuous lumbar CSF drainage for several days may cause clinically significant improvement of the patient’s symptoms. If so, surgical ventriculoperitoneal shunting is the treatment of choice. CREUTZFELDT-JAKOB DISEASE

Although it is the most common prion disease, Creutzfeldt-Jakob disease (CJD) remains an extremely rare form of dementia. CJD is a member of the transmissible spongiform encephalopathies, all of which are characterized by spongy degeneration, neuronal loss, and astrocytic proliferation. In CJD, an abnormal protease-resistant prion protein accumulates in the brain. KEY FACT CJD’s rapid progression and presence of myoclonus distinguish it from other dementias.

History/PE ■ CJD causes a subacute dementia with ataxia and/or startle-induced myoclonic jerks with rapid clinical progression that is noted weeks to months after symptom onset. ■ New-variant CJD (mad cow disease) is a more slowly progressive prion disease seen in younger people with a history of eating contaminated beef or contaminated human brains (kuru). Diagnosis ■ Suggested by clinical features. ■ Differential diagnosis includes limbic encephalitis, Hashimoto (steroidresponsive) encephalopathy, and toxic encephalopathy (eg, lithium or bismuth). ■ ↑ Levels of CSF 14-3-3 and tau protein are seen, indicating rapid destruction of neurons. ■ Definitive diagnosis can be made only by brain biopsy or autopsy, but MRI or EEG (for detection of periodic sharp wave complexes) may be helpful. Specimens must be handled with special precautions to prevent transmission. Treatment Currently, there is no effective treatment. Most patients die within 1 year of symptom onset. LEWY BODY DEMENTIA

Dementia of unclear etiology in persons 50–85 years of age characterized by progressive cognitive changes, visual hallucinations, and Parkinson-like movement abnormalities such as bradykinesia.

Alzheimer disease is the likely diagnosis. The key differences between Alzheimer disease and normal aging is that in normal aging, patients can perform their activities of daily living, complain of memory loss yet provide detailed information about their forgetfulness, and have a score > 24 on the MMSE.

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History/PE ■ Physical and cognitive symptoms may present around the same time and include the following: ■ Physical: Bradykinesia, rigidity, tremor, and shuffling gait with narrowleg stance. ■ Cognitive: Progressive problems with visual-spatial processing, attention, executive dysfunction and memory. ■ Psychiatric symptoms are common and can include hallucinations, delusions, depression, and anxiety. Diagnosis ■ Usually clinical. ■ Imaging and/or neuropsychological evaluation to rule out other diagnoses.

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Definitive diagnosis via brain biopsy or autopsy. Specimens will reveal abnormal clumps of α-synuclein proteins within neurons (Lewy bodies).

Treatment Symptomatic treatment; no disease-modifying agents are available.

Movement Disorders

KEY FACT

HUNTINGTON DISEASE

A rare, hyperkinetic, autosomal dominant disease involving CAG triplet repeat sequences in the HD gene on chromosome 4. The number of repeats typically expands in subsequent generations, leading to earlier expression and more severe disease (anticipation). Life expectancy is 20 years from the time of diagnosis.

If a 43-year-old man presents with gradual onset of chorea, irritability, and behavioral disturbances and his father experienced these symptoms at a slightly older age, think Huntington disease.

History/PE ■ Presents at 30–50 years of age with gradual onset of chorea (purposeless, involuntary dancelike movements), altered behavior, and dementia (begins as irritability, clumsiness, fidgetiness, moodiness, and antisocial behavior). ■ Weight loss and depression may also be seen. Diagnosis ■ Clinical diagnosis confirmed by genetic testing. ■ CT/MRI show cerebral atrophy (especially of the caudate and putamen; see Figure 2.10-6). Treatment ■ There is no cure and disease progression cannot be halted. Treat symptomatically.

B

A FIGURE 2.10-6. 

Atrophy of the cerebral and caudate nuclei in Huntington disease.

(A)Noncontrast CT in a 54-year-old patient with Huntington disease shows atrophy of the caudate nuclei (arrows) and diffuse cerebral atrophy with dilation of the lateral ventricles. (B)A normal 54-year-old subject (arrows on caudate nuclei). (Reproduced with permission from Ropper AH, Samuels MA. Adams & Victor’s Principles of Neurology, 9th ed. New York, NY: McGraw-Hill; 2009.)

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A 65-year-old man presents to his internist with 10 years of bilateral hand tremors. His mother and older brother have similar tremors. He denies difficulty concentrating, trouble with rising from seated positions, or recent falls. What is the most likely diagnosis?

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KEY FACT A significant difference between the gait abnormalities of Parkinson disease and that of NPH is preservation of arm swing in NPH.

KEY FACT Watch for “Parkinson plus syndromes” ■ Multisystem atrophy: Parkinson + autonomic dysfunction. ■ Lewy body dementia: Parkinson + visual hallucination.

MNEMONIC Parkinson disease causes people to feel TRAPped— Tremor (“pill rolling”) Rigidity (cogwheeling) Akinesia/bradykinesia Postural instability

KEY FACT Location of cell death determines phenotype of disease. ■ Parkinson disease: SN cell loss, dopamine deficiency. ■ Alzheimer disease: Temporal lobe cell loss, ACh and norepinephrine deficiencies. ■ ALS: Spinal cord cell loss. ■ Myasthenia gravis: Blocked ACh activity.

Essential tremor is the most likely diagnosis. Unlike the resting tremor in Parkinson disease, essential tremors are suppressed at rest and exacerbated with movements. Remember that bilateral tremors are less common in early Parkinson disease, and patients with Parkinson disease are more likely to present with multiple symptoms. Treat essential tremors with propranolol, primidone, and topiramate.

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NEUROLOGY

Reserpine or tetrabenazine can be given to minimize unwanted movements. Psychosis should preferably be treated with atypical antipsychotics to ↓ the risk for extrapyramidal side effects or tardive dyskinesia. SSRIs are first-line therapy for depression. ■ New gene therapy trials to reduce or eliminate triple repeats are underway. ■ Genetic counseling should be offered to offspring. ■

PARKINSON DISEASE

A primarily motor disorder that usually begins after 50 years of age and is caused by loss of dopaminergic cells, initially in the substantia nigra. Parkinsonism (nonidiopathic) has symptoms similar to Parkinson disease and can be caused by antipsychotic use, multiple subcortical infarcts (“vascular parkinsonism”), toxin ingestion, and trauma. History/PE ■ “Parkinson tetrad” consists of the following: ■ Resting tremor (eg, “pill rolling”): A frequency of 4–6 Hz that ↓ with voluntary movement. ■ Rigidity: “Cogwheeling.” ■ Akinesia/bradykinesia: Slowed movements caused by difficulty initiating movements. Festinating gait (small, shuffling steps) without arm swing is also seen. ■ Postural instability: Stooped posture, impaired righting reflexes, falls. Can often be a very early finding in Parkinson disease. ■ See TRAP mnemonic. ■ Other manifestations: Masked facies, memory loss, and micrographia. Treatment ■ Best initial treatment: ■ Levodopa/carbidopa combination therapy is the mainstay of treatment. Levodopa is a dopamine precursor that can cross the blood-brain barrier. Carbidopa blocks the peripheral conversion of levodopa to prevent the side effects of levodopa (nausea and vomiting). ■ Early side effects: Hallucinations, dizziness, headache, and agitation. ■ Late side effects: Involuntary movements. ■ Dopamine agonists (ropinirole, pramipexole, bromocriptine) can be used for treatment in early disease. ■ Side effects: Hypotension, somnolence, confusion, hallucinations, and compulsive gambling. ■ Next best treatment: ■ Selegiline (an MAO-B inhibitor) may be neuroprotective and may ↓ the need for levodopa. ■ Side effects: Confusion and insomnia. ■ Catechol-O-methyltransferase (COMT) inhibitors (entacapone or tolcapone) are not given alone but ↑ the availability of levodopa to the brain and may ↓ motor fluctuations. ■ Anticholinergics (trihexyphenidyl or benztropine)—generally used in younger patients whose primary symptom is tremor. ■ Side effects: Dry mouth, blurred vision, constipation, nausea, urinary retention, ankle edema, and livedo reticularis. ■ If medical therapy is insufficient, surgical pallidotomy or deep brain stimulators may produce clinical benefit.

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RESTLESS LEGS SYNDROME

Urge to move legs (more prominent at night) and associated dysesthesias that are relieved with movement. Associated with neuropathy, iron deficiency anemia. Treat with dopamine agonists (ropinirole, pramipexole) or gabapentin. KEY FACT

Neoplasms Intracranial neoplasms may be 1° (30%) or metastatic (70%). Of all 1° brain tumors, 40% are benign, and these rarely spread beyond the CNS. ■ Metastatic tumors are most often from 1° lung, breast, kidney, and GI tract neoplasms and melanoma. They occur at the gray-white junction; may be multiple discrete nodules; and are characterized by rapid growth, invasiveness, necrosis, and neovascularization. ■ More common in men than in women, except for meningiomas. ■

History/PE ■ Symptoms depend on tumor type and location (see Tables 2.10-11 and 2.10-12), local growth and resulting mass effect, cerebral edema, or ↑ICP 2° to ventricular obstruction. Although headaches are often thought of as the main presenting symptom, only 31% of patients present with headache at diagnosis, and only 8% have headache as the sole presenting feature. ■ Seizures or slowly progressive focal motor deficits are the most common presenting features. ■ When ↑ ICP is the presenting feature, symptoms include headache, nausea/ vomiting, and diplopia (false localizing CN VI palsies). In the era of neuroimaging, it is relatively rare for patients to present with ↑ ICP. ■ Other presenting symptoms: Visual field abnormalities, neurologic deficits, psychiatric symptoms. Diagnosis ■ Best initial test: CT and MRI with and without contrast to localize and determine the extent of the lesion. ■ Gadolinium-enhanced MRI is generally better for visualizing soft tissue tumors and vascularity. ■ CT is preferred for evaluating skull base lesions and for emergencies (eg, obstructive hydrocephalus) when an MRI cannot be rapidly acquired. ■ Histologic diagnosis via CT-guided biopsy or surgical biopsy. Treatment ■ Consider resection (if possible), radiation, and chemotherapy after appropriate consultation with medical and surgical oncology teams. ■ Therapy is highly dependent on tumor type, histology, progression, and site (see Tables 2.10-11 and 2.10-12). ■ If ICP is ↑, manage ICP with the following: ■ Head elevation (↑ venous outflow from brain). ■ Hyperventilation (↓ CO2 leads to cerebral vasoconstriction resulting in ↓ vasogenic edema). ■ Corticosteroids (↓ vasogenic edema). ■ Mannitol (extraction of free water from brain via osmotic diuresis). ■ Removal of CSF. ■ AEDs can be used in patients who have had a seizure.

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Lesions to the superior colliculus can result in Parinaud syndrome, paralysis of conjugate vertical gaze.

KEY FACT Most CNS tumors are metastatic. The most common 1° CNS tumors in adults are glioblastoma multiforme and meningiomas. The most common 1° CNS tumors in children are astrocytomas followed by medulloblastomas.

MNEMONIC Most common cancers that metastasize to brain—

Lung and Skin Go to the BRain Lung Skin GI Breast Renal

KEY FACT Two-thirds of 1° brain tumors in adults are supratentorial. One-third of those in children are supratentorial.

KEY FACT Symptoms of ↑ ICP: ■ Nausea. ■ Vomiting. ■ Diplopia. ■

Headache that is worse in the morning, with bending over, or with recumbency.

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TA B L E 2.10 - 11. 

NEUROLOGY

Common 1° Neoplasms in Adults

Tumor Astrocytoma (diffuse, anaplastic, grade IV/glioblastoma)

Benign vs Malignant

Presentation Presentation of astrocytomas depends on

Low grade: diffuse— benign, or high grade Anaplastic: malignant Glioblastoma: malignant

location of tumor. Some symptoms include headache, seizures, or focal deficits

Treatment Surgical removal/resection Radiation and chemotherapy have variable results

Glioblastoma is the most common malignant 1° brain tumor. Progresses rapidly and has a poor prognosis (< 1 year from time of diagnosis)

Meningioma

Generally benign

Presentation depends on location; often

Surgical resection; radiation

related to cranial neuropathy or is an incidental

for unresectable tumors

finding

Vestibular schwannoma (also known as acoustic neuroma)

Generally benign

Unilateral hearing loss, tinnitus, vertigo, and loss of balance

Surgical resection, focal radiation, or monitoring

Bilateral in NF2

Glioblastoma multiforme and meningioma images reproduced courtesy of the US Department of Health and Human Services and Armed Forces Institute of Pathology. Schwannoma image reproduced courtesy of MRT-Bild.

Neurocutaneous Disorders NEUROFIBROMATOSIS

The most common neurocutaneous disorder. There are two major types: neurofibromatosis 1 (NF1, or von Recklinghausen syndrome) and neurofibromatosis 2 (NF2). Both are autosomal dominant diseases.

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TA B L E 2.10 - 12. 

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Common 1° Neoplasms in Children

Tumor Pilocytic astrocytoma

Pathology Generally benign, well circumscribed, stain ⊕ for GFAP Posterior fossa/infratentorial tumor

Presentation Presents with drowsiness, headache, ataxia, nausea, vomiting, cranial

Treatment Resection if possible; radiation

neuropathy Slow-growing with protracted course

Medulloblastoma

A primitive neuroectodermal tumor Arises from the fourth ventricle or cer-

Highly malignant but radiosensitive; may seed the subarachnoid space

ebellar vermis and causes ↑ ICP

May cause obstructive hydrocephalus

Posterior fossa/infratentorial tumor

Truncal ataxia caused by involvement

Surgical resection coupled with radiation and chemotherapy

of cerebellar vermis

Craniopharyngioma

The most common suprasellar tumor in children Calcification is common (distinguishes it from pituitary adenoma)

Benign

Surgical resection

Most commonly causes bitemporal hemianopsia caused by compression of the optic chiasm

MRI of pilocytic astrocytoma reproduced with permission from Hafez RFA. Stereotaxic gamma knife surgery in treatment of critically located pilocytic astrocytoma: preliminary result. World J Surg Oncol 2007;5:39. CT of medulloblastoma reproduced with permission from US Department of Health and Human Services and Armed Forces Institute of Pathology. CT of craniopharyngioma reproduced with permission from Garnet MR, Puget S, Grill J, et al. Craniopharyngioma. Orphanet J Rare Dis. 2007;2:18.

History/PE ■ Diagnostic criteria for NF1 include two or more of the following: ■ Six café-au-lait spots (flat, uniformly hyperpigmented macules). ■ Two neurofibromas (benign peripheral nerve sheath tumors) of any type (see Figure 2.10-7). ■ Freckling in the axillary or inguinal area. ■ Optic glioma. ■ Two Lisch nodules (pigmented iris hamartomas). ■ Bone abnormality (eg, kyphoscoliosis). ■ A first-degree relative with NF1.

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NEUROLOGY

Diagnostic criteria for NF2 are as follows: ■ Bilateral vestibular schwannomas (also known as acoustic neuromas). ■ First-degree relative with NF2 and either: ■ Unilateral acoustic neuromas. ■ Two of any of the following tumor types: neurofibroma, meningioma, glioma, or schwannoma. ■ Other features include seizures, skin nodules, and café au lait spots.

Diagnosis ■ MRI of the brain, brainstem, and spine with gadolinium. ■ Conduct a complete dermatologic exam, ophthalmologic exam, and family history. Auditory testing is recommended.

F I G U R E 2 . 1 0 - 7 .   Neurofibromas associated with neurofibromatosis. (Reproduced with permission from USMLE-Rx.com.)

Treatment ■ There is no cure; treatment is symptomatic (eg, surgery for kyphoscoliosis or debulking of tumors). ■ Vestibular schwannomas (see Table 2.10-11) and optic gliomas can be treated with surgery or radiosurgery. Meningiomas can be resected. ■ Drugs affecting the mTOR pathway can be used to reduce tumor growth.

KEY FACT NF1 and NF2 are clinically evident by 15 and 20 years of age, respectively.

KEY FACT Vestibular schwannomas (also known as acoustic neuromas) present with ipsilateral tinnitus, hearing loss, and vertigo. The treatment of choice is surgical resection.

TUBEROUS SCLEROSIS

Autosomal dominant disorder that affects many organ systems, including the CNS, skin, heart, retina, and kidneys. History/PE ■ Presents with infantile spasms or seizures, “ash-leaf” hypopigmented lesions (Figure 2.10-8A) on the trunk and extremities, and mental disability (↑ likelihood with early age of onset). ■ Other skin manifestations include sebaceous adenomas (small red nodules on the nose and cheeks in the distribution of a butterfly; Figure 2.10-8B) and a shagreen patch (a rough papule in the lumbosacral region with an orange-peel consistency).

A

B

F I G U R E 2 . 1 0 - 8 .   Tuberous sclerosis. (A) “Ash-leaf” macules on a patient with tuberous sclerosis and (B) sebaceous adenomas in a butterfly distribution. (Image A reproduced with permission from Tonekaboni SH, Tousi P, Ebrahimi A, et al. Clinical and para clinical manifestations of tuberous sclerosis: a cross sectional study on 81 pediatric patients. Iran J Child Neurol 2012;6(3):25-31. Image B adapted with permission from Fred H, van Dijk H. Images of memorable cases: case 143. Connexions Web site. December 4, 2008. Available at: http://cnx.org/content/m14923/1.3/.)

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Other symptoms are 2° to small benign tumors that grow on the face, eyes, brain, kidney, and other organs. For example: ■ CHF from cardiac rhabdomyoma; renal disease from renal cysts, angiolipomas, or carcinomas. ■ Developmental disability from brain lesions.

Diagnosis ■ Usually clinical. ■ Ash-leaf lesions are enhanced by a Wood UV lamp. ■ Imaging: ■ MRI of brain: Evaluate for subependymal giant cell astrocytoma and calcified tubers (potato-like nodules) within the cerebrum in the periventricular area. If lesions obstruct CSF outflow, obstructive hydrocephalus can develop. ■ Echocardiography: Evaluate for rhabdomyoma of the heart, especially in the apex of the left ventricle (affects > 50% of patients). ■ MRI of abdomen: Evaluate for renal disease (cysts, angiolipoma, and/ or carcinoma). ■ EEG: Evaluate for seizure activity.

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307

KEY FACT Infantile spasms occur in children < 3 years of age and can consist of head bobbing, flexor spasms, extensor spasms, or movements that mimic the startle response. They may be associated with psychomotor regression or behavioral changes.

Treatment ■ Treatment should be based on symptoms (eg, cosmetic surgery for facial sebaceous adenomas). ■ Treat seizures if present. If infantile spasms are present, treat with ACTH or vigabatrin. ■ Surgical intervention may be indicated in the setting of ↑ ICP from obstructive hydrocephalus or for seizures associated with an epileptogenic focus or severe developmental delay. STURGE-WEBER SYNDROME

Neurocutaneous condition characterized by port-wine stain (cavernous hemangioma) in the trigeminal nerve distribution, and intracranial calcifications that resemble a “tram-line.” Hemianopia, glaucoma, and hemiparesis may also be seen.

Aphasia A general term for speech and language disorders. Usually results from lesions (eg, strokes, tumors, abscesses) in the “dominant hemisphere.” The left hemisphere is dominant in > 95% of right-handed people and in 60–80% of lefthanded people.

KEY FACT Broca aphasia = motor aphasia, expressive aphasia, or nonfluent aphasia Wernicke aphasia = sensory aphasia, receptive aphasia, or fluent aphasia

BROCA APHASIA

A disorder of spoken and/or written language production, with intact comprehension. Caused by an insult to the Broca area in the posterior inferior frontal cortex (see Figure 2.10-9). Often 2° to a left superior MCA stroke. Also known as motor aphasia. History/PE Presents with impaired speech production, frustration with awareness of deficits, arm and facial hemiparesis, hemisensory loss, and apraxia of the oral muscles. Speech is described as “telegraphic” with few words and frequent pauses.

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A 61-year-old man presents to the ED with a 6-month history of progressively worsening nausea and morning headache. The patient is in no apparent acute distress. What is the preferred diagnostic study?

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Premotor cortex Parietal lobe

Frontal lobe e fa uat Arc

lus scicu

Broca area

Wernicke area Temporal lobe

Occipital lobe

Primary auditory cortex

F I G U R E 2 . 1 0 - 9 .   Cerebral cortex with Broca and Wernicke areas highlighted. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT In true Broca and Wernicke aphasia, repetition is impaired. If repetition is intact, the deficit is called transcortical motor aphasia (TMA) or transcortical sensory aphasia (TSA), which is caused by a lesion around the Broca and Wernicke areas, respectively. Also, called secondary aphasia.

MNEMONIC BROca is BROken and Wernicke is Wordy.

Treatment Speech therapy (varying outcomes with intermediate prognosis). WERNICKE APHASIA

A disorder of language comprehension with intact yet nonsensical production. Caused by an insult to the Wernicke area in the left posterior superior temporal (perisylvian) lobe. Often 2° to left inferior/posterior MCA embolic stroke (see Figure 2.10-9). History/PE Presents with preserved fluency of language with impaired repetition and comprehension, leading to “word salad.” Patients are unable to follow commands; make frequent use of neologisms (made-up words) and paraphasic errors (word substitutions); and show lack of awareness of deficits. Treatment Treat the underlying etiology, and institute speech therapy.

Coma

This patient presents with symptoms that are concerning for increased ICP. As he is not in acute distress, MRI is the preferred study because it is better for visualizing soft tissue and vascularity.

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Unconsciousness marked by limited to no response to stimuli (ie, a state of unarousable unresponsiveness). Lesser states of impaired arousal are known as “obtundation” or “stupor.” Coma is caused by dysfunction of both cerebral hemispheres or the brainstem (pons or higher) caused by structural or toxicmetabolic insults. Causes include the following: Diffuse hypoxic/ischemic encephalopathy (eg, post–cardiac arrest). Diffuse axonal injury from high-acceleration trauma (eg, motor vehicle accidents). ■ Brain herniation (eg, cerebral mass lesion, SAH with obstructive hydrocephalus). ■ ■

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■ ■ ■ ■ ■ ■ ■

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Widespread infection (eg, viral encephalitis or advanced bacterial meningitis). Massive brainstem hemorrhage or infarction. Central pontine myelinolysis. Electrolyte disturbances (eg, hypoglycemia). Exogenous toxins (eg, opiates, benzodiazepines, EtOH, other drugs). Generalized seizure activity or postictal states. Endocrine (eg, severe hypothyroidism) or metabolic dysfunction (eg, thiamine deficiency).

History/PE ■ Obtain a complete medical history from witnesses, including current medications (eg, sedatives). ■ Conduct thorough medical and neurologic exams, including assessments of mental status, spontaneous motor activity, muscle tone, breathing pattern, funduscopy, pupillary response, eye movements, corneal reflex, gag reflex, and motor or autonomic responses to noxious stimuli applied to the limbs, trunk, and face (eg, retromandibular pressure, nasal tickle). Diagnosis ■ Typically made by a combination of the history/physical and laboratory tests or neuroimaging. ■ Best initial step: Check glucose, electrolytes, calcium; perform renal panel, LFTs, ABGs, a toxicology screen, and blood and CSF cultures. Other metabolic tests (eg, TSH) may be performed based on the clinical index of suspicion. ■ Obtain a head CT without contrast before other imaging to evaluate for hemorrhage or structural changes. Imaging should precede LP in light of the risk for herniation. ■ Obtain an MRI to exclude structural changes and ischemia (eg, brainstem). ■ Rule out catatonia, conversion unresponsiveness, “locked-in” syndrome, or persistent vegetative state (PVS), all of which can be confused with true coma (see Table 2.10-13). KEY FACT

Treatment Initial treatment should consist of the following measures: Stabilize the patient: Attend to ABCs. ■ Reverse the reversible: Administer DONT—Dextrose, Oxygen, Naloxone, and Thiamine. ■

TA B L E 2.10 - 13. 

Artificial life support can be discontinued only after two physicians have declared the patient legally brain dead.

Differential Diagnosis of Minimally Conscious State

Variable Alertness

“Locked-in” Syndrome

Coma

Brain Death

Wakeful and aware

Awake but not aware;

Unconscious, eyes closed; no

Unconscious; no

with retained cognitive

Eyes open and closed—sleep-

sleep-wake cycles

sleep-wake cycles

Same as coma

abilities Most common causes

Persistent Vegetative State

wake cycles present

Central pontine myelin-

Diffuse cortical injury or

Diffuse hypoxic encephalopathy,

olysis, brainstem stroke,

hypoxic ischemic injury

widespread infection, electro-

advanced ALS

lyte disturbances, toxins

Voluntary motor ability

Eyes and eyelids

None

None

None

Respiratory drive

Yes

Yes

Yes

None

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Identify and treat the underlying cause and associated complications. Prevent further damage.

■ ■

Nutritional Deficiencies Table 2.10-14 describes neurologic syndromes commonly associated with nutritional deficiencies.

Ophthalmology VISUAL FIELD DEFECTS

Figure 2.10-10 illustrates common visual field defects and the anatomic areas with which they are associated. GLAUCOMA

In the eye, aqueous humor produced by the ciliary body on the iris travels through the pupil into the anterior chamber and is then drained back into TA B L E 2.10 - 14. 

Vitamin

Neurologic Syndromes Associated with Nutritional Deficiencies

Syndrome

Thiamine

Wernicke

(vitamin B1)

encephalopathy

Signs/Symptoms The classic triad consists of enceph-

Classic Patients Alcoholics (toxin effect on

Reversible almost

alopathy, ophthalmoplegia, and

cerebellar Purkinje fibers),

immediately with

ataxia

hyperemesis, starvation, renal

thiamine

dialysis, AIDS. Can be brought

administration

on or exacerbated by highdose glucose administration Korsakoff dementia

Treatment

Above plus anterograde and ret-

Same as above. Usually occurs

rograde amnesia, horizontal

in Wernicke syndrome that

nystagmus, and confabulations

was treated too late or

Always give thiamine before glucose Irreversible

inadequately Cyanocobalamin

Peripheral neuropathy;

Patients with pernicious

B12 injections or large

(vitamin B12)a

subacute combined

Symmetric paresthesias, stocking-

anemia; strict vegetarians;

oral doses

degeneration (SCD)

glove sensory neuropathy, leg

status post–gastric or ileal

stiffness, spasticity, paraplegia,

resection; ileal disease (eg,

bowel and bladder dysfunction,

Crohn); alcoholics or others

sore tongue, and dementia

with malnutrition

Gradual, progressive onset.

Associated with elevated methylmalonic acid levels Folatea

Folate deficiency

Irritability; personality changes without the neurologic symptoms

Alcoholics

Reversible if corrected early

of CSD Associated with ↑ homocysteine and an ↑ risk for vascular events.

a

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311

Defect in visual field of L eye

Lt. 7 Macula Optic chiasm

Optic nerve

1

Rt. 1

3 Optic tract

2 Lateral geniculate body

Dorsal optic 5 radiation (parietal lobe) Calcarine fissure

R eye

Visual cortex

4 Meyer loop (temporal lobe)

2

1. Right anopia 2. Bitemporal hemianopsia 3. Left homonymous hemianopia 4. Left upper quadrantic anopsia (right temporal lesion) 5. Left lower quadrantic anopia (right parietal lesion) 6. Left hemianopsia with macular sparing 7. Central scotoma (macular degeneration)

3 4 5

3 (6 if PCA infarct)

6 7

F I G U R E 2 . 1 0 - 1 0 .   Visual field defects. (Reproduced with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill, 2018.)

the bloodstream via the trabecular meshwork in the angle of the anterior chamber. Any process that disrupts this natural flow can ↑ intraocular pressure (IOP), damaging the optic nerve and causing visual field deficits. Glaucoma is the result of such damage to the nerve. ■ Open-angle glaucoma is much more common in the United States than closed-angle glaucoma (see Figure 2.10-11 and Table 2.10-15). ■

KEY FACT Closed-angle glaucoma headaches are triggered by darkness (caused by pupillary dilation). Migraine headaches are triggered by bright lights.

KEY FACT Open-angle glaucoma generally occurs bilaterally, but closed-angle glaucoma occurs unilaterally.

1

Normal

Cupping

B

A

Normal

Acute angle closure

Angle closure

C

D

F I G U R E 2 . 1 0 - 1 1 .   Findings in open- and closed-angle glaucoma. (A) Normal optic disk. (B) Cupping (increased cup-to-disk ratio) seen in open-angle glaucoma. (C) Iris, pupil, and cornea in normal eye compared with eye with closed-angle glaucoma. (D) Fixed, dilated pupil seen in closed-angle glaucoma. (Images A and B reproduced with permission from EyeRounds. Image C reproduced with permission from Low S, Davidson AE, Holder GE, et al. Autosomal dominant Best disease with an unusual electrooculographic light rise and risk for angle-closure glaucoma: a clinical and molecular genetic study. Mol Vis. 2011;17:2272–2282. Image D reproduced with permission from Dr. Jonathan Trobe.)

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A 39-year-old man presents to the ED with severe eye pain, photophobia, and a persistent sensation that something is in his eye. You are suspicious of a corneal abrasion. What are the risk factors for this condition, and what diagnostic test can you do to confirm your suspicion?

2 A 45-year-old white man presents to the ED with sudden-onset headache and a dilated pupil in his right eye that is nonreactive to light. His right eye is hard to the touch. What is the most likely diagnosis, and what medications should be avoided in this patient?

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TA B L E 2.10 - 15. 

NEUROLOGY

Closed-Angle vs Open-Angle Glaucoma

Closed-Angle Glaucoma Etiology

Open-Angle Glaucoma

Disrupted flow of aqueous humor into the anterior chamber results

Diseased trabecular meshwork results in ↓ drainage

in ↑ pressure in the posterior chamber, leading to angle closure that

leading to gradual ↑ in IOP and progressive vision loss

↓ drainage Risk

Family history, older age (55–70 years), Asian, hyperopia, prolonged

Risk factors include > 40 years of age, African-American

factors

pupillary dilation (prolonged time in a dark area, stress, medica-

ethnicity, diabetes, and myopia

tions), anterior uveitis, and lens dislocation History/PE

Extreme, sudden-onset eye pain, blurred vision, headache, nausea, and vomiting

Should be suspected in patients > 35 years of age who need frequent lens changes and have mild head-

A hard, red eye is seen; the pupil is dilated and nonreactive to light

aches, visual disturbances, and impaired adaptation to darkness; usually asymptomatic until late in the clinical course Characterized by gradual loss of peripheral vision Cupping of the optic nerve head is seen on funduscopic exam (see Figure 2.10-11)

Diagnosis

Best initial test: Ocular tonometry (to measure intraocular pressure)

Best initial test: Tonometry, ophthalmoscopic visualiza-

can quickly provide additional information. Gonioscopy is the

tion of the optic nerve and cupping of optic disk, and

gold standard

visual field testing are most important

Fixed pupil and hard, red eye Treatment

A medical emergency that can cause blindness. Treatment to ↓ IOP

Treat with topical β-blockers (timolol, betaxolol) to ↓ aqueous humor production

is as follows: Eyedrops (timolol, pilocarpine)

Pilocarpine to ↑ aqueous outflow

Systemic medications (oral or IV acetazolamide, IV mannitol)

Carbonic anhydrase inhibitors (acetazolamide) can also

Laser peripheral iridotomy, which creates a hole in the peripheral iris, is curative and can be performed prophylactically Do not give any medications that cause pupillary dilation (atropine)

be used If medication fails, lser trabeculoplasty or a trabeculectomy can improve aqueous drainage

CATARACTS

1 Risk factors of corneal abrasion include trauma, foreign body, and contact lens use. Use a penlight to document pupillary function and the presence/absence of a foreign body. A fluorescein exam can be diagnostic and will show a corneal staining defect.

2 This patient presentation is consistent with closed-angle glaucoma. Avoid pupil-dilating medications such as atropine, which will ↑ IOP and prevent drainage of aqueous humor.

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Lens opacification resulting in obstructed passage of light. Associated with diabetes, hypertension, advanced age, and exposure to radiation. ■ Hx/PE: Presents with loss of visual acuity and difficulty with night vision. ■ Tx: Surgical lens removal and replacement. ■

AGE-RELATED MACULAR DEGENERATION

More common among white individuals, women, smokers, and those with a family history. History/PE ■ Presents with painless loss of central vision. Early signs include distortion of straight lines and loss of other aspects of fine visual acuity. ■ Atrophic (“dry”) macular degeneration: Responsible for 80% of cases. Causes gradual vision loss. ■ Exudative or neovascular (“wet”) macular degeneration: Much less common, but associated with more rapid and severe vision damage.

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313

Diagnosis ■ Atrophic (“dry”) macular degeneration: Funduscopy reveals drusen (accumulation of white/yellow extracellular material) and/or pigmentary changes. ■ Exudative or neovascular (“wet”) macular degeneration: Hemorrhage and subretinal fluid are present (see Figure 2.10-12). Treatment ■ Atrophic AMD: No treatment is currently available, although a combination of vitamins (vitamin C, vitamin E, beta-carotene, and zinc) has been found to slow disease progression. Be cautious giving high doses of vitamin E and beta-carotene to patients who smoke as there is an association of ↑ mortality rate from lung cancer in people taking high doses of these supplements. ■ Exudative AMD: ■ VEGF inhibitors have been shown to improve vision (ranibizumab, bevacizumab) or slow visual loss (pegaptanib) in patients with exudative AMD. ■ Photodynamic therapy using a laser to selectively target retinal vessels for coagulation. May be useful in conjunction with VEGF inhibitors. RETINAL VASCULAR OCCLUSION

Occurs in elderly patients and is often idiopathic (see Table 2.10-16). TA B L E 2.10 - 16. 

Central Retinal Artery Occlusion Presents with sudden, painless, unilateral

KEY FACT In the United States, macular degeneration is the leading cause of permanent bilateral visual loss in the elderly.

Presents with rapid, painless vision loss of variable

direct light

severity; associated with

fovea (blue arrow), retinal swelling (whitish

KEY FACT

fundoscopy

blindness; pupil is sluggishly reactive to Patients present with a cherry-red spot on the

Treatment

permission from USMLE-Rx.com.)

Central Retinal Artery vs Central Retinal Vein Occlusion

Central Retinal Vein

History/PE

F I G U R E 2 . 1 0 - 1 2 .   Macular degeneration with evidence of drusen and fibrosis in the macula. (Reproduced with

hypertension A swollen optic disc with

appearance to the nerve fiber layer), and

hemorrhages, venous

retinal arteries that may appear bloodless

stasis retinal hemorrhages,

Transient occlusion is comparable to transient

cotton-wool spots, and

ischemic attack and is known as amaurosis

macular edema may be

fugax

seen on funduscopic exam

Ocular massage with high-flow oxygen

Laser photocoagulation (vari-

administration; intra-arterial thrombolysis

able results)

Retinal detachment presents with sudden onset flashing lights and blurred vision. Patients typically describe a curtain coming down over their eye. Ophthalmoscopy shows a gray, elevated retina.

within 8 hours Image A reproduced with permission from USMLE-Rx.com. Image B reproduced with permission from Alasil T, Rauser ME. Intravitreal bevacizumab in the treatment of neovascular glaucoma secondary to central retinal vein occlusion: a case report. Cases J 2009;2:176.

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NEUROLOGY

NOTES

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HIGH-YIELD FACTS IN

OBSTETRICS Physiology of Normal Pregnancy

316

Eclampsia

336

The Basics of Pregnancy

316

Urinary Tract Infection and Pyelonephritis During Pregnancy

337

Diagnosis of Pregnancy

316

Antepartum Hemorrhage

337

Normal Physiology of Pregnancy

316

Prenatal Care

317

Prenatal Diagnostic Testing

319

Quad Screening

319

Nuchal Translucency

320

Chorionic Villus Sampling

320

Amniocentesis

321

Teratology 321 Maternal-Fetal Infections

321

Obstetric Complications of Pregnancy

337

Ectopic Pregnancy

337

Intrauterine Growth Restriction

340

Fetal Macrosomia

340

Polyhydramnios

341

Oligohydramnios

341

Rh Isoimmunization

341

Gestational Trophoblastic Disease

342

Multiple Gestation

343

Abnormal Labor and Delivery

344

Spontaneous Abortion

324

Shoulder Dystocia

344

Elective Termination of Pregnancy

325

Failure to Progress

345

Rupture of Membranes

346

Normal Labor and Delivery

326

Preterm Labor

346

Obstetric Exam

326

Fetal Malpresentation

347

Fetal Heart Rate Monitoring

326

Indications for C-section

348

Antepartum Fetal Surveillance

329

Episiotomy

349

Obstetric Analgesia and Anesthesia

331

Puerperium 349

332

Postpartum Hemorrhage

349

Hyperemesis Gravidarum

332

Postpartum Infection

350

Diabetes in Pregnancy

332

Sheehan Syndrome (Postpartum Pituitary Necrosis)

350

Gestational and Chronic Hypertension

334

Lactation and Breastfeeding

351

Preeclampsia

335

Mastitis

351

Medical Complications of Pregnancy

315

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HIGH-YIELD FACTS IN

OBSTETRICS

Physiology of Normal Pregnancy THE BASICS OF PREGNANCY

The terms and concepts that follow are central to an understanding of the physiologic processes of pregnancy. Gravidity: Number of times a woman has been pregnant. Parity: ■ Number of pregnancies that led to a birth beyond 20 weeks’ gestational age or an infant weighing > 500 g. ■ In prenatal assessment, TPAL expresses the number of term deliveries (T), the number of preterm deliveries (P), the number of abortuses (A), and the number of living children (L). ■ Developmental age (DA): Number of weeks and days since fertilization; usually unknown. ■ Gestational age (GA): The number of weeks and days measured from the first day of the last menstrual period (LMP). GA can also be determined by the following: ■ Fundal height: Umbilicus – 20 weeks +1 cm/week thereafter. ■ Fetal heart tones (Doppler): Typically 10–12 weeks. ■ Quickening or appreciation of fetal movement: Occurs at 17–18weeks at the earliest. ■ Ultrasonography: ■ Measures fetal crown-rump length (CRL) at 6–12 weeks. ■ Measures biparietal diameter (BPD), femur length (FL), and abdominal circumference (AC) from 13 weeks. ■ Ultrasound measurement of GA is most reliable during the first trimester. ■ ■

KEY FACT A G3P1 woman is one who has had three pregnancies but only one birth beyond 20 weeks’ GA and/or an infant who weighs at least 500 g.

DIAGNOSIS OF PREGNANCY

KEY FACT Get a quantitative serum β-hCG: ■ To diagnose ectopic pregnancy and follow for resolution after treatment. ■ To monitor trophoblastic disease. ■ To screen for fetal aneuploidy.

𝛃-hCG

The standard for diagnosing pregnancy. Can be detected in serum or urine. ■ Serum hCG is more sensitive and preferred if menstrual period is 29.0): 5–9 kg

Nutrition

Guidelines for nutritional supplementation: An additional 100–300 kcal/day; 500 kcal/day during breastfeeding

Folic acid supplements (↓ neural tube defects for all reproductive-age

women) Iron

Calcium

Additional guidelines for complete vegetarians: Vitamin D

Vitamin B12

Exercise

Thirty minutes of moderate exercise daily, while avoiding contact sports

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HIGH-YIELD FACTS IN

OBSTETRICS

Gastrointestinal system

Cardiovascular system ut

Blood

-10 0

Gradually decreases 10% by 34 weeks, then increases to prepregnancy values

pressu

re

12

24

36

+40

gt im e

Gradually increases 20%

+30 +20

Sphincter tone - Decreases

+10

Weeks

Stroke volume - Increases to maximum at 19 weeks, then plateaus Peripheral venous distortion - Progressive increase to term Peripheral vascular resistance -Progressive decrease to term

12

24 Weeks

Circulatory system

+50

+30

+40

+20

me

+40

% of change

n

ge

ino

r Fib

Increases by 50% in second trimester Increases

+10

Unchanged Decreases slightly

Electrolytes

p res

Increases by 40%

Respiratory rate, vital capacity

0 -10

Unchanged Gradual decrease

Exp

ira

-20

Hemato crit

-10

e, me lum olu l vo nute v a d Ti y mi or irat

+10

vo lu od Blo

% of change

+20

36

Pulmonary system

+60

+30

Increases

tyi n

rate Heart

+50

ic em p

% of change

+20 +10

+60

Rises rapidly by 20%, then gradually increases an additional 10% by 26 weeks

Ga str

Cardiac outp

% of change

+30

tor y re

ser

ve

-30

-20

-40 0

12

FIGURE 2.11-2.  Rx.com.)

24 Weeks

36

12

24 Weeks

36

Cardiopulmonary, hematologic, and gastrointestinal changes in normal pregnancy. (Reproduced with permission from USMLE-

TA B L E 2.11 - 2. 

Factors That Can Cross the Placenta

Immunoglobulins IgG

Organisms Toxoplasma gondii

Drugs See the teratology discussion later

Rubella HIV Varicella-zoster virus CMV Enteroviruses Treponema pallidum Listeria monocytogenes Parvovirus B19

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319

Prenatal Diagnostic Testing Table 2.11-3 outlines a typical prenatal diagnostic testing schedule by week. The sections that follow describe each recommended screening modality. QUAD SCREENING

Quad screening consists of four elements (see Table 2.11-4): maternal serum α-fetoprotein (MSAFP), inhibin A, estriol, and β-hCG. MSAFP: Produced by the fetus and enters the maternal circulation. Results are reported as multiples of the median (MoMs). ■ Measurement results depend on accurate gestational dating. Multiple gestations and uterine leiomyomata (fibroids) may cause size/ date discrepancy. ■ MSAFP is rarely tested alone, as quad screening has ↑ sensitivity for detecting chromosomal abnormalities.

TA B L E 2.11 - 3. 

Prenatal Diagnostic Testing Schedule

Weeks

Prenatal Diagnostic Testing

Prenatal

Weeks 0–28: Every 4 weeks

visits

Weeks 29–35: Every 2 weeks Weeks 36–birth: Every week

Initial visit

Heme: CBC, Rh factor, type and screen Infectious disease: UA and culture, rubella antibody titer, HBsAg, RPR/VDRL, cervical gonorrhea and chlamydia, PPD, HIV, TB testing (or MTB), Pap smear (to check for dysplasia); consider HCV and varicella based on history If indicated: HbA1c, sickle cell screening Discuss genetic screening: Tay-Sachs disease, cystic fibrosis, Spinal muscular atrophy

9–14 weeks

Offer PAPP-A + nuchal translucency (NT) or NIPT (noninvasive prenatal testing) or ± Chorionic villus sampling (CVS)

15–22 weeks

Offer maternal serum α-fetoprotein (MSAFP) or quad screen (AFP, estriol, β-hCG, and inhibin A) ± amniocentesis

18–20 weeks

Ultrasonography for full anatomic screen

24–28 weeks

One-hour glucose challenge test for gestational diabetes screen

28–30 weeks

RhoGAM for Rh⊝ women (after antibody screen) RhoGAM should be administered to any unsensitized Rh⊝ woman during any occasion of fetal-maternal blood mixing (eg, spontaneous abortion (SAB), placental abruption) even if < 28 weeks’ gestation

35–37 weeks

GBS culture; repeat CBC

34–40 weeks

In high-risk patients, cervical chlamydia and gonorrhea cultures, HIV, RPR

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OBSTETRICS

TA B L E 2.11 - 4. 

Quad Screening

MSAFP

Estriol

Inhibin A

β-hCG

Trisomy 18

Trisomy 21

↑ MSAFP (> 2.5 MoMs) is associated with the following: ■ Open neural tube defects (anencephaly, spina bifida). ■ Abdominal wall defects (gastroschisis, omphalocele). ■ Multiple gestation. ■ Incorrect gestational dating. ■ Fetal death. ■ Placental abnormalities (eg, placental abruption). ■ ↓ MSAFP (< 0.5 MoM) is associated with the following: ■ Trisomy 21 and 18. ■ Fetal demise. ■ Incorrect gestational dating. ■

KEY FACT Still UNDERage at 18: trisomy 18 = ↓AFP, ↓ estriol, ↓ β-hCG, ↓ inhibin A.

NUCHAL TRANSLUCENCY

KEY FACT 2 up, 2 down: trisomy 21 = ↓ AFP, ↓estriol, ↑ β-hCG, ↑ inhibin A.

Recommended at weeks 9–14. PAPP-A + nuchal translucency + free β-hCG can detect ∼ 91% of cases of Down syndrome and ∼ 95% of cases of trisomy 18. ■ Advantages: ■ A screen of pregnant women (> 35 years of age). ■ Available earlier than CVS and less invasive than CVS (see later). ■ ■

CHORIONIC VILLUS SAMPLING

Table 2.11-5 outlines the relative advantages and disadvantages of CVS and amniocentesis (see Figure 2.11-3). TA B L E 2.11 - 5. 

Variable GA Procedure

Prenatal Screening for Fetal Genetic Abnormalities

Cell-Free Fetal DNA

CVS

10 weeks

10–12 weeks

15–20 weeks

Isolation of fetal DNA from

Transcervical or transabdominal aspiration of pla-

Transabdominal aspiration of amni-

blood sample obtained

cental tissue

otic fluid using an ultrasound-guided

from mother Advantages

Amniocentesis

Noninvasive

needle Genetically diagnostic

Genetically diagnostic

Available at an earlier GA Disadvantages

May be limited because of

Risk for fetal loss is relatively high (1%)

Premature rupture of membranes

low concentration of fetal

Cannot detect open neural tube defects

(PROM), chorioamnionitis, fetal-

DNA in maternal circulation

Limb defects are associated with CVS at < 9 weeks

maternal hemorrhage

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OBSTETRICS

Catheter taking tissue samples

HIGH-YIELD FACTS IN

321

Ultrasound transducer Uterus

Catheter

Placenta Fetus

Fetal cells

FIGURE 2.11-3. 

Chorionic villus sampling. (Reproduced with permission from USMLE-Rx.com.)

AMNIOCENTESIS

Indicated for the following: Women > 35 years of age at the time of delivery. Abnormal nuchal translucency, abnormal quad screen, or abnormal noninvasive prenatal testing. ■ Rh-sensitized pregnancy to obtain fetal blood type or to detect fetal hemolysis. ■ Evaluation of fetal lung maturity. Lecithin-to-sphingomyelin ratio ≥ 2.5 or to presence of phosphatidylglycerol (performed during the third trimester) indicates lung maturity. ■ ■

Teratology Major defects are apparent in about 3% of births and in roughly 4.5% of children by 5 years of age. Table 2.11-6 outlines common teratogenic agents.

Maternal-Fetal Infections Can occur at any time during pregnancy, labor, and delivery. Common sequela include the following: Premature delivery. ■ CNS abnormalities. ■ Anemia. ■ Jaundice. ■ Hepatosplenomegaly. ■ Growth restriction.

MNEMONIC TORCHeS pathogens— Toxoplasmosis Othera Rubella CMV Herpes simplex virus HIV Syphilis Parvovirus, varicella, Listeria, TB, malaria, fungi.

a

The most common pathogens involved can be remembered through use of the ToRCHeS mnemonic (see Table 2.11-7).

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KEY FACT Pregnant women should not change a cat’s litterbox to prevent exposure to toxoplasmosis.

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TA B L E 2.11 - 6. 

OBSTETRICS

Common Teratogenic Agents and Their Associated Defects

Drugs and Chemicals

Defects

ACEIs

Fetal renal tubular dysplasia and neonatal renal failure, oligohydramnios, IUGR, lack of cranial ossification

Alcohol

Fetal alcohol syndrome (growth restriction before and after birth, mental retardation, midfacial hypoplasia, smooth philtrum, renal and cardiac defects) Consumption of > 6 drinks per day is associated with a 40% risk for fetal alcohol syndrome

Amphetamines

Preterm delivery, placental abruption, preeclampsia, IUGR, fetal demise

Androgens

Virilization of female fetuses; advanced genital development in male fetuses. Most commonly caused by maternal luteomas

Carbamazepine

Neural tube defects, fingernail hypoplasia, microcephaly, developmental delay, IUGR

Cocaine

Bowel atresias; congenital malformations of the heart, limbs, face, and GU tract; microcephaly; IUGR; cerebral infarctions

DES

Clear cell adenocarcinoma of the vagina or cervix, vaginal adenosis, abnormalities of the cervix and uterus or testes, possible infertility

Lead

↑ SAB rate; stillbirth

Lithium

Congenital heart disease (Ebstein anomaly)

Methotrexate

↑ SAB rate

Organic mercury

Cerebral atrophy, microcephaly, mental retardation, spasticity, seizures, blindness

Phenytoin

IUGR, mental retardation, microcephaly, dysmorphic craniofacial features, cardiac defects, fingernail hypoplasia

Radiation

Microcephaly, mental retardation Medical diagnostic radiation delivering < 0.05 Gy to the fetus has no teratogenic risk

Streptomycin and

Hearing loss; CN VIII damage

kanamycin Tetracycline

Permanent yellow-brown discoloration of deciduous teeth; hypoplasia of tooth enamel

Thalidomide

Bilateral limb deficiencies, anotia and microtia, cardiac and GI anomalies

Trimethadione and

Cleft lip or cleft palate, cardiac defects, microcephaly, mental retardation

paramethadione Valproic acid

Neural tube defects (spina bifida); minor craniofacial defects

Vitamin A and

↑ SAB rate, microtia, thymic agenesis, cardiovascular defects, craniofacial dysmorphism, microphthalmia, cleft lip or

derivatives Warfarin (wages

cleft palate, mental retardation Nasal hypoplasia and stippled bone epiphyses, developmental delay, IUGR, ophthalmologic abnormalities

war on the fetus)

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OBSTETRICS

TA B L E 2.11 - 7. 

Disease Toxoplasmosis

323

HIGH-YIELD FACTS IN

Diagnosis and Treatment of Common Congenital Infections

Transmission

Symptoms

Diagnosis

Treatment

Prevention

Serologic testing

Pyrimethamine

Avoid exposure to cat

+ sulfadiazine

feces or uncooked

Transplacental; 1°

Hydrocephalus

infection via con-

Intracranial calcifications

sumption of raw

Chorioretinitis

meat during preg-

meat or contact with

Ring-enhancing lesions on MRI

nancy; spiramycin prophylaxis for the

cat feces

third trimester Rubella

CMV

HSV

Serologic testing

Symptomatic

Immunize before

Transplacental in the

Purpuric “blueberry muffin” rash

first trimester

Cataracts

pregnancy; vaccinate

Mental retardation

the mother after

Hearing loss

delivery if serologic

PDA

titers remain ⊝

Primarily

Petechial rash

Urine culture; PCR

Postpartum

transplacental

Periventricular calcifications

of amniotic fluid

ganciclovir

Intrapartum trans-

Skin, eye, and mouth infections

Serologic testing

Acyclovir

mission if the mother

Life-threatening CNS/systemic

has active lesions;

N/A

Perform a C-section if lesions are present at

infection

delivery

transplacental transmission is rare HIV

In utero, at delivery,

Often asymptomatic

ELISA, Western

or via breast milk

Failure to thrive

blot

HAART

AZT or nevirapine in pregnant women

Bacterial infections

with HIV; perform

↑ Incidence of upper and lower

elective C-section if viral load is > 1000

respiratory diseases

Treat infants with prophylactic AZT; avoid breastfeeding Syphilis

Intrapartum;

Maculopapular skin rash

Dark-field micros-

Penicillin (if

Penicillin in pregnant

transplacental trans-

Lymphadenopathy

copy, VDRL/RPR,

allergic, should

women who test ⊕

mission is possible

Hepatomegaly

FTA-ABS

desensitize and

“Snuffles”: mucopurulent rhinitis

give penicillin)

Osteitis Late congenital syphilis: Saber shins Saddle nose CNS involvement Hutchinson triad: peg-shaped central incisors, deafness, interstitial keratitis

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OBSTETRICS

Spontaneous Abortion The loss of products of conception (POC) before the 20th week of pregnancy. More than 80% of cases occur in the first trimester. Risk factors are as follows: Chromosomal abnormalities: A factor in approximately 50% of SABs in the first trimester, 20–30% in second-trimester losses, and 5–10% in thirdtrimester losses. ■ Maternal factors: ■ Inherited thrombophilias: Factor V Leiden, prothrombin, antithrombin, proteins C and S, methylene tetrahydrofolate reductase (hyperhomo­ cysteinemia). ■ Immunologic issues: Antiphospholipid antibodies; alloimmune factors. ■ Anatomic issues: Uterine and cervical abnormalities, incompetent cervix, cervical conization or loop electrosurgical excision procedure (LEEP), cervical injury, DES exposure. ■ Endocrinologic issues: Diabetes mellitus (DM), hypothyroidism, progesterone deficiency. ■ Genetics: Osteogenesis imperfecta type II, aneuploidy incompatible with life (most common Trisomy 16). ■ Osteogenesis imperfecta type II is severe and lethal. Infants present with multiple fractures and die in utero or shortly after birth. ■ Other: Maternal trauma, ↑ maternal age, infection, dietary deficiencies. ■ Environmental factors: Tobacco, alcohol, excessive caffeine (> 500 mg/ day), toxins, drugs, radiation. ■ Fetal factors: Anatomic malformation. ■ Recurrent SAB: Two or more consecutive SABs or three SABs in 1 year, causes dependent on timing. To determine possible causes, karyotype both parents, perform work-up on mother for hypercoagulability, evaluate uterine anatomy. ■ Early (< 12 weeks): Chromosomal abnormalities likely cause. ■ Late (12–20 weeks): Hypercoagulable states (eg, antiphospholipid syndrome, SLE, factor V Leiden, protein S deficiency). ■

KEY FACT To remember the cervical exam during Inevitable and Incomplete SABs: ■ The I’s (Inevitable and Incomplete) are Open.

If antiphospholipid antibodies are detected, false-positive VDRL and falsely prolonged PTT may be seen. Provide low-molecular-weight heparin and lowdose aspirin for prophylaxis against recurrent SAB. History/PE See Table 2.11-8 for types of SAB. Diagnosis ■ Diagnosis by clinical presentation and physical exam. ■ Nonviable pregnancy: Gestational sac > 25 mm without a fetal pole or absence of fetal cardiac activity when CRL > 7 mm on transvaginal ultrasonography. ■ Best initial test: Ultrasonography can identify the following: ■ Gestational sac 5–6 weeks from the LMP. ■ Fetal pole at 6 weeks. ■ Fetal cardiac activity at 6–7 weeks. ■ Next best test: Serum β-hCG. Treatment ■ See Table 2.11-8 for treatment specific to the type of SAB. ■ Administer RhoGAM if the mother is Rh ⊝.

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TA B L E 2.11 - 8. 

325

Types of SAB

Type Complete

HIGH-YIELD FACTS IN

Symptoms/Signs Bleeding and cramping stopped. POC expulsion

Diagnosis Closed os

Treatment None

Ultrasonography shows no POC

Threatened

Uterine bleeding ± abdominal pain (often painless) No POC expulsion

Closed os + intact membranes + fetal

Pelvic rest for 24–48 hours and follow-up ultrasonography to assess viability of fetus

cardiac motion on ultrasonography

Incomplete

Partial POC expulsion; bleeding/ mild cramping

Open os. POC present

Manual uterine aspiration (MUA) if 20weeks GA

Uterus small for GA; no fetal heart tones or movement on ultrasonography

If < 24 weeks, perform D&E If > 24 weeks, induce labor within 1–2 weeks based on patient preference Do NOT perform C-section, even for breech presentation Offer autopsy to attempt to determine cause of death

Elective Termination of Pregnancy It has been estimated that 50% of all pregnancies in the United States are unintended. Some 25% of all pregnancies end in elective abortion. Options for elective abortion depend on GA and patient preference (see Table 2.11-9). If fever, vomiting, purulent discharge, and/or hemodynamic instability are seen after an elective abortion, septic abortion should be suspected. This is a medical emergency that requires broad-spectrum antibiotics and immediate surgery to remove infected tissue.

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A 23-year-old G1P0 woman at 15weeks’ GA presents with abdominal pain and mild bleeding from the cervix. On pelvic exam, some POC are found to be present in the vaginal vault. What test is necessary to determine the next step in management?

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OBSTETRICS

TA B L E 2.11 - 9. 

Elective Termination of Pregnancy

Trimester

Procedure

First

Medical management:

(90% ABs)

Timing Up to:

Oral mifepristone (low dose) + oral/vaginal misoprostol

49 days’ GA

IM/oral methotrexate + oral/vaginal misoprostol

49 days’ GA

Vaginal or sublingual or buccal misoprostol (high dose),

59 days’ GA

■ ■

repeated up to three times Surgical management:

13 weeks’ GA

Manual uterine aspiration

D&C with vacuum aspiration

Second (10% ABs)

Obstetric management: Induction of labor (typically with prostaglandins, amniotomy, and oxytocin)

13–24 weeks’ GA (depending on state laws)

Surgical management: D&C

Same as above

Normal Labor and Delivery OBSTETRIC EXAM

Leopold maneuvers are used to determine fetal lie (longitudinal or transverse) and, if possible, fetal presentation (breech or cephalic). ■ Cervical exam: ■ Evaluate dilation, effacement, station, cervical position, and cervical consistency. ■ Confirm or determine fetal presentation. ■ Determine fetal position through palpation of the fetal sutures and fontanelles. ■ Conduct a sterile speculum exam if rupture of membranes (ROM) is suspected. ■ Determine station, or engagement of the fetal head relative to a line through the ischial spines of the maternal pelvis. ⊝ Station = fetal head superior to this line; ⊕ station = fetal head inferior to this line. ■ Labor: Uterine contractions plus cervical change. ■ Table 2.11-10 depicts the normal stages of labor. ■ Braxton-Hicks contractions: ■ Also known as “false labor.” ■ Mild, irregular contractions without cervical change. ■ Management involves reassurance and normal surveillance after ruling out true labor. ■ Oxytocin side effects: ■ Hyponatremia. ■ Tachysystole. ■ Hypotension. ■

Ultrasonography should be performed to determine if all the POC have been expelled (ie, if the uterus is empty). If so, it is a complete abortion and the POC should be sent to pathology to confirm fetal tissue with no other treatment. If POC are retained, it is an incomplete abortion, and manual uterine aspiration or D&C is indicated. Medical management with misoprostol may also be appropriate.

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FETAL HEART RATE MONITORING

Monitoring can be performed with an electrode attached to the fetal scalp (a method that yields more precise results), or external monitoring can be conducted using Doppler ultrasound (a less invasive option).

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TA B L E 2.11 - 10. 

HIGH-YIELD FACTS IN

327

Stages of Labor

Duration Stage

Starts/Ends

Nulliparous

Multiparous

≤ 20 h

≤ 14 h

Comments

First Latent

Onset of labor to 6 cm dilation

Prolongation seen with excessive sedation/hypotonic uterine contractions

Active

Second

6 cm to complete cervical dilation (10cm)

Complete cervical dilation to delivery

4–6 h

2–3 h

(1.2 cm/hour)

(1.5 cm/h)

0.5–3.0 h

5–30 minutes

of infant Third

Delivery of infant to delivery of placenta

Prolongation seen with cephalopelvic disproportion

Neonate goes through all cardinal movements of delivery

0–0.5 h

0–0.5 h

Uterus contracts and placenta separates to establish hemostasis

Continuous electronic fetal heart rate (FHR) monitoring has not been shown to be more effective than appropriate intermittent monitoring in low-risk patients.

Recommendations for FHR Monitoring

In low-risk pregnancies, review FHR tracings: ■ First stage of labor—every 30 minutes. ■ Second stage of labor—every 15 minutes. ■ In high-risk pregnancies, review FHR tracings: ■ First stage of labor—every 15 minutes. ■ Second stage of labor—every 5 minutes. ■

Components of FHR Evaluation

Rate (normal = 110–160 bpm): ■ FHR < 110 bpm: Bradycardia. Can be caused by congenital heart malformations or by severe hypoxia (2° to uterine hyperstimulation, cord prolapse, or rapid fetal descent). ■ FHR > 160 bpm: Tachycardia. Causes include hypoxia, maternal fever, and fetal anemia. ■ Variability: See Figures 2.11-4 and 2.11-5. ■ Absent variability: Indicates severe fetal acidemia. ■ Minimal variability: < 6 bpm. Indicates fetal hypoxia or the effects of opioids, magnesium, or sleep cycle. ■ Normal variability: 6–25 bpm. ■ Marked variability: > 25 bpm. May indicate fetal hypoxia; may occur before a ↓ in variability. ■ Sinusoidal variability: Points to serious fetal anemia; a pseudosinusoidal pattern may also occur during maternal meperidine use. ■ Accelerations: Onset of an ↑ in FHR > 15 beats above baseline to a peak in < 30 seconds. Reassuring because they indicate proper function fetal autonomic nervous system. ■ Decelerations: See Table 2.11-11. ■

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MNEMONIC VEaL CHoP Variable deceleration = Cord compression Early deceleration = Head compression Late deceleration = Placental insufficiency

A 17-year-old G1P0 girl with a history of genital HSV presents at 37 weeks in labor. What is the appropriate management of the patient at delivery?

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OBSTETRICS

240

210

180

B

150

A 120

90

60

30

100 80 60 40 20 0

FIGURE 2.11-4. 

Varying (variable) fetal heart rate decelerations.

240 210 180 150 120 90 60 30 100 80 60 40 20 0

If the patient has any active lesions at the time of delivery, perform a C-section.

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F I G U R E 2 . 1 1 - 5 .   Late fetal heart rate decelerations. Late decelerations caused by uteroplacental insufficiency resulting from placental abruption. Immediate C-section delivery was performed. Umbilical artery pH was 7.05, and Po2 was 11 mm Hg. (Reproduced with permission from USMLE-Rx.com.)

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OBSTETRICS

TA B L E 2.11 - 11. 

Late

329

Types of Fetal Deceleration

Type Early

HIGH-YIELD FACTS IN

Description

Etiology

A visually apparent, gradual (onset to nadir in >

Head compression

30 seconds) ↓ in FHR with a return to baseline that

from the uterine

mirrors the uterine contraction

contraction (normal)

A visually apparent, gradual (onset to nadir in

Uteroplacental

> 30 seconds) ↓ in FHR with return to baseline

insufficiency and

whose onset, nadir, and recovery occur after the

fetal hypoxemia

Schematic

beginning, peak, and end of uterine contraction, respectively

Variable

An abrupt (onset to nadir in < 30 seconds), visu-

Umbilical cord

ally apparent ↓ in FHR 15 bpm below baseline

compression

lasting ≥ 15 seconds but < 2 minutes

Reproduced with permission from Cunningham FC, et al. Williams Obstetrics, 23rd ed. New York, NY: McGraw-Hill; 2010.

ANTEPARTUM FETAL SURVEILLANCE

In general, antepartum fetal surveillance is used in pregnancies in which the risk for antepartum fetal demise is ↑. Testing is initiated in most at-risk patients at 32–34 weeks (or 26–28 weeks if there are multiple worrisome risk factors present). The following assessments are made: Fetal movement assessment: ■ Assessed by the mother as the number of fetal movements over 1 hour. ■ On average, it takes 2 hours for a mother to obtain 10 fetal movements.

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OBSTETRICS

TA B L E 2.11 - 12. 

Reactive NST (normal response)

Nonstress Test Interpretation Two accelerations lasting at least 15 seconds over 20-minute period (see Figure 2.11-6): ≥ 15 bpm above baseline if > 32 weeks GA

≥ 10 bpm above baseline if < 32 weeks GA

Nonreactive NST

Insufficient accelerations over a 40-minute period Perform further tests (eg, a biophysical profile, or BPP) Lack of FHR accelerations may occur with any of the following: Fetal sleeping (most common)

GA < 32 weeks

Fetal CNS anomalies

Maternal sedative or narcotic administration

Maternal reports of ↓ fetal movements should be evaluated by means of the following tests: ■ Nonstress test (NST): ■ Performed with the mother resting in the lateral tilt position (to prevent supine hypotension). ■ FHR is monitored externally by Doppler along with a tocodynamometer to detect uterine contractions. Acoustic stimulation may be used. ■ See Table 2.11-12 for NST interpretation. ■ Contraction stress test (CST): ■ Performed in the lateral recumbent position. ■ FHR is monitored during spontaneous or induced (via nipple stimulation or oxytocin) contractions. ■ Reactivity is determined from fetal heart monitoring, as with the NST. ■ Contraindicated in women with preterm membrane rupture or known placenta previa; those with a history of uterine surgery; and those who are at high risk for preterm labor. ■ See Table 2.11-13 for CST interpretation. ■

KEY FACT A ⊝ CST is good; a ⊕ one is bad.

190

Fetal movement

FIGURE 2.11-6.  

Acceleration

190

160

160

130

130

120

120

90

90

60

60

30

30

100

100

75

75

50

50

25

25

Doppler

Reactive nonstress test. (Reproduced with permission from USMLE-Rx.com.)

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OBSTETRICS

TA B L E 2.11 - 13. 

Positive CST

HIGH-YIELD FACTS IN

331

Contraction Stress Test Interpretation Late decelerations following 50% or more of contractions in a 10-minute window. Raises concerns about fetal compromise. Delivery is warranted

Negative CST

No late or significant variable decelerations within 10 minutes and at least three contractions

Equivocal CST

Intermittent late decelerations or significant variable decelerations

Biophysical profile (BPP): Uses real-time ultrasonography to assign a score of 2 (normal) or 0 (abnormal) to five parameters: fetal tone, breathing, movement, amniotic fluid volume, and NST. Scoring is as follows: ■ 8–10: Reassuring for fetal well-being. ■ 6: Considered equivocal. Term pregnancies are usually delivered with this profile. ■ 0–4: Extremely worrisome for fetal asphyxia; strong consideration should be given to immediate delivery if no other explanation is found. ■ Pregnancies > 41 weeks are at risk for uteroplacental insufficiency and oligohydramnios. Perform biophysical profile at 41 weeks to screen for fetal hypoxia. ■ Amniotic fluid index (AFI): Sum of the measurements of the deepest cord-free amniotic fluid measured in each of the abdominal quadrants. ■ Modified biophysical profile (mBPP): ■ NST + AFI. ■ A normal test consists of a reactive NST and an AFI > 5 cm. ■ Umbilical artery Doppler velocimetry: ■ Used only when IUGR is suspected. ■ With IUGR, there is a reduction and even a reversal of umbilical artery diastolic flow. ■ Oligohydramnios (AFI < 5 cm) always warrants further work-up. ■

MNEMONIC When performing a BPP—

Test the Baby, MAN! Fetal Tone Fetal Breathing Fetal Movement Amniotic fluid volume Nonstress test

OBSTETRIC ANALGESIA AND ANESTHESIA

Uterine contractions and cervical dilation result in visceral pain (T10–L1). Descent of the fetal head and pressure on the vagina and perineum result in somatic pain (pudendal nerve, S2–S4). ■ In the absence of a medical contraindication, maternal request is a sufficient medical indication for pain relief during labor. ■ Transient hypotension is a common complication and does not require treatment unless there are signs of vasomotor shock (caused by inadvertent injection of medication into dural space). ■ Epidural anesthesia can cause postpartum urinary retention. Urethral catheterization is diagnostic and therapeutic. ■ Absolute contraindications to regional anesthesia (epidural, spinal, or combination) include the following: ■ Refractory maternal hypotension. ■ Maternal coagulopathy. ■ Maternal use of a once-daily dose of low-molecular-weight heparin within 12 hours. ■ Untreated maternal bacteremia. ■ Skin infection over the site of needle placement. ■ ↑ ICP caused by a mass lesion. ■ ■

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Medical Complications of Pregnancy HYPEREMESIS GRAVIDARUM

KEY FACT If “morning sickness” persists after the first trimester, think hyperemesis gravidarum.

KEY FACT Important to rule out trophoblastic disease with ultrasound in a pregnant patient who presents with severe nausea and vomiting.

Persistent vomiting not related to other causes, acute starvation (usually large ketonuria), and weight loss (usually at least a 5% ↓ from prepregnancy weight). More common in first pregnancies, multiple gestations, and molar pregnancies. ■ ↑ β-hCG and ↑ estradiol have been implicated in its pathophysiology. ■

History/PE Distinguish from “morning sickness” (which usually starts 4–7 weeks of pregnancy and resolves < 16 weeks, but can occur throughout pregnancy), acid reflux, gastroenteritis, hyperthyroidism, and neurologic conditions. Diagnosis ■ Clinical diagnosis. ■ Best initial test: Ultrasonography; evaluate for trophoblastic disease or multiple gestation. ■ Evaluate for electrolyte abnormalities, abnormal liver enzymes, amylase, and lipase. ■ Wernicke encephalopathy from B1 deficiency may be present in severe cases. Look for gait ataxia and oculomotor dysfunction. Treatment ■ Best initial treatment: ■ Dietary changes and doxylamine-pyridoxine. ■ If no response, discontinue doxylamine-pyridoxine and add metoclopramide, promethazine, or prochlorperazine. ■ Further add ondansetron if vomiting is not resolved. ■ If dehydrated, administer IV fluids, IV nutritional supplementation, and ondansetron IV. DIABETES IN PREGNANCY

Diabetes in pregnancy is divided into the following two categories: Gestational diabetes mellitus (GDM): Onset occurs during pregnancy. Pregestational diabetes mellitus: Onset occurs before pregnancy. If the woman has risk factors for DM, screen with fasting glucose or HbA1c; eg, BMI > 25 kg/m2 (> 23 kg/m2 for Asians), first-degree relative with DM, high-risk ethnicity (African-American, Asian, Hispanic, Pacific Islander, Native American), polycystic ovarian syndrome, prior delivery of baby >4.1kg (9 lb) or diagnosis of GDM, hypertension or on treatment for hypertension, previous HbA1c > 5.7% or impaired glucose tolerance or impaired fasting glucose, or HDL-C 250mg/dL.

■ ■

Gestational Diabetes Mellitus

Carbohydrate intolerance of variable severity that is first diagnosed during pregnancy. Occurs in 3–5% of all pregnancies, and is usually diagnosed in the third trimester (24–28 weeks).

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333

History/PE ■ Typically asymptomatic. ■ May present with edema, polyhydramnios, or a large-for-gestational-age infant (> 90th percentile). Diagnosis ■ Best initial test: Screen with a 1-hour 50-g glucose challenge test. ■ Venous plasma glucose is measured 1 hour later. ■ Performed at 24–28 weeks. ■ Values ≥ 140 mg/dL are considered abnormal. ■ Confirm with an oral 3-hour (100-g) glucose tolerance test (next test if ⊕screening test) showing any two of the following: ■ Fasting: > 95 mg/dL. ■ 1 hour: > 180 mg/dL. ■ 2 hours: > 155 mg/dL. ■ 3 hours: > 140 mg/dL. Treatment ■ Mother: ■ Best initial treatment: American Diabetes Association (ADA) diet, regular exercise, and strict glucose monitoring (four times per day). ■ Add insulin if dietary control is insufficient. Tight maternal glucose control (fasting ≤ 95 mg/dL; 1 hour postprandial ≤ 140 mg/dL; 2-hour postprandial ≤ 120 mg/dL) improves outcomes. ■ Give intrapartum insulin and dextrose to maintain tight control during delivery. ■ Fetus: ■ Obtain periodic ultrasonography and NSTs to assess fetal growth and well-being. ■ It is recommended to induce labor at 39–40 weeks in patients with gestational diabetes controlled on insulin or an oral hypoglycemic agent.

KEY FACT Keys to the management of gestational diabetes: (1) ADA diet; (2) insulin if needed; (3) ultrasonography for fetal growth; and (4) NST beginning at 34 weeks if requiring insulin or an oral hypoglycemic.

Complications More than 50% of patients go on to develop glucose intolerance and/or type 2 DM later in life. At 6–12 weeks postpartum, screen for DM (75 g 2-hour GTT) and repeat testing every 3 years if normal results. Pregestational Diabetes and Pregnancy

Observed in 1% of all pregnancies. Insulin requirements may ↑ as much as threefold. Poorly controlled DM is associated with an ↑ risk for congenital malformations, fetal loss, and maternal/fetal morbidity during labor and delivery.

KEY FACT Greater than 8, investigate! If HbA1c is >8%, look for congenital abnormalities.

Treatment ■ Mother: ■ Renal, ophthalmologic, neural tube, and cardiac evaluation to assess for end-organ damage. ■ Best initial treatment: Lifestyle modification with diet and exercise. Add insulin therapy if poor response. ■ Strict glucose control is important to minimize fetal defects. ■ Fasting morning: ≤ 95 mg/dL. ■ 1-hour postprandial: < 140 mg/dL. ■ 2-hour postprandial: < 120 mg/dL. ■ Overnight glucose: 60–99 mg/dL.

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Delivery and postpartum: ■ Maintain normoglycemia (80–100 mg/dL) during labor with an IV insulin drip and hourly glucose measurements. ■ Consider delivery in the setting of poor maternal glucose control, preeclampsia, macrosomia, or evidence of fetal lung maturity. ■ Consider C-section delivery in the setting of an estimated fetal weight (EFW) > 4500 g. ■ Encourage breastfeeding with an appropriate ↑ in caloric intake. ■ Fetus: ■ 16–24 weeks: ■ Quad screen for developmental anomalies (16–18 weeks). ■ Ultrasonography to determine fetal age and growth (18–20 weeks). ■ Fetal echo to evaluate for cardiac anomalies (22–24 weeks). ■ 32–34 weeks: ■ Close fetal surveillance (eg, NST, CST, BPP). (If poor glucose control or small vessel disease, start at 26 weeks). ■ Admit if maternal DM has been poorly controlled or fetal parameters are a concern. ■ Serial ultrasonograms for fetal growth. ■

KEY FACT If UA before 20 weeks reveals glycosuria, think pregestational diabetes.

KEY FACT Hyperglycemia in the first trimester suggests preexisting diabetes and should be managed as pregestational diabetes.

Complications See Table 2.11-14. GESTATIONAL AND CHRONIC HYPERTENSION

Defined as follows: Gestational hypertension: ■ Idiopathic hypertension (systolic BP > 140 mmHg or diastolic BP > 90 mmHg measured twice > 4 hours apart) without significant proteinuria (< 300 mg/L). ■ Develops at > 20 weeks GA. ■ As many as 25% of patients may go on to develop preeclampsia. ■ Must normalize within 12 weeks after pregnancy. ■ Chronic hypertension: ■ Presents before conception or at < 20 weeks GA. ■ If increased BP persists for > 12 weeks postpartum. ■ Up to one-third of patients may develop superimposed preeclampsia. ■

TA B L E 2.11 - 14. 

Complications of Pregestational Diabetes Mellitus

Maternal Complications DKA (type 1) or hyperglycemic hyperosmolar nonketotic coma (type 2)

Macrosomia or IUGR Cardiac and renal defects

Preeclampsia/eclampsia

Neural tube defects (eg, sacral agenesis)

Cephalopelvic disproportion (from macrosomia)

Hypocalcemia

and need for C-section

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Fetal Complications

Polycythemia

Preterm labor

Hyperbilirubinemia

Infection

Hypoglycemia from hyperinsulinemia

Polyhydramnios

RDS

Postpartum hemorrhage

Birth injury (eg, shoulder dystocia)

Maternal mortality

Perinatal mortality

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OBSTETRICS Treatment ■ Monitor BP closely. ■ Best initial treatment: Treat with appropriate antihypertensives (eg, methyldopa, labetalol, nifedipine). ■ If systolic BP > 160 mm Hg or diastolic BP > 110 mm Hg, this is a hypertensive crisis. Treat with labetalol or hydralazine or nifedipine because of short onset of action. ■ Do not give angiotensin-converting enzyme inhibitors (ACEIs) or diuretics. ■ ACEIs are known to lead to uterine ischemia. ■ Diuretics can aggravate low plasma volume to the point of uterine ischemia. Complications Similar to those of preeclampsia (see later).

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MNEMONIC Preeclampsia classic triad—

It’s not just HyPE Hypertension Proteinuria Edema

PREECLAMPSIA

New-onset hypertension (systolic BP ≥ 140 mm Hg or diastolic BP ≥ 90mm Hg) and proteinuria (> 300 mg of protein in a 24-hour period or elevated urine or protein/creatinine ratio of 0.3 or more) occurring at >20weeks GA. ■ Or new-onset hypertension with new onset of any of the following (with or without proteinuria): ■ Platelet count < 100,000/μL. ■ Serum creatinine > 1.1 mg/dL or doubling of creatinine concentration in the absence of other renal disease. ■ Liver transaminases at least twice the upper limit of normal. ■ Pulmonary edema. ■ Cerebral or visual symptoms. ■ HELLP syndrome: A variant of preeclampsia with a poor prognosis. ■ Consists of hemolytic anemia, elevated liver enzymes, and low platelets (see mnemonic). ■ The etiology is unknown, but clinical manifestations are explained by vasospasm leading to distention of hepatic capsule, hemorrhage, and organ necrosis. ■ Risk factors include nulliparity, African-American ethnicity, extremes of age (< 20 or > 35 years), multiple gestation, molar pregnancy, renal disease (caused by SLE or type 1 DM), a family history of preeclampsia, and chronic hypertension. ■

History/PE See Table 2.11-15 for the signs and symptoms of preeclampsia. Treatment ■ Delivery of the fetus is the only cure for preeclampsia. ■ Close to term or worsening preeclampsia: Induce delivery with IV oxytocin, prostaglandin, or amniotomy. ■ Deliver no later than 37 weeks. ■ Far from term (< 34 weeks): Treat with modified bed rest and expectant management. ■ Prevent intrapartum seizures with a continuous magnesium sulfate drip. ■ Watch for signs of magnesium toxicity (loss of DTRs, respiratory paralysis, coma). ■ Continue seizure prophylaxis for 24 hours postpartum. ■ Treat magnesium toxicity with IV calcium gluconate.

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MNEMONIC HELLP syndrome— Hemolysis Elevated LFTs Low Platelets

KEY FACT Signs of severe preeclampsia are persistent headache or other cerebral or visual disturbances, persistent epigastric pain, and hyperreactive reflexes.

A 36-year-old G1P0 woman with a history of SLE at 36 weeks GA presents with headache and RUQ pain. She is admitted and found to have a BP of 165/100 and 170/105 mm Hg when tested twice 6 hours apart, and 3+ protein on urine dipstick. Once her BP has been controlled with labetalol, what are the next steps in management?

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TA B L E 2.11 - 15. 

Presentation of Preeclampsia and Eclampsia

Disease Severity

Signs and Symptoms

Mild

Usually asymptomatic

preeclampsia

BP ≥ 140/90 mm Hg on two occasions > 4 hours apart Proteinuria (> 300 mg/24 hours or 1 to 2 ⊕ urine dipsticks) Edema

Severe

Any one of the following:

preeclampsia

BP > 160/110 mm Hg on two occasions > 4 hours apart Renal: proteinuria (> 5 g/24 hours or 3 to 4 ⊕ urine dipsticks) or oliguria

(< 500 mL/24 h) Cerebral changes: severe headache, somnolence

Visual changes: blurred vision, scotomata

Other: progressive renal insufficiency, pulmonary edema; RUQ pain,

hemolysis, elevated liver enzymes, thrombocytopenia (HELLP syndrome) Eclampsia

Most common signs preceding an eclamptic attack are headache, visual changes, and RUQ/epigastric pain Seizures are severe if not controlled with anticonvulsant therapy

Severe preeclampsia: ■ Control BP with labetalol and/or hydralazine (goal < 160/110 mm Hg with a diastolic BP of 90–100 mm Hg to maintain fetal blood flow). ■ Continuous magnesium sulfate drip. ■ Deliver by induction or C-section when the mother is stable.

Complications Prematurity, fetal distress, stillbirth, placental abruption, seizure, DIC, cerebral hemorrhage, serous retinal detachment, fetal/maternal death. ECLAMPSIA

New-onset grand mal seizures in women with preeclampsia. History/PE See Table 2.11-15 for the signs and symptoms of eclampsia.

The patient has severe preeclampsia. Start a magnesium sulfate drip for seizure prophylaxis and deliver by induction or C-section.

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Treatment ■ Delivery of the fetus is the only cure for eclampsia. ■ ABCs with supplemental O2. ■ Seizure control/prophylaxis with magnesium. ■ If seizures recur, give IV diazepam. ■ Monitor for clinical magnesium toxicity; no need to routinely monitor magnesium blood levels if renal function is normal. ■ Monitor fetal status. ■ Control BP (labetalol and/or hydralazine). ■ Limit fluids; Foley catheter for strict I/Os. ■ Initiate emergent delivery once the patient is stable and convulsions are controlled. ■ Postpartum management is the same as that for preeclampsia.

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OBSTETRICS

Seizures may occur antepartum (25%), intrapartum (50%), or postpartum (25%); most occur within 48 hours after delivery.

Complications Cerebral hemorrhage, aspiration pneumonia, hypoxic encephalopathy, thromboembolic events, fetal/maternal death. URINARY TRACT INFECTION AND PYELONEPHRITIS DURING PREGNANCY

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KEY FACT It may be necessary to adjust the doses of antiepileptic drugs in patients with seizure disorders, excluding preeclampsia and eclampsia, that worsen in pregnancy. The risks and benefits must be weighed in doing so.

Asymptomatic bacteriuria occurs in up to 7% of pregnant women, and 30–40% will subsequently develop a UTI or pyelonephritis if untreated. Persistent untreated bacteriuria places the patient at a higher risk for preterm labor, low birth weight, and perinatal mortality. Escherichia coli is responsible for 70–90% of infections. History/PE ■ Asymptomatic bacteriuria: ⊕ Urine culture on first-trimester screen (≥105 colonies). ■ UTI: Dysuria, urinary urgency and frequency. ■ Pyelonephritis: Same as UTI, + fever and costovertebral angle tenderness. Diagnosis Best initial test: Urinalysis and ⊕ urine culture. Treatment ■ Asymptomatic bacteriuria and UTI: 3–7 days nitrofurantoin (avoid in first trimester if possible), cephalexin, or amoxicillin-clavulanate. Followup culture at 1 week as test of cure. ■ Pyelonephritis: Admit to hospital, IV fluids, IV third-generation cephalosporins; Suppressive antibiotics with agent culture susceptible for remainder of pregnancy and follow-up culture. ANTEPARTUM HEMORRHAGE

Any bleeding that occurs after 20 weeks’ gestation. Complicates 3–5% of pregnancies. ■ Most common causes are placental abruption and placenta previa (see Table 2.11-16 and Figure 2.11-7). ■ Other causes include other forms of abnormal placentation (eg, placenta accreta), ruptured uterus, genital tract lesions, and trauma. ■ ■

KEY FACT With third-trimester bleeding, think anatomically: ■ Vagina: Bloody show, trauma. ■ Cervix: Cervical cancer, cervical/ vaginal lesion. ■ Placenta: Placental abruption, placenta previa. ■ Fetus: Fetal bleeding.

Obstetric Complications of Pregnancy ECTOPIC PREGNANCY

Most often tubal (95%), but can be abdominal, ovarian, or cervical. History/PE ■ Presents with unilateral lower abdominal pain and vaginal spotting/bleeding, although some patients are asymptomatic. ■ Associated with etiologies that cause scarring to the fallopian tubes, including a history of PID, pelvic surgery, DES use, or endometriosis. ■ Differential diagnosis includes surgical abdomen, abortion, ovarian torsion, PID, and ruptured ovarian cyst.

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TA B L E 2.11 - 16. 

Placental Abruption vs Placenta Previa vs Vasa Previa

Variable Pathophysiology

OBSTETRICS

Placental Abruption Premature (before delivery) separation of normally implanted placenta

Placenta Previa Abnormal placental implantation:

Vasa Previa Velamentous umbilical cord

Total: Placenta covers the cervical os

insertion and/or bilobed

Marginal: Placenta extends to the margin of

placenta causing vessels

■ ■

the os

to pass over the internal os

Low lying: Placenta is in close proximity to

the os Incidence

1 in 100

1 in 200

1 in 2500

Risk factors

Hypertension, abdominal/pelvic

Prior C-sections, grand multiparity, advanced

Multiple gestation, IVF,

Symptoms

trauma, tobacco or cocaine use,

maternal age, multiple gestation, prior pla-

accessory placental lobes,

previous abruption, rapid decom-

centa previa

single umbilical artery,

pression of an overdistended

placenta previa, low-lying

uterus, excessive stimulation

placenta

Painful, dark vaginal bleeding that does not spontaneously cease Abdominal pain; uterine hypertonicity

Diagnosis

Painless, bright red bleeding that often ceases in 1–2 hours with or without uterine

of membranes with fetal

contractions

bradycardia

Fetal distress

Usually no fetal distress

Primarily clinical

Transabdominal/transvaginal ultrasonography

Transabdominal/transvaginal ultrasonography sensitivity is only 50%;

Painless bleeding at rupture

Transvaginal ultrasonog-

sensitivity is > 95%; look for an abnormally

raphy with color Dopplers

positioned placenta

showing vessels passing over the internal os

look for a retroplacental clot Most useful for ruling out previa Management

Stabilize patients with mild abruption and a premature fetus; manage expectantly (hospitalize; start IV

Do not perform a vaginal exam! Stabilize patients with a premature fetus; manage expectantly

Acute bleeding = emergency C-section delivery Diagnosis before bleeding:

and fetal monitoring; type and

Give tocolytics

Steroids at 28–32 weeks

cross-match blood; bed rest)

Serial ultrasonograms to assess fetal growth;

to help with fetal lung

Moderate to severe abruption: Immediate delivery is indicated (vaginal delivery with amniotomy if mother and fetus are stable and delivery

resolution of partial previa Betamethasone 28–32 weeks to help with fetal lung maturity if may need early delivery Deliver by C-section. Indications for delivery

is expected soon; C-section for

include labor, life-threatening bleeding, fetal

maternal or fetal distress)

distress, documented fetal lung maturity,

maturity, hospitalization at 30–32weeks for close monitoring and scheduled C-section delivery at 35weeks

and 36 weeks GA Complications

Hemorrhagic shock

↑ Risk for placenta accreta

DIC occurs in 10% of patients

Vasa previa (fetal vessels crossing the internal os)

Recurrence risk is 5–16% and ↑ to

Preterm delivery, PROM, IUGR, congenital

25% after two previous abruptions Fetal hypoxia

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Fetal exsanguination

anomalies Recurrence risk is 4–8%

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OBSTETRICS

Normal placenta

FIGURE 2.11-7. 

nta

ce

Pla

10 cm cervix

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Low implantation

Partial placenta previa

Complete placenta previa

10 cm cervix

10 cm cervix

10 cm cervix

339

Placental implantation. (Reproduced with permission from USMLE-Rx.com.)

Diagnosis ■ Approach a woman of reproductive age presenting with abdominal pain as a ruptured ectopic pregnancy until proven otherwise. ■ Best initial test: Transvaginal ultrasonogram showing an empty uterus (see Figure 2.11-8). ■ Next best test: Serial serum β-hCG stratifies patients where transvaginal ultrasound is nondiagnostic: ■ >1500 IU/L → repeat β-hCG and ultrasound in 2 days. ■ 95th percentile. A common sequela of gestational diabetes. Dx: ■ Best initial test: Ultrasound to estimate fetal size. ■ Most accurate test: Weigh the newborn at birth (prenatal diagnosis is imprecise). ■ Tx: Planned C-section delivery may be considered for an EFW > 5000 g in women without diabetes and for an EFW > 4500 g in women with diabetes. ■ Complications: ↑ Risk for shoulder dystocia (leading to brachial plexus injury and Erb-Duchenne palsy) as birth weight ↑. ■

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POLYHYDRAMNIOS

An AFI ≥ 25 on ultrasonography. May be present in normal pregnancies, but fetal chromosomal developmental abnormalities must be considered. Etiologies: ■ Maternal DM. ■ Multiple gestation. ■ Isoimmunization. ■ Pulmonary abnormalities (eg, cystic lung malformations). ■ Fetal GI tract anomalies (eg, duodenal atresia, tracheoesophageal fistula, anencephaly). ■ Twin-twin transfusion syndrome. ■ Hx/PE: Usually asymptomatic. ■ Dx: Fundal height greater than expected. ■ Evaluation includes ultrasonography for fetal anomalies, glucose testing for DM, and Rh screen. ■ Tx: Planned C-section is etiology specific. ■ Complications: Preterm labor, fetal malpresentation, cord prolapse. ■

OLIGOHYDRAMNIOS

An AFI < 5 on ultrasonography. Usually asymptomatic, but IUGR or fetal distress may be present. Etiologies: ■ Fetal urinary tract abnormalities (eg, renal agenesis, GU obstruction). ■ Chronic uteroplacental insufficiency. ■ Postterm pregnancy (> 41 weeks). ■ ROM. ■ Dx: The sum of the deepest amniotic fluid pocket in all four abdominal quadrants on ultrasonography. ■ Tx: Rule out inaccurate gestational dates. Treat the underlying cause if possible. ■ Complications: ■ Associated with a 40-fold ↑ in perinatal mortality. ■ Other complications include musculoskeletal abnormalities (eg, clubfoot, facial distortion), pulmonary hypoplasia, umbilical cord compression, and IUGR. ■

RH ISOIMMUNIZATION

Fetal RBCs leak into the maternal circulation, and maternal anti-Rh IgG antibodies form that can cross the placenta, leading to hemolysis of fetal Rh RBCs (erythroblastosis fetalis; see Figure 2.11-9). Occurs only in Rh⊝women; ↑ risk with previous SAB or TAB or previous delivery with no RhoGAM given. Diagnosis Sensitized Rh⊝ mothers with titers > 1∶16 should be closely monitored with serial ultrasonograms and amniocentesis for evidence of fetal hemolysis. Treatment In severe cases, initiate preterm delivery when fetal lungs are mature. Before delivery, intrauterine blood transfusions can be given to correct a low fetal hematocrit.

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Agglutination of fetal Rh-positive red blood cells leads to HDN

Fetal Rh+ red blood cell in the maternal circulation

Maternal Rh-negative red blood cell

Anti-Rh antibodies

A

B

C

D

F I G U R E 2 . 1 1 - 9 .   (A) Rh ⊝ mother before pregnancy. (B) Rh ⊕ fetus in Rh ⊝ mother. (C) After delivery, the mother develops antibodies to Rh antigen. (D) Rh ⊕ fetus in the next pregnancy. Maternal antibodies, from Rh isoimmunization at the time of the previous delivery, cross the placenta and cause hemolysis of RBCs in the fetus. HDN, hemolytic disease of the newborn. (Reproduced with permission from USMLE-Rx.com.)

Prevention ■ If the mother is Rh⊝ and the father is Rh⊕ or unknown, give RhoGAM at 28 weeks (Rh immune globulin). ■ If the baby is Rh⊕, give the mother RhoGAM postpartum. The dose is based on the Kleihauer-Betke test. Inadequate dosing can lead to alloimmunization. ■ Give RhoGAM to Rh⊝ mothers who undergo abortion or who have had an ectopic pregnancy, amniocentesis, vaginal bleeding, or placenta previa/ placental abruption. Type and screen is critical; follow β-hCG closely, and prevent pregnancy for 1 year. Complications ■ Hydrops fetalis when fetal hemoglobin is < 7 g/dL. ■ Fetal hypoxia and acidosis, kernicterus, prematurity, death. GESTATIONAL TROPHOBLASTIC DISEASE

A range of proliferative trophoblastic abnormalities that can be benign or malignant. Benign GTD: Includes complete and incomplete molar pregnancies (see Table 2.11-17). ■ Malignant GTD: Molar pregnancy may progress to malignant GTD, including the following: ■ Invasive hydatidiform moles (10–15%). ■ Choriocarcinoma (2–5%). ■ Complications of malignant GTD include pulmonary or CNS metastases and trophoblastic pulmonary emboli. ■

History/PE ■ Presents with first-trimester uterine bleeding, hyperemesis gravidarum, preeclampsia/eclampsia at < 24 weeks, and uterine size greater than dates. ■ Risk factors include extremes of age (< 20 or > 40 years) and a diet deficient in folate or β-carotene. Diagnosis ■ Best initial test: Pelvic exam may reveal enlarged ovaries (bilateral thecalutein cysts) or expulsion of grapelike molar clusters into the vagina. ■ Next best/most accurate test: Pelvic ultrasonography reveals a “snowstorm” appearance with no gestational sac or fetus present (see Figure 2.11-10). ■ Labs show markedly ↑ serum β-hCG (usually > 100,000 mIU/mL).

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OBSTETRICS

TA B L E 2.11 - 17. 

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Complete vs Incomplete Moles

Variable

Complete

Incomplete

Mechanism

Sperm fertilization of an empty ovum

Normal ovum fertilized by two sperm

Karyotype

46,XX

69,XXY

Fetal tissue

No fetal tissue

Contains fetal tissue

Chest x-ray (CXR) may show lung metastases. D&C reveals “cluster-of-grapes” tissue.

■ ■

Treatment ■ Best initial treatment: Evacuate the uterus with D&C. ■ Follow with weekly β-hCG. ■ Treat malignant disease with chemotherapy (methotrexate or dactinomycin). ■ Treat residual uterine disease with hysterectomy. ■ Chemotherapy and irradiation are highly effective for metastases. MULTIPLE GESTATION

Affect 3% of all live births. Since 1980, the incidence of monozygotic (identical) twins has remained steady, whereas the incidence of dizygotic (fraternal) and higher order births has ↑. History/PE Characterized by rapid uterine growth, excessive maternal weight gain, and palpation of three or more large fetal parts on Leopold maneuvers. Diagnosis ■ Ultrasonography. ■ β-hCG, human placental lactogen, and MSAFP are elevated for GA. Treatment ■ Multifetal reduction and selective fetal termination is an option for higher-order multiple pregnancies.

F I G U R E 2 . 1 1 - 1 0 .   Molar pregnancy. Transvaginal ultrasonogram shows a large, complex intrauterine mass with cystic regions that have the characteristic appearance of grapes. (Reproduced with permission from Tintinalli JE, et al. Tintinalli’s Emergency Medicine: A Comprehensive Study Guide, 6th ed. New York, NY: McGraw-Hill; 2004.)

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Antepartum fetal surveillance for IUGR. Management by a high-risk specialist is recommended.

■ ■

Complications ■ Maternal: Patients are six times more likely to be hospitalized with complications of pregnancy. ↑ Incidence of placenta previa and need for C-section delivery. ■ Fetal: Twin-to-twin transfusion syndrome, IUGR, preterm labor, and ↑ incidence of congenital malformations.

Abnormal Labor and Delivery SHOULDER DYSTOCIA

Affects 0.6%–1.4% of all deliveries in the United States. Risk factors include obesity, diabetes, a history of a macrosomic infant, and a history of prior shoulder dystocia. Diagnosis Diagnosed by a prolonged second stage of labor, recoil of the perineum (“turtle sign”), and lack of spontaneous restitution. Treatment ■ In the event of dystocia, the following maneuvers may be attempted: ■ McRoberts maneuver; see Figure 2.11-11. ■ Apply suprapubic pressure.

F I G U R E 2 . 1 1 - 1 1 .   Leg elevation (McRoberts maneuver). Flexing the hips against the abdomen. The leg positioning illustrated here can be used to assist in a delivery where the infant is at risk for shoulder dystocia. (Reproduced with permission from Cunningham FG, et al. Williams Obstetrics, 23rd ed. New York, NY: McGraw-Hill; 2010.)

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Woods screw maneuver (Enter the vagina and attempt rotation.) Passing fetal arm. ■ Episiotomy. ■ ■

Clavicular fractures may result in C8-T1 brachial plexus injury that may cause Horner syndrome, Erb-Duchenne palsy, or Klumpke palsy. These brachial plexus injuries usually resolve spontaneously. FAILURE TO PROGRESS

Associated with chorioamnionitis, occiput posterior position, nulliparity, and elevated birth weight. Diagnosis ■ First-stage protraction or arrest: Labor that fails to produce adequate rates of progressive cervical change. ■ Prolonged second-stage arrest: Arrest of fetal descent. Most commonly caused by fetal malposition. See Table 2.11-18 for definitions based on parity and anesthesia. Treatment See Table 2.11-18. Complications ■ Chorioamnionitis leads to fetal infection, pneumonia, and bacteremia. ■ Permanent injury occurs in 10%. ■ The risk for postpartum hemorrhage is 11%; that of fourth-degree laceration is 3.8%. TA B L E 2.11 - 18. 

Stage

Failure to Progress

Definition

Treatmenta

First Stage: Failure to Have Progressive Cervical Change Latent

Active

Primi: > 20 h

Therapeutic rest via parenteral analgesia;

Multi: > 14 h

oxytocin; amniotomy; cervical ripening

Dilation of at least 6 cm and either:

Amniotomy; oxytocin; C-section if the pre-

No change in dilation with 4 h of

vious interventions are ineffective

adequate contractions or No change in dilation with 6 h of

inadequate contractions

Second Stage: Arrest of Fetal Descent Primi: > 2 h; > 3 h with epidural

Multi: > 1 h; > 2 h with epidural

Close observation with a ↓ in epidural rate and continued oxytocin Assisted vaginal delivery (forceps or vacuum) C-section

Augmentation with oxytocin should be considered when contraction frequency is < 3 in a 10-minute period or intensity of contraction is < 25 mm Hg above baseline. a

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RUPTURE OF MEMBRANES

Distinguished as follows: Spontaneous ROM: Occurs after or at the onset of labor. Premature ROM: Occurs > 1 hour before onset of labor. May be precipitated by vaginal or cervical infections, abnormal membrane physiology, or cervical incompetence. ■ Preterm PROM (PPROM): ROM occurring at < 37 weeks’ gestation. ■ Prolonged ROM: ROM occurring > 18 hours before delivery. Risk factors include low socioeconomic status, young maternal age, smoking, and STDs. ■ ■

History/PE Patients often report a “gush” of clear or blood-tinged amniotic fluid. Uterine contractions may be present.

KEY FACT To minimize the risk for infection, do not perform digital vaginal exams on women with PROM.

Diagnosis ■ Sterile speculum exam reveals pooling of amniotic fluid in the vaginal vault. ■ Nitrazine paper test is ⊕ (paper turns blue, indicating alkaline pH of amniotic fluid). ■ Fern test is ⊕ (a ferning pattern is seen under a microscope after amniotic fluid dries on a glass slide). ■ Ultrasonography to assess amniotic fluid volume. ■ If diagnosis is uncertain, ultrasonography-guided transabdominal instillation of indigo carmine dye can be used to check for leakage (unequivocal test). ■ Minimize infection risk; do not perform digital vaginal exams on women who are not in labor or for whom labor is not planned immediately. ■ Check fetal heart tracing, maternal temperature, WBC count, and uterine tenderness for evidence of chorioamnionitis. Treatment ■ Depends on GA and fetal lung maturity: ■ Term: First check GBS status and fetal presentation; then labor may be induced or the patient can be observed for 6 hours. ■ 34–36 weeks GA: Labor induction may be considered. ■ < 32 weeks GA: Expectant management with bed rest and pelvic rest. ■ Antibiotics: To prevent infection and to prolong the latency period in the absence of infection. ■ Antenatal corticosteroids: ■ Give betamethasone or dexamethasone for 48 hours. ■ Promotes fetal lung maturity in the absence of intra-amniotic infection before 32–36 weeks GA. ■ If signs of infection or fetal distress develop, give antibiotics (ampicillin and gentamicin) and induce labor. Complications Preterm labor and delivery, chorioamnionitis, placental abruption, cord prolapse. PRETERM LABOR

Onset of labor between 20 and 37 weeks’ gestation. The 1° cause of neonatal morbidity and mortality. ■

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Risk factors include previous preterm delivery (highest risk factor), multiple gestation, infection, PROM, uterine anomalies (eg, prior surgery),

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OBSTETRICS

polyhydramnios, placental abruption, poor maternal nutrition, and lowSES. ■ Patients found to have a short cervix at < 24 weeks’ gestation are at high risk for preterm labor. Progesterone administration ↓ risk in these patients. ■ Most patients have no identifiable risk factors.

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KEY FACT Preterm labor = regular uterine contractions + concurrent cervical change at < 37 weeks’ gestation.

History/PE Presents with menstrual-like cramps, onset of low back pain, pelvic pressure, and new vaginal discharge or bleeding. Diagnosis ■ Requires the following: ■ Regular uterine contractions (three or more contractions of 30 seconds each over a 30-minute period). ■ Concurrent cervical change at < 37 weeks’ gestation. ■ Assess for contraindications to tocolysis such as infection, nonreassuring fetal testing, or placental abruption. ■ Sterile speculum exam to rule out PROM. ■ Ultrasonography to rule out fetal or uterine anomalies, verify GA, and assess fetal presentation and amniotic fluid volume. ■ Obtain cultures for chlamydia, gonorrhea, and GBS; obtain a UA and urine culture. Treatment ■ Hydration and bed rest. ■ Tocolytic therapy (β-mimetics, MgSO4, CCBs, prostaglandin inhibitors) if < 34 weeks’ gestation, unless contraindicated. ■ Magnesium for cerebral palsy prophylaxis if < 32 weeks’ gestation. ■ Steroids to accelerate fetal lung maturity. ■ Penicillin or ampicillin for GBS prophylaxis if preterm delivery is likely. Complications RDS, intraventricular hemorrhage, PDA, necrotizing enterocolitis, retinopathy of prematurity, bronchopulmonary dysplasia, death. FETAL MALPRESENTATION

Any presentation other than vertex (ie, head closest to birth canal, chin to chest, occiput anterior). Risk factors include prematurity, prior breech delivery, uterine anomalies, polyhydramnios or oligohydramnios, multiple gestation, PPROM, hydrocephalus, anencephaly, and placenta previa. History/PE ■ Breech presentations are the most common form and involve presentation of the fetal lower extremities or buttocks into the maternal pelvis (see Figure 2.11-12). Subtypes include the following: ■ Frank breech (50–75%): The thighs are flexed, and the knees are extended. ■ Footling breech (20%): One or both legs are extended below the buttocks. ■ Complete breech (5–10%): The thighs and knees are flexed.

KEY FACT Breech presentation is the most common fetal malpresentation.

Treatment ■ Follow: Up to 75% spontaneously change to vertex by week 38. ■ External cephalic version: If the fetus has not reverted spontaneously, a version may be attempted by applying directed pressure to the maternal

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OBSTETRICS

Single footling breech

Frank breech

Complete breech F I G U R E 2 . 1 1 - 1 2 .   Types of breech presentations. (Reproduced with permission from DeCherney AH. Current Obstetric & Gynecologic Diagnosis & Treatment, 8th ed. Stamford, CT: Appleton & Lange; 1994.)

abdomen to turn the infant to vertex. The success rate is roughly 50%. Risks of version are placental abruption and cord compression, so be prepared for an emergency C-section if needed. ■ Trial of breech vaginal delivery: Attempt only if delivery is imminent. Complications include cord prolapse and/or head entrapment. ■ Elective C-section: Recommended given the lower risk for fetal morbidity. INDICATIONS FOR C-SECTION

See Table 2.11-19 for indications. For both elective and indicated C-section delivery, sodium citrate should be used in the mother to ↓ gastric acidity and prevent acid aspiration syndrome. TA B L E 2.11 - 19. 

Indications for C-section

Maternal Factors

Fetal and Maternal Factors

Fetal Factors

Prior classical C-section (vertical incision predis-

Cephalopelvic disproportion (the most

Fetal malposition (eg, posterior chin, transverse

poses to uterine rupture with vaginal delivery)

common cause of 1° C-section)

lie, shoulder presentation)

Active genital herpes infection

Placenta previa/placental abruption

Fetal distress

Cervical carcinoma

Failed operative vaginal delivery

Cord compression/prolapse

Maternal trauma/demise

Postterm pregnancy (relative

Erythroblastosis fetalis (Rh incompatibility)

HIV infection

indication)

Prior transverse C-section (relative indication)

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OBSTETRICS

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EPISIOTOMY

Surgical extension of the vaginal opening into the perineum. Can be median (midline) or mediolateral. Complications ■ Extension to the anal sphincter (third degree) or rectum (fourth degree): More common with midline episiotomy. ■ Other: Bleeding, infection, dyspareunia, rectovaginal fistula formation, or maternal death (rare). ■ Routine use of episiotomy is not recommended.

Puerperium Normal changes after delivery include transient fevers and chills, lochia (vaginal discharge), uterine contraction, and uterine involution. Postpartum urinary retention is also common and caused by bladder atony. This can be managed with catheterization and encouragement of ambulation, and usually resolves spontaneously. Radiating suprapubic pain exacerbated by weight bearing may occur because of diastasis of the pubic symphysis. This is more common following a traumatic delivery, and treatment is with supportive care. POSTPARTUM HEMORRHAGE

A loss of > 1000 mL irrespective of the type of delivery. May occur before, during, or after delivery of the placenta. Table 2.11-20 summarizes common causes. TA B L E 2.11 - 20. 

Common Causes of Postpartum Hemorrhage

Variable Risk factors

Uterine Atony Uterine overdistention (multiple gestation, macrosomia, polyhydramnios) Exhausted myometrium (rapid or prolonged labor, oxytocin stimulation) Uterine infection

Genital Tract Trauma

Retained Placental Tissue

Precipitous labor

Placenta accreta/increta/percreta

Operative vaginal delivery

Placenta previa

(forceps, vacuum extraction)

Uterine leiomyomas

Large infant

Preterm delivery

Inadequate episiotomy repair

Previous C-section/curettage

Manual and visual inspection

Manual and visual inspection of

Conditions interfering with contractions (anesthesia, myomas, MgSO4) Diagnosis

Palpation of a soft, enlarged, “boggy” uterus Most common cause of postpartum hemorrhage (90%)

of the lower genital tract for any laceration > 2 cm long

the placenta and uterine cavity for missing cotyledons Ultrasound may also be used to inspect the uterus

Treatmenta

Bimanual uterine massage (usually successful) Oxytocin infusion Methergine (methylergonovine) if not hypertensive PGF2α

Surgical correction of the physical defect

Manual removal of remaining placental tissue Curettage with suctioning (carries risk for uterine perforation)

For all uterine causes, when bleeding persists after conventional therapy, uterine/internal iliac artery ligation, uterine artery embolization, or hysterectomy can be lifesaving. a

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OBSTETRICS Complications ■ Acute blood loss (potentially fatal). ■ Anemia caused by chronic blood loss (predisposes to puerperal infection). ■ Sheehan syndrome. Uterine Inversion

KEY FACT Postpartum endometritis: ■ Fever > 38°C within 36 hours. ■ Uterine tenderness. ■ Malodorous lochi.

An uncommon cause of postpartum hemorrhage. This occurs when the uterine fundus prolapses through the cervix and vagina and can often be visible as a smooth mass protruding from the vagina. Treatment involves manually replacing the uterus and monitoring hemodynamic status. Uterine Rupture

Very rare but life-threatening complication that may occur in women with a history of multiple uterine surgeries. Loss of fetal station is pathognomonic for this condition, and fetal parts may be palpable in the abdomen but not in the vagina. Treatment involves emergent laparotomy. POSTPARTUM INFECTION

A temperature ≥ 38°C for at least 2 of the first 10 postpartum days (not including the first 24 hours). Risk factors for postpartum endometritis include emergent C-section, PROM, prolonged labor, multiple intrapartum vaginal exams, intrauterine manipulations, delivery, low SES, young age, prolonged ruptured membranes, bacterial colonization, and corticosteroid use. Treatment Broad-spectrum empiric IV antibiotics (eg, clindamycin and gentamicin) until patients have been afebrile for 48 hours (24 hours for chorioamnionitis). Add ampicillin for complicated cases. MNEMONIC The 7 W’s of postpartum fever (10 days postdelivery)— Womb (endomyometritis) Wind (atelectasis, pneumonia) Water (UTI) Walk (DVT, pulmonary embolism) Wound (incision, episiotomy) Weaning (breast engorgement, abscess, mastitis) Wonder drugs (drug fever)

Complications ■ Septic pelvic thrombophlebitis: ■ Pelvic infection leads to infection of the vein wall and intimal damage, leading in turn to thrombogenesis. The clot is then invaded by microorganisms. ■ Suppuration follows, with liquefaction, fragmentation, and, finally, septic embolization. ■ Presents with abdominal and back pain and a “picket-fence” fever curve (“hectic” fevers) with wide swings from normal to as high as 41°C (105.8°F) that is unresponsive to antibiotics. ■ Diagnose with blood cultures and CT looking for a pelvic abscess. ■ Treat with broad-spectrum antibiotics and anticoagulation with heparin for 7–10 days. SHEEHAN SYNDROME (POSTPARTUM PITUITARY NECROSIS)

Pituitary ischemia and necrosis that lead to anterior pituitary insufficiency 2° to massive obstetric hemorrhage and shock. Hx/PE: ■ The 1° cause of anterior pituitary insufficiency in adult females. ■ The most common presenting syndrome is failure to lactate (caused by ↓ prolactin levels).

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Other symptoms include weakness, lethargy, cold intolerance, genital atrophy, and menstrual disorders. ■ Dx: ■ Best initial test: Provocative hormonal testing. ■ Most accurate test: MRI of the pituitary gland and hypothalamus to rule out tumor or other pathology. ■ Tx: Replacement of all deficient hormones. Some patients may recover TSH and even gonadotropin function after cortisol replacement alone. ■

LACTATION AND BREASTFEEDING

During pregnancy, ↑ estrogen and progesterone result in breast hypertrophy and inhibition of the action of prolactin on the breast. ■ After delivery of the placenta, hormone levels ↓ markedly, and prolactin stimulates the alveolar epithelial cells, activating milk production. ↑Prolactin will ↓ LH and FSH, causing anovulation and amenorrhea during breastfeeding. ■ Periodic infant suckling leads to further release of prolactin and oxytocin, which stimulate myoepithelial cell contraction and milk ejection (“letdown reflex”). ■ Colostrum (“early breast milk”) contains protein, fat, secretory IgA, and minerals. ■ Within 1 week postpartum, mature milk with protein, fat, lactose, and water is produced. ■ High IgA levels in colostrum provide passive immunity for the infant and protect against enteric bacteria. ■ Other potential benefits include the following: ■ ↓ Incidence of infant allergies. ■ ↓ Incidence of early URIs and GI infections. ■ Facilitation of mother-child bonding. ■ Maternal weight loss. ■ Contraindications to breastfeeding include HIV infection, active drug use (including marijuana), and use of certain medications (eg, tetracycline, chloramphenicol). ■ Women who desire to suppress lactation should wear a supportive bra, avoid nipple stimulation, apply ice packs to the breasts, and use NSAIDs to reduce pain. Breast binding should be avoided as it ↑ risk for mastitis. ■

MASTITIS

Cellulitis of the periglandular tissue caused by nipple trauma from breastfeeding coupled with the introduction of bacteria, usually Staphylococcus aureus, from the infant’s pharynx into the nipple ducts. History/PE ■ Symptoms often begin 2–4 weeks postpartum, are usually unilateral, and include the following: ■ Breast tenderness. ■ Erythema, edema, warmth, and possible purulent nipple drainage. ■ Significant fever, chills, and malaise can also be seen. Diagnosis ■ Differentiate from simple breast swelling. ■ Infection is suggested by focal symptoms, an ↑ WBC count, and fever.

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OBSTETRICS Treatment ■ Continued breastfeeding to prevent the accumulation of infected material (or use of a breast pump in patients who are no longer breastfeeding). ■ PO antibiotics (dicloxacillin, cephalexin, amoxicillin/clavulanate, azithromycin, clindamycin). ■ If no clinical improvement within 48–72 hours, evaluate with breast ultrasonography to assess for abscess. If present, treat with incision and drainage.

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H I G H - YI E L D FAC TS I N

GYNECOLOGY Menarche and Normal Female Development

354

Normal Menstrual Cycle

354

Gynecologic Neoplasms

373

Uterine Leiomyoma (fibroids)

373

Endometrial Cancer

374

Menopause 355

Cervical Cancer

374

Contraception 356

Vulvar Cancer

378

Abnormalities of the Menstrual Cycle

Vaginal Cancer

378

Ovarian Cancer

379

356

1° Amenorrhea/delayed Puberty

356

2° Amenorrhea

361

Pelvic Organ Prolapse

381

Urinary Incontinence

382

Pediatric Gynecology

383

1° Dysmenorrhea

361

2° Dysmenorrhea

362

Abnormal Uterine Bleeding

363

Reproductive Endocrinology

365

Congenital Adrenal Hyperplasia

365

Polycystic Ovarian Syndrome

367

Infertility

368

Pediatric Vaginal Discharge

383

Precocious Puberty

383

Benign Breast Disorders

384

Nonproliferative Breast Lesions

384

Proliferative Breast Lesions Without Atypia

386

368

Fibroadenoma

386

Cyst and Abscess of the Bartholin Duct

368

Phyllodes Tumor

386

Vaginitis

369

Atypical Hyperplasia

386

Cervicitis

370

Pelvic Inflammatory Disease

370

Toxic Shock Syndrome

372

Gynecologic Infections

Breast Cancer

387

Sexual Assault

389

353

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GYNECOLOGY

KEY FACT Normal male development is later in onset with a different order: testicular enlargement (onset 9–14 years) → penile growth → pubarche → facial hair

Menarche and Normal Female Development In order: Thelarche (breast development, onset 8–13 years) → pubarche (pubic hair growth) → growth acceleration → menarche (onset 10–16 years). ■ Ages for these stages of development vary by race/ethnicity.

Figure 2.12-1 graphically illustrates the stages of normal female development.

Normal Menstrual Cycle The progression of a normal menstrual cycle is detailed below and illustrated in Figure 2.12-2. Menstruation and follicular phase (days 0–13): ■ Starts with menstruation and ends at luteinizing hormone (LH) surge/ ovulation. ■ May vary, but typically lasts ∼ 13 days. ■ ↑ Frequency of GnRH pulse → ↑ follicle-stimulating hormone (FSH) → growth of follicles → ↑ estrogen production. ■ Results in the development of straight glands and thin secretions of the uterine lining (proliferative phase). ■ By late follicular phase: Dominant follicle is selected and ↑ in size, uterine endometrium thickens, and cervical mucus becomes stringy. KEY FACT

Ovulation (day 14): Estradiol reaches a peak → positive feedback to the pituitary gland → LH surge (smaller FSH rise) → rupture of the ovarian follicle and release of a mature ovum → travels to oviduct/uterus. ■ Ruptured follicular cells differentiate into the corpus luteum. ■

“LH surge” triggers ovulation and initiates production of progesterone.

Luteal phase (days 15–28): Length of time (10–14 days) that the corpus luteum can survive without further LH or hCG stimulation. ■ Change from estrogen to progesterone predominance: Corpus luteum produces progesterone and some estradiol, allowing the endometrial lining to develop thick and tortuous endometrial glands with thick secretions (secretory phase). ■ In the absence of fertilization and implantation, ↓ LH → ↓ progesterone and estradiol by the corpus luteum → results in sloughing of the endometrial lining. ■ With ↓ estrogen and progesterone, there is no longer negative feedback to FSH, which then increases and restarts menstruation/follicular phase. ■

Stage I

Stage II

Stage III

Stage IV

Stage V

No sexual hair Flat-appearing chest with raised nipple

Pubic hair appears (pubarche) Breast bud forms (thelarche)

Coarsening of pubic hair Breast enlarges, mound forms

Coarse hair across pubis, sparing thigh Breast enlarges, raised areola, mound on mound

Coarse hair across pubis and medial thigh Adult breast contour, areola flattens

Pre-pubertal FIGURE 2.12-1. 

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~ 10–11.5 years

~ 11.5–13 years

~ 13–15 years

Usually > 15 years

Normal female development. (Reproduced with permission from USMLE-Rx.com.)

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Ovulation

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355

Regressing corpus luteum

Corpus luteum

Maturing graafian follicle

Menstruation

Endometrium

Proliferative phase (follicular)

Blood hormone levels

Secretory phase (luteal)

Ovulation

Progesterone

LH

FSH

Estrogen

7

14

21

28

Days FIGURE 2.12-2. 

Normal menstrual cycle. (Reproduced with permission from USMLE-Rx.com.)

Menopause Cessation of menses for a minimum of 12 months as a result of follicular depletion. History/PE ■ The average age of onset is 51 years. ■ Symptoms include hot flashes, pruritus and vaginal dryness caused by vaginal atrophy, insomnia, anxiety/irritability, poor concentration, mood changes, dyspareunia, and loss of libido. ■ “Premature menopause” (also known as premature ovarian failure) is cessation of menses before 40 years of age. Diagnosis ■ A clinical diagnosis. The following studies are not routine but may be helpful: ■ Labs: ↑ FSH; then ↑ LH. ■ Serum TSH should be measured because of overlap of symptoms and common age of presentation of hypothyroidism and menopause. Treatment ■ Best initial treatment: Hormone replacement therapy ([HRT], combination estrogen and progestin): ■ If moderate to severe vasomotor symptoms → lowest dose for short duration to manage symptoms. ■ May ↑ the incidence of breast cancer with long-term use at high doses.

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GYNECOLOGY May ↑ cardiovascular morbidity and mortality with long-term use at high doses. ■ Contraindications: Vaginal bleeding, breast cancer (known or suspected), untreated endometrial cancer, history of thromboembolism, chronic liver disease, and hypertriglyceridemia. ■ Non-HRT: SSRI/SNRIs, clonidine, and/or gabapentin to ↓ the frequency of hot flashes. ■ Topical estrogen preparation: For vaginal atrophy. Does NOT have the same contraindications as systemic HRT. ■ Calcium supplements ± bisphosphonates: For osteoporosis. DEXA scan is used to measure bone mineral density (BMD). Supplemental treatment includes daily calcium/vitamin D and weight-bearing exercise. ■

KEY FACT Postmenopausal women should be routinely screened for osteoporosis starting at 65 years of age, earlier if additional risk factors.

Contraception KEY FACT Multiple sexual partners and nulliparity are not absolute contraindications to IUD use.

KEY FACT Combined hormonal methods of contraception protect against endometrial and ovarian cancer.

Eighty-five percent of sexually active women with no contraception will become pregnant within 1 year. Table 2.12-1 describes the effectiveness of contraceptive methods along with their relative advantages and disadvantages. See Table 2.12-2 for contraindications to common methods of contraception. Emergency contraception (EC) methods prevent pregnancy after unprotected sex or contraceptive failure. Table 2.12-3 describes the various methods ofEC.

Abnormalities of the Menstrual Cycle 1° A M E N O R R H E A / D E L A Y E D P U B E R T Y

The absence of menses by 15 years of age with 2° sexual development present, or the absence of 2° sexual characteristics by 13 years of age. History/PE ■ Absence of 2° sexual characteristics (no estrogen production). ■ 1° Ovarian insufficiency: Most common cause (∼ 50%). Depletion of ovarian follicles and oocytes most commonly from Turner syndrome (45, XO). Also consider history of radiation therapy and chemotherapy or gonadal dysgenesis. ■ Central hypogonadism: Can be caused by a variety of factors, including the following: ■ Undernourishment, stress, hyperprolactinemia, or exercise. ■ CNS tumor (consider prolactin-secreting pituitary adenoma if galactorrhea) or cranial irradiation. ■ Kallmann syndrome (isolated gonadotropin deficiency) associated with anosmia. ■ Constitutional growth delay. ■ Presence of 2° sexual characteristics (estrogen production but other anatomic or genetic problems): Etiologies include the following: ■ Müllerian agenesis: Absence of upper two-thirds of the vagina; uterine abnormalities. ■ Imperforate hymen: Presents with hematocolpos (blood in the vagina) that cannot escape, along with a bulging hymen. ■ Complete androgen insensitivity: Patients present with breast development (aromatization of testosterone to estrogen) but are amenorrheic and lack pubic hair.

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GYNECOLOGY

TA B L E 2.12 - 1. 

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357

Contraceptive Methods

Method

Mechanism

Advantages

Disadvantages

Most Effective: > 99% Implant (progestin-only implant)

Inhibits ovulation; ↑ cervical mucus viscosity

Effective for up to 3 years Immediate fertility once removed

Irregular periods, scarring at site of insertion (upper arm)

Safe with breastfeeding Lighter periods Intrauterine device (IUD) with progestin

Copper T IUD

Effective for up to 5 years

Spotting (up to 6 months), acne

cervical mucus thick-

Immediate fertility once removed

Risk for uterine perforation (1/1000)

ening and endometrial

Safe with breastfeeding

↑ Risk for ectopic pregnancy (rare)

decidualization

Lighter periods; less cramping

Progesterone leads to

Effective for up to 10 years

↑ Cramping and heavier bleeding (5–10%)

inflammation; copper has

Immediate fertility once removed

Risk for uterine perforation (1/1000)

a spermicidal effect

No hormonal exposure

↑ Risk for ectopic pregnancy (rare)

Foreign body results in

Safe with breastfeeding Permanently effective; safe with

Surgical sterilization

breastfeeding

(vasectomy, tubal

Tubal ligation: Irreversible; ↑ risk for ectopic pregnancy (rare) Vasectomy: Most failures are a result of not waiting for 2 ⊝ semen samples

ligation)

Very Effective: 90–99% Medroxyprogesterone

IM injection (progestin)

Lighter or no periods

Irregular bleeding, weight gain

Suppresses ovulation

Each shot works for 3 months

Decreases in BMD (reversible) Delayed fertility after discontinuation (up to

and decidualizes

10 months)

endometrium Transdermal patch (“the patch”)

Combined weekly estrogen and progestin dermal patch

Vaginal ring

estrogen and progestin)

menses Weekly administration

Thromboembolism risk (especially in smokers > 35 years of age, patients with chronic HTN)

Combined low-dose pro-

Can make periods more regular

May ↑ vaginal discharge

gestin and estrogen

Can be placed intravaginally for

Spotting (first 1–2 months)

vaginal ring

OCPs (combination

Predictable, lighter, less painful

Inhibit FSH/LH, suppressing ovulation; thicken cervical mucus; decidualize endometrium

3 weeks; remove for 1 week

Thromboembolism risk (especially in

(menses will occur during this

smokers > 35 years of age, patients with

time) Safe to use continuously

chronic HTN)

↓ Risk for ovarian and endometrial cancersa Predictable, lighter, less painful menses Can improve acne Varied fertility upon cessation

Requires daily compliance Breakthrough bleeding (10–30%) Thromboembolism risk (especially in smokers > 35 years of age) Cannot be used in patients of any age who have migraines with aura Hypertension GERD (progesterone relaxes the lower esophageal sphincter)

Progestin-only “minipills”

Thicken cervical mucus

Safe with breastfeeding

Requires strict compliance with daily timing (continues)

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TA B L E 2.12 - 1. 

GYNECOLOGY

Contraceptive Methods (continued)

Method

Mechanism

Advantages

Disadvantages

Moderately Effective: 75–90% Male condoms

A latex sheath covers the

The only method that effectively

penis

protects against pregnancy and

Possible allergy to latex or spermicides

STDs, including HIV Diaphragm with

A barrier is inserted over

spermicide

the cervix to prevent entry

Some protection against STDs

Must be fitted by the provider

Some protection against STDs

Can be difficult to use

No side effects

Requires the partner’s participation

of sperm Female condom

A barrier sheath is inserted into the vagina

Fertility awareness

Sexual intercourse is

methods (natural family

avoided on days in the

planning)

menstrual cycle on which

No STD/HIV protection

conception is likely (near the time of ovulation)

Less Effective: 68–74% Withdrawal

The penis is removed before

No side effects

No STD/HIV protection

ejaculation Spermicide

Not recommended as a 1° method

A substance that inhibits

May be used as a 2° method

Not recommended as a 1° method

sperm motility Other combined hormonal methods (eg, patch, ring) may also protect against endometrial and ovarian cancer; however, data are still lacking given their relatively recent introduction. a

TA B L E 2.12 - 2. 

Contraindications to Common Methods of Contraception

Estrogen-Containing Hormonal Methodsa

IUDs (Progesterone and Copper)

Pregnancy

Severe uterine structural abnormality (bicor-

History of stroke, hypertension, deep

nuate, septate)

venous thrombosis/pulmonary

Known or suspected pregnancy

embolism

Active gynecologic infection (within 3 months)

Breast cancer

Unexplained vaginal/uterine bleeding

Undiagnosed abnormal vaginal bleeding

Suspected gynecologic malignancy

Estrogen-dependent cancer

Copper T alone:

Benign or malignant liver neoplasm

Abnormal liver function

Current tobacco use and > 35 years of age

Progestin IUD alone:

Migraine with aura

Copper intolerance (allergy, Wilson disease) Severe dysmenorrhea and/or menorrhagia Levonorgestrel allergy Breast cancer

Acute liver disease or liver tumor

Includes OCPs, vaginal ring, and transdermal patch.

a

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TA B L E 2.12 - 3. 

HIGH-YIELD FACTS IN

359

Emergency Contraceptive Methods

Method

Advantages

Disadvantages

“Morning-after pill”a

Does not disrupt embryo postimplantation

Expensive

(progesterone agonist/

Safe for all women

Not over the counter

antagonist)

VERY effective

Oral contraceptive taper

Useful for women who have OCPs at home

Nausea, vomiting, fatigue, headache, dizziness, breast tenderness Not over the counter

Progestin only (80% effective)

Same as above Fewer nausea/vomiting side effects

Copper T IUD (99% effective)b

The most effective emergency contraceptive method

High initial cost of insertion

Can be used as emergency contraceptive and con-

Must be inserted by the provider

tinued for up to 10 years of contraception

No protection against STDs Must test for pregnancy and STDs before insertion

Used within 120 hours of unprotected sex.

a

Used within 7 days of unprotected sex.

b

Congenital adrenal hyperplasia: Can present as virilization with amenorrhea or oligomenorrhea; often presents in infancy with ambiguous genitalia. ■ PE: Pubertal development, genital exam, signs of androgen excess, physical features of Turner syndrome. ■

Diagnosis ■ Perform pregnancy test. ■ Assess for anatomic abnormalities (imperforate hymen): Physical exam, ultrasonography. ■ Uterus absent: Karyotype and serum testosterone to assess if abnormal müllerian development (46,XX, normal female testosterone levels), and androgen insensitivity (46,XY, normal male testosterone levels). ■ Uterus present: FSH, LH levels. ■ ↑ FSH: Primary ovarian insufficiency. Obtain karyotype for Turner syndrome (45,X). ■ Normal/↓ FSH: Central hypogonadism, constitutional growth delay. Measure serum prolactin, thyrotropin especially if galactorrhea. ■ If signs of hyperandrogenism: Consider androgen-secreting neoplasm. Check serum testosterone, dehydroepiandrosterone-sulphate (DHEAS). ■ If hypertensive: Evaluate for congenital adrenal hyperplasia (CAH; 17-hydroxylase and 21-hydroxylase deficiencies).

KEY FACT For Turner syndrome, think streak gonads, shield chest, amenorrhea, webbed neck, aortic coarctation, and bicuspid aortic valve.

KEY FACT The first step in the work-up of 1° or 2° amenorrhea is a pregnancy test!

See Table 2.12-4 for etiologies and Figure 2.12-3 for work-up of 1° amenorrhea. Treatment ■ Constitutional growth delay: No treatment is necessary. ■ Hypogonadism: Begin HRT with estrogen alone at the lowest dose. Begin cyclic estrogen/progesterone therapy 12–18 months later (if the uterus is present). ■ Anatomic: Requires surgical intervention.

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TA B L E 2.12 - 4. 

Etiologies of 1° Amenorrhea

Estrogen/

Constitutional

GnRH

LH/FSH

Progesterone

↓ (prepuberty

growth delay

Etiology Puberty has not started

levels) ↓

Hypogonadotropic

↓ or

hypogonadism

Hypothalamic or pituitary

normal

problem, low caloric intake, excessive exercise

Hypergonadotropic

Ovaries have failed to

hypogonadism

produce estrogen ↑ or ↓

Anovulatory

↑ Estrogen/

Normal

↓ Progesterone

problem

Problem with estrogen receptors, immature hypothalamic-pituitaryovarian axis (adolescents only)

Anatomic problem

Normal

Normal

Normal

Menstrual blood cannot get out

History and physical examination completed for a patient with primary amenorrhea

Presence of secondary sexual characteristics? No

Yes

Uterus present? Yes

Measure FSH/LH No

Outflow obstruction Yes

Imperforate hymen or transverse vaginal septum

Low FSH and LH

High FSH and LH

Hypo-gonadotropic hypogonadism

Hyper-gonadotropic hypogonadism

No

Evaluate as for secondary amenorrhea Karotype analysis

FIGURE 2.12-3. 

46, XY

46, XX

Androgen insensitivity syndrome

Mullerian agenesis

..

Karotype analysis

46, XY

46, XX

46, XY

Sawyer syndrome

Premature ovarian failure

Turner syndrome

Work-up of 1° amenorrhea. (Reproduced with permission from USMLE-Rx.com)

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2° A M E N O R R H E A

The absence of menses for 6 consecutive months in women who have passed menarche. Etiology includes: Pregnancy. Obesity. ■ Ovary: Polycystic ovarian syndrome (PCOS), premature ovarian insufficiency, chemotherapy. ■ Hypothalamus: Neoplasm, functional hypothalamic amenorrhea (nutrition, exercise, and stress), systemic illness (diabetes mellitus type 1 [DM1], celiac disease). ■ Pituitary gland: Adenoma (eg, prolactin secreting), sellar masses, Sheehan syndrome. ■ Thyroid gland: Hypothyroidism. ■ Uterus: Asherman syndrome, cervical stenosis. ■ ■

Diagnosis ■ History and physical exam. ■ Give patient a pregnancy test. ■ If ⊝, measure FSH, TSH and prolactin. ■ ↑ FSH indicates primary ovarian insufficiency. ■ ↑ TSH indicates hypothyroidism. ■ ↑ Prolactin (inhibits the release of GnRH and thus LH and FSH); points to a pituitary pathology. Order an MRI of the pituitary gland to look for a prolactin-secreting pituitary adenoma. ■ Initiate a progestin challenge (10 days of progestin). See Figure 2.12-4 for an algorithm of the diagnostic work-up. ■ ⊕ Progestin challenge (withdrawal bleed): Indicates anovulation that is probably caused by noncyclic gonadotropin secretion, pointing to PCOS or idiopathic anovulation. ■ ⊝ Progestin challenge (no bleed): Indicates uterine abnormality or estrogen deficiency. ■ Signs of hyperglycemia (polydipsia, polyuria) or hypotension: Conduct a 1-mg overnight dexamethasone suppression test to distinguish CAH (21-hydroxylase deficiency), Cushing syndrome, and Addison disease. ■ Clinical virilization: If present, measure testosterone, DHEA-S, and 17-hydroxyprogesterone. ■ Mild pattern: PCOS, CAH, or Cushing syndrome. ■ Moderate to severe pattern: Look for an ovarian or adrenal tumor. Treatment ■ Hypothalamic: Reverse the underlying cause and induce ovulation with gonadotropins if trying to conceive. If not, oral contraceptives. ■ Tumors: Excision; medical therapy for prolactinomas (eg, cabergoline, bromocriptine). ■ Premature ovarian failure (< 40 years of age): If the uterus is present, treat with combined oral contraceptives or estrogen plus progestin replacement therapy. 1° D Y S M E N O R R H E A

Menstrual pain associated with ovulatory cycles in the absence of pathologic findings. Caused by uterine vasoconstriction, anoxia, and sustained contractions mediated by an excess of prostaglandin (PGF2α).

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1 A 56-year-old woman presents with complaints of insomnia, vaginal dryness, and lack of menses for 13months. What is the most likely diagnosis?

2 A 16-year-old girl presents with ↓appetite, insomnia, and amenorrhea for 3 months. What is the most likely diagnosis, and how will you confirmit?

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GYNECOLOGY

Progestin challenge

Withdrawal bleed

No withdrawal bleed

LH

↑ = PCOS ↑↑ = premature menopause

FSH

Idiopathic anovulation

Hypergonadotropic hypogonadism/ovarian failure

Cyclic estrogen/progesterone test

Withdrawal bleed

Hypogonadotropic hypogonadism FIGURE 2.12-4. 

No withdrawal bleed

Endometrial or anatomic problem

Work-up of 2° amenorrhea.

History/PE ■ Presents with low, midline, spasmodic pelvic pain that often radiates to the back or inner thighs. ■ Cramps occur in the first 1–3 days of menstruation and may be associated with nausea, diarrhea, headache, and flushing. ■ No pathologic findings on pelvic exam.

1 The most likely diagnosis is menopause. As a clinical diagnosis, menopause does not require the ordering of any tests. However, if you are trying to rule it out as a cause of 2° amenorrhea, you may consider ordering an FSH level. Elevation is suggestive of menopause.

2 The most likely diagnosis is pregnancy. Confirm with a β-hCG test.

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Diagnosis A diagnosis of exclusion. Rule out 2° dysmenorrhea (see later). Treatment NSAIDs; topical heat therapy; combined hormonal contraception, progestin intrauterine device (IUD). 2° D Y S M E N O R R H E A

Menstrual pain for which an organic cause exists. Common causes include endometriosis, adenomyosis, fibroids, adhesions, and PID. History/PE ■ Patients may have a palpable uterine mass, cervical motion tenderness, adnexal tenderness, or vaginal or cervical discharge. However, normal abdominal and pelvic exams do not rule out pathology. ■ See Table 2.12-5 for distinguishing features of endometriosis vs adenomyosis.

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GYNECOLOGY

TA B L E 2.12 - 5. 

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363

Endometriosis vs Adenomyosis

Variable

Endometriosis

Adenomyosis

Definition

Functional endometrial glands and stroma outside the uterus

Endometrial tissue in the myometrium of the uterus

History/PE

Cyclic pelvic and/or rectal pain and dyspareunia

Classic triad of pain, menorrhagia, and an enlarged, boggy,

Uterus not enlarged but painful nodules, restricted range of

symmetric uterus

motion Diagnosis

Requires direct visualization by laparoscopy or laparotomy

MRI can aid in diagnosis but is costly

Classic lesions have a blue-black (“raspberry”) or dark brown

Ultrasonography is useful but cannot always distinguish

(“powder-burned”) appearance

Treatment

between leiomyoma and adenomyosis

The ovaries may have endometriomas (“chocolate cysts”)

Ultimately a pathologic diagnosis

Pharmacologic: Inhibit ovulation. Combination hormonal

Pharmacologic: Largely symptomatic relief. NSAIDs (first line)

contraception (first line), GnRH analogues (leuprolide), danazol, NSAIDs, or progestins Conservative surgical treatment: Excision, cauterization, or ablation of the lesions and lysis of adhesions Twenty percent of patients can become pregnant subsequent to treatment

plus combined hormonal contraception or progestins Conservative surgical treatment: Endometrial ablation or resection using hysteroscopy; complete eradication of deep adenomyosis is difficult and results in ↑ treatment failure Definitive surgical treatment: Hysterectomy is the only definitive treatment

Definitive surgical treatment: TAH/BSO ± lysis of adhesions Complications

Infertility (the most common cause among menstruating

May very rarely progress to endometrial carcinoma

women > 30 years of age)

Diagnosis ■ Obtain a β-hCG test to exclude ectopic pregnancy. ■ Perform a pelvic exam to assess uterine size, tenderness, and consistency, and to evaluate for ovarian masses. ■ Order the following: ■ CBC with differential to rule out infection. ■ UA to rule out UTI. ■ Gonococcal/chlamydial swabs to rule out STDs/PID. ■ Consider ultrasound to assess endometrium, uterus, and ovaries (look for pelvic pathology causing pain [see Table 2.12-5]).

KEY FACT Polyps are not associated with pain.

Treatment Treatment is etiology specific. ABNORMAL UTERINE BLEEDING

Normal menstrual bleeding ranges from 2 to 7 days. Abnormal uterine bleeding refers to alterations in quantity, duration, or frequency. Classified by acronym PALM-COEIN. ■ PALM refers to structural causes—Polyp, Adenomyosis, Leiomyoma, and Malignancy/hyperplasia. ■ COEIN refers to nonstructural causes—Coagulopathy, Ovulatory dysfunction, Endometrial, Iatrogenic, and Not yet classified. ■

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KEY FACT Postmenopausal vaginal bleeding is cancer until proven otherwise.

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GYNECOLOGY History/PE ■ Assess the extent of bleeding: ■ Oligomenorrhea: An ↑ length of time between menses (35–90 days between cycles). ■ Polymenorrhea: Frequent menstruation (< 21-day cycle). ■ Menorrhagia: ↑ Amount of flow (> 80 mL of blood loss per cycle) or prolonged bleeding (flow lasting > 8 days); may lead to anemia. ■ Metrorrhagia: Bleeding between periods. ■ Menometrorrhagia: Excessive and irregular bleeding. ■ On pelvic exam, look for an enlarged uterus, a cervical mass, or polyps to assess for myomas, pregnancy, or cervical cancer. Diagnosis ■ β-hCG test to rule out pregnancy. ■ CBC to evaluate for anemia. ■ Pap smear to rule out cervical cancer. ■ Gonorrhea/chlamydia probe to rule out cervical bleeding from cervicitis. ■ TFTs and prolactin to rule out hyper-/hypothyroidism and hyperprolactinemia. ■ Platelet count, PT/PTT to rule out von Willebrand disease and factor XI deficiency, primarily in adolescent patients. ■ Ultrasonography to look for uterine masses, polycystic ovaries, and thickness of the endometrium. ■ Perform endometrial biopsy: ■ If the endometrium is ≥ 4 mm in a postmenopausal woman, or if the patient is > 45 years of age. ■ If the patient is > 35 years of age with risk factors for endometrial hyperplasia (eg, obesity, diabetes).

KEY FACT Best initial treatment of abnormal uterine bleeding consists of NSAIDs to ↓ blood loss!

KEY FACT Combined hormonal contraception and the progesterone containing IUD are highly effective treatment options for menorrhagia.

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Treatment ■ Acute heavy bleeding: ■ High-dose estrogen IV stabilizes the endometrial lining and typically stops bleeding within 1 hour. Transition to combined oral contraceptive or add progestin when bleeding stabilized. ■ If estrogen is contraindicated, can give high-dose progestin therapy alone. ■ If bleeding is not controlled within 12–24 hours, a D&C is often indicated. ■ Ovulatory bleeding (menorrhagia): ■ NSAIDs to ↓ blood loss. ■ Tranexamic acid can be given for 5 days during menses. ■ If the patient is hemodynamically stable, give OCPs, oral or injectable progestin, or insert a progestin IUD. ■ Anovulatory bleeding: ■ Goal is to convert proliferative endometrium to secretory endometrium (to ↓ the risk for endometrial hyperplasia/cancer). ■ Progestins for 10 days to stimulate withdrawal bleeding. ■ Combined hormonal contraception. ■ Progestin IUD. ■ If medical management fails: ■ D&C. ■ Hysteroscopy to identify endometrial polyps or to perform directed uterine biopsies. ■ Uterine artery embolization if fibroids are the cause of menorrhagia.

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GYNECOLOGY

Hysterectomy or endometrial ablation appropriate for the following: ■ Women for whom hormonal treatment fails. ■ Women who no longer desire fertility. ■ Women who have symptomatic anemia and/or who experience a disruption in their quality of life from persistent, unscheduled bleeding.

HIGH-YIELD FACTS IN

365

KEY FACT

Complications of abnormal uterine bleeding are anemia and endometrial hyperplasia ± carcinoma.

Reproductive Endocrinology C O N G E N I TA L A D R E N A L H Y P E R P L A S I A

A deficiency of at least one enzyme required for the biochemical synthesis of cortisol from cholesterol (see Figure 2.12-5 and Table 2.12-6). Includes the following: 21-hydroxylase deficiency: Accounts for ∼ 90% of CAH cases; “classic” form is most severe and presents as a newborn infant girl with ambiguous genitalia and adrenal insufficiency (with or without life-threatening salt wasting). “Nonclassic” is a late-onset form that presents with androgen excess or could be asymptomatic. Cannot convert 17-hydroxyprogesterone to 11-deoxycortisol → ↓ cortisol synthesis → ↑ adrenal stimulation → ↑ACTH and androgens. ■ 11β-hydroxylase deficiency: Second most common cause of adrenal hyperplasia. Cannot convert 11-deoxycortisol to cortisol or 11-deoxycorticosterone to corticosterone, also leading to ↑ ACTH and androgens. ■

Cholesterol (via StARa) Anastrozole, exemestane

Cholesterol desmolase Pregnenolone

17α-hydroxylase

17α-hydroxylase 17-hydroxypregnenolone D Dehydroepiandrosterone (DHEA)

17α-hydroxylase

17α-hydroxylase 17-hydroxyprogesterone AAndrostenedione

3β-hydroxysteroid dehydrogenase Progesterone

Aromatase

Estrone

21-hydroxylase 11-deoxycorticosterone

11-deoxycortisol

11β-hydroxylase

Testosterone

Aromatase

Estradiol

Metyrapone Corticosterone

5α-reductase

Cortisol

Aldosterone synthase

Dihydrotestosterone (DHT)

Glycyrrhetinic acid Aldosterone

Cortisone

ZONA GLOMERULOSA Mineralocorticoids

ZONA FASCICULATA Glucocorticoids

Finasteride

Angiotensin II ZONA RETICULARIS Androgens

Adrenal cortex

Estrogens, DHT Peripheral tissue

aRate-limiting step.

FIGURE 2.12-5. 

Glucocorticoid biosynthesis pathway. (Modified with permission from USMLE-Rx.com.)

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TA B L E 2.12 - 6. 

GYNECOLOGY

Overview of Congenital Adrenal Hyperplasia

Sex Enzyme Deficiency

Mineralocorticoids

Cortisol

Hormones

BP

[K+]

Labs

Presentation

↓ Androstenedione

XY: ambiguous genitalia,

17α-hydroxylasea

undescended testes XX: lacks secondary sexual development ↓

21-hydroxylasea

↑ Renin activity

Most common

↑ 17-hydroxypro-

Presents in infancy (salt

gesterone

wasting) or childhood (precocious puberty) XX: virilization

11β-hydroxylasea

↓ Aldosterone

↓ Renin activity

XX: virilization

↑ 11-deoxycorticosterone (results in ↑ BP) All congenital adrenal enzyme deficiencies are characterized by an enlargement of both adrenal glands caused by ↑ ACTH stimulation (caused by ↓ cortisol). a

Modified with permission from Le T, et al. First Aid for the USMLE Step 1 2018. New York, NY: McGraw-Hill; 2018.

KEY FACT = male hair pattern. = frontal balding, muscularity, clitoromegaly, and deepening of the voice. ■ Defeminization = ↓ breast size; loss of feminine adipose tissue. ■ Hirsutism

■ Virilization

KEY FACT 21-hydroxylase deficiency can present with hypotension, whereas 11β-hydroxylase and 17-hydroxylase deficiencies can present with hypertension caused by accumulation of deoxycorticosterone.

History/PE Androgen excess: Genital ambiguity, premature pubarche, menstrual irregularity, infertility, hirsutism, acne, and, rarely, a palpable pelvic mass. Diagnosis ■ Physical exam. ■ 21-hydroxylase deficiency: ↑ 17-OH progesterone levels: substrate for 21-hydroxylase (part of newborn screen). ■ Cosyntropin stimulation test is gold standard, but not necessary if ↑↑17-OH. ■ 11𝛃-hydroxylase deficiency: ↑ Serum 11-deoxycortisol and 11-deoxycorticosterone. ■ Both: Next, in order of importance, assess the following levels: ■ Cortisol → decreased. ■ Androstenedione (also consider adrenal/ovarian neoplasm) → elevated in 21-hydroxylase and 11β-hydroxylase deficiency. ■ DHEA (also consider adrenal neoplasm, Cushing syndrome) → elevated in 21-hydroxylase and 11β-hydroxylase deficiency. ■ If salt wasting: Will also have ↓ aldosterone, ↓ sodium, ↑ potassium, and ↑renin associated with hypovolemia. Treatment ■ Glucocorticoids (eg, dexamethasone). Medical therapy for adrenal and ovarian disorders prevents new terminal hair growth but does not resolve hirsutism. ■ Add mineralocorticoid therapy (eg, fludrocortisone) if salt wasting. ■ Laser ablation, electrolysis, or conventional hair removal techniques must be used to remove unwanted hair.

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P O LY C Y S T I C O V A R I A N S Y N D R O M E

A syndrome of excess testosterone and excess estrogen, PCOS has a prevalence of 6–10% among US women of reproductive age and is the most common cause of infertility in women. Diagnosis requires fulfillment of two of the following three (Rotterdam criteria): Polycystic ovaries (via ultrasonography). Oligo- and/or anovulation. ■ Clinical and/or biochemical evidence of hyperandrogenism. ■ ■

KEY FACT The most severe form of PCOS is HAIR-AN syndrome: HyperAndrogenism, Insulin Resistance, and Acanthosis Nigricans.

History/PE ■ Common presentation: Obesity (BMI > 30 kg/m2), menstrual cycle disturbances, infertility, acne, androgenic alopecia, and hirsutism from hyperandrogenism. ■ Women with PCOS are also at ↑ risk for the following: ■ DM type 2: Acanthosis nigricans. ■ Metabolic syndrome: Insulin resistance, atherogenic dyslipidemia, and hypertension. Diagnosis ■ Biochemical testing of hyperandrogenemia: ↑ Testosterone. ■ ↑ Free testosterone is more sensitive than total testosterone (total can be normal) because of low sex hormone–binding globulin. ■ Exclude other causes of hyperandrogenism: DHEA-S to rule out adrenal tumor. ■ Pelvic ultrasound to rule out androgen-secreting ovarian tumor. ■ 17-OH progesterone to rule out nonclassical CAH. ■ Consider screening in the setting of clinical signs of Cushing syndrome (eg, moon facies, buffalo hump, abdominal striae) or acromegaly (eg, ↑ head size). ■ Evaluate for metabolic abnormalities: ■ Two-hour oral glucose tolerance test. ■ Fasting lipid and lipoprotein levels (total cholesterol, HDL, LDL, triglycerides). ■ Optional tests: Not necessary if both oligomenorrhea and signs of hyperandrogenism are present. ■ Transvaginal ultrasonography: Look for more than 11 small (2–9 mm), subcapsular follicles forming a “pearl necklace” sign (see Figure 2.12-6). Seen in roughly two-thirds of women with PCOS. ■ Gonadotropins: ↑ LH/FSH ratio (> 2:1). ■ 24-hour urine for free cortisol: Adult-onset CAH or Cushing syndrome. Treatment ■ Women who are not attempting to conceive: Treat with a combination of combined hormonal contraception or progestin ± metformin (or other insulin-sensitizing agents). ■ Women who are attempting to conceive: Clomiphene (selective estrogen receptor modulator) ± metformin is first-line treatment for ovulatory stimulation. ■ Symptom-specific treatment: ■ Hirsutism: Combination OCPs are first line; antiandrogens (spironolactone, finasteride) and metformin may also be used. ■ Obesity, cardiovascular risk factors, lipid levels: Diet, weight loss (can also help regulate ovulation), and exercise plus potentially lipid-controlling medication (eg, statins).

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F I G U R E 2 . 1 2 - 6 .   Polycystic ovary with prominent multiple cysts. (Reproduced with permission from DeCherney AH, Nathan R. Current Diagnosis & Treatment: Obstetrics & Gynecology, 10th ed. New York, NY: McGraw-Hill; 2007.)

KEY FACT Combined hormonal contraception or progestin ↓ the risk for endometrial hyperplasia/carcinoma among women with PCOS.

1 A 28-year-old woman comes to clinic for a wellness exam. She describes that approximately 2 weeks after her menses, she experiences intense, sharp lower quadrant abdominal pain that lasts a couple of hours. The pain varies from the right to the left side each cycle. What is the name of this phenomenon?

2 A 23-year-old woman presents with fever and abdominal pain of 2 days’ duration. She has a ⊕ chandelier sign. Antibiotics are started. What is the next step in management?

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Primary hypogonadism ( FSH) 30-40%

Male causes 25%

Secondary hypogonadism ( FSH, LH) 2% Disordered sperm transport 10-20% Unknown 40-50%

Infertility affects 14% of reproductive-age women/ 5 million couples in the US

Unexplained 17% Amenorrhea/ ovulatory dysfunction 46%

Female causes 58%

Tubal defect 38% Endometriosis 9%

Hypothalamic/ pituitary causes 51% Polycystic ovary syndrome 30% Premature ovarian failure 12% Uterine or outflow tract disorders 7%

Other 7% FIGURE 2.12-7. 

Causes of infertility. (Reproduced with permission from USMLE-Rx.com.)

KEY FACT Female causes of infertility are more common than male causes. Begin with history (including menstrual) and physical exam of the woman, then semen analysis before further work-up in the woman, as it is simple and noninvasive.

Complications ↑ Risk for early-onset DM type 2; ↑ risk for miscarriages; ↑ long-term risk for breast and endometrial cancer because of unopposed estrogen secretion. INFERTILIT Y

The inability to conceive after 12 months of normal, regular, unprotected sexual activity in women < 35 years of age; and after 6 months of regular, unprotected intercourse in women ≥ 35 years of age. ■ 1° Infertility is characterized by no prior pregnancies; 2° infertility occurs in the setting of at least one prior pregnancy. Etiologies are shown in Figure 2.12-7 and Table 2.12-7. ■

Gynecologic Infections 1 This is called mittelschmerz, pain at ovulation caused by progesterone production. It can switch sides depending on which ovary ovulates in a given cycle.

2 Pelvic ultrasonography to rule out tubo-ovarian abscess.

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C YST AND ABSCESS OF THE BARTHOLIN DUCT

Obstruction of the Bartholin duct may lead to cyst formation, as mucus continues to accumulate behind the obstruction, causing cystic dilation. An obstructed Bartholin duct that becomes infected can develop a polymicrobial abscess. History/PE ■ Cysts: 1–3 cm in size, unilateral, and often asymptomatic. If larger, lead to periodic, painful swelling and dyspareunia. ■ Diagnosis is clinical: Mass at medial labia majora or lower vestibular area on physical exam. ■ Abscess: Extremely painful, warm, fluctuant mass in same location as above, possible cellulitis.

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TA B L E 2.12 - 7. 

Infertility Work-up

Etiology Male factors

369

HIGH-YIELD FACTS IN

History/PE

Diagnosis

Treatment

Testicular injury or infection

Semen analysis

Treatment of hormonal deficiency

Medications (corticosteroids, cimeti-

TSH

Intrauterine insemination (IUI)

Prolactin

Donor insemination

Karyotype (to rule out Klinefelter syndrome)

IVF

dine, spironolactone) Pituitary, thyroid, or liver disease

Intracytoplasmic sperm injection

Signs of hypogonadism Varicocele Ovulatory

Age (incidence ↑ with age)

Menstrual history

factors

Symptoms of hyper-/hypothyroidism

Basal body temperature

Galactorrhea

Ovulation predictor

Menstrual cycle abnormalities

Midluteal progesterone

Pituitary tumors

Early follicular FSH ± estradiol level (ovarian reserve) TSH, prolactin, androgens

Treatment depends on the etiology (eg, levothyroxine, dopamine) Induction of ovulation with clomiphene, gonadotropins, and pulsatile GnRH IUI IVF

Ovarian sonography (antral follicle count) Endometrial biopsy (luteal-phase defect) Tubal/pelvic

History of PID, appendicitis, endo-

Hysterosalpingogram

factors

metriosis, pelvic adhesions, tubal

Endometrial biopsy

surgery

Laparoscopic resection or ablation of endometriomas or fibroids IVF

Cervical

Cryotherapy, conization, or DES

Pap smear

IUI with washed sperm

factors

exposure in utero

Physical exam

IVF

Antisperm antibodies Uterine

Polyps

Ultrasound

factors

Fibroids

Sonohysterogram

Congenital anomalies

Hysterosalpingogram

Surgical treatment

Treatment ■ Asymptomatic cysts: No therapy ± warm soaks. Consider drainage and biopsy if > 40 years of age to exclude carcinoma. ■ Abscess: Aspiration or incision and drainage to prevent reaccumulation; test for gonorrhea and Chlamydia and other pathogens. ■ Antibiotics are unnecessary unless cellulitis or STI present. VAGINITIS

A spectrum of conditions that cause vulvovaginal symptoms such as itching, burning, irritation, and abnormal discharge. The most common causes are bacterial vaginosis, vulvovaginal candidiasis, and trichomoniasis (see Table 2.12-8). History/PE ■ Presents with a change in discharge, malodor, pruritus, irritation, burning, swelling, dyspareunia, and dysuria. ■ Normal secretions are as follows: ■ Midcycle estrogen surge: Clear, elastic, mucoid secretions. ■ Luteal phase/pregnancy: Thick and white secretions; adhere to the vaginal wall.

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A 20-year-old woman is diagnosed with trichomonas and prescribed an antibiotic. She calls her physician complaining of flushing, nausea, and emesis. What antibiotic was the patient prescribed and what should she have been warned of?

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KEY FACT

GYNECOLOGY

Conduct a thorough exam of the vulva, vaginal walls, and cervix. If there are many WBCs and no organism on saline smear, suspect Chlamydia.

■ ■

Criteria for the clinical diagnosis of bacterial vaginosis (three of four are required): ■ Abnormal whitish-gray discharge. ■ Vaginal pH > 4.5. ■ ⊕ Amine (whiff ) test. ■ Clue cells compose > 20% of epithelial cells on wet mount.

Diagnosis/Treatment ■ Vaginal fluid for vaginal pH, amine (whiff) test, wet mount (with saline), and 10% potassium hydroxide (KOH) microscopy. ■ If purulent discharge, numerous leukocytes on wet prep, cervical friability, and any symptoms of PID, order DNA tests or cultures for Neisseria gonorrhoeae or Chlamydia trachomatis to rule out cervicitis. ■ Treatment is etiology specific (see Table 2.12-8). CERVICITIS

KEY FACT Genital ulcers: ■ Treponema pallidum cause single painless chancre. ■ Haemophilus ducreyi cause deep painful ulcers with irregular borders (you “do cry”). ■ HSV causes multiple shallow painful ulcers.

Inflammation of the uterine cervix. Etiologies are as follows: ■ Infectious (most common): Chlamydia, gonococcus, Trichomonas, HSV. Chlamydia trachomatis is more common than gonococcus in mucopurulent cervicitis. ■ Noninfectious: Trauma, radiation exposure, malignancy. ■ All sexually active women < 25 years of age should undergo yearly screening for Chlamydia and Neisseria because of ↑ rates of asymptomatic infection and ↑ risk for infertility in untreated infections. ■ Hx/PE: Yellow-green mucopurulent discharge; ⊕ cervical motion tenderness; absence of other signs of PID. ■ Dx/Tx: See the discussion of STDs in the Infectious Disease chapter. If mucopurulent. Empiric treatment for both C trachomatis and N gonorrhoeae. ■

P E LV I C I N F L A M M AT O R Y D I S E A S E

A polymicrobial infection of the upper genital tract. Associated with N gonorrhoeae (one-third of cases), C trachomatis (one-third of cases), and endogenous aerobes/anaerobes. Risk factors include non-white ethnicity, douching, smoking, multiple sex partners, and prior STDs and/or PID. MNEMONIC Acute causes of pelvic pain—

A ROPE Appendicitis—periumbilical → RLQ pain, fever, nausea, vomiting Ruptured ovarian cyst—recent strenuous physical activity, minor vaginal bleeding Ovarian torsion or abscess— torsion: severe unilateral pain (may be colicky), nausea, vomiting; abscess: gradual onset of fever, vaginal discharge, respectively PID—gradual onset of fever, vaginal discharge Ectopic pregnancy—rule out with β-hCG test

She was prescribed metronidazole. She should have been warned to stay away from alcohol while taking it, as it causes a disulfiram-like reaction.

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History/PE ■ Presents with lower abdominal pain, fever, chills, menstrual disturbances, and purulent cervical discharge. ■ Cervical motion tenderness (chandelier sign) and adnexal tenderness. ■ Orogenital contact can cause gonococcal pharyngitis along with PID. Diagnosis ■ Diagnosed by the presence of acute lower abdominal or pelvic pain plus one of the following: ■ Uterine tenderness. ■ Adnexal tenderness. ■ Cervical motion tenderness. ■ First, order a β-hCG test to rule out pregnancy. ■ A WBC count > 10,000 cells/μL has poor positive and negative predictive value for PID. ■ Ultrasonography may show thickening or dilation of the fallopian tubes, fluid in the cul-de-sac, a multicystic ovary, or tubo-ovarian abscess. Treatment ■ Antibiotic treatment should not be delayed while awaiting culture results. All sexual partners should be examined and treated appropriately. ■ Outpatient regimens: ■ Regimen A: Ceftriaxone IM for one dose + azithromycin PO for one dose or ceftriaxone IM + doxycycline (if allergic to azithromycin).

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GYNECOLOGY

TA B L E 2.12 - 8. 

HIGH-YIELD FACTS IN

371

Causes of Vaginitis

Variable

Bacterial Vaginosis

Trichomonas

Yeast

Incidence

15–50% (most common)

5–50%

15–30%

Etiology

Not an infection: shift in vaginal flora

Protozoal flagellates (an STD)

Usually Candida albicans

Unprotected sex with multiple partners

DM, antibiotic use, pregnancy, corti-

(↑ anaerobes such as Gardnerella vaginalis, ↓ lactobacilli) Risk factors

Pregnancy, multiple sexual partners, female sexual partner, frequent

costeroids, HIV, OCP use, ↑ frequency

douching

of intercourse, tight-fitting clothing

History

Odor, ↑ discharge

↑ Discharge, odor, pruritus, dysuria

Pruritus, dysuria, burning, ↑ discharge

Exam

Mild vulvar irritation

“Strawberry petechiae” in the upper

Erythematous, excoriated vulva/

vagina/cervix

vagina

Profuse, malodorous, yellow-green, frothy

Thick, white, curdy texture without

Discharge

Homogeneous, grayish-white, fishy/ stale odor

Wet mount a

KOH prep Treatment

odor

“Clue cells” (epithelial cells coated

Motile trichomonads (flagellated organ-

with bacteria [see Image A]); “No clue

isms that are slightly larger than WBCs

why I smell fish in the vagina garden”

[seeImage B])

⊕ “Whiff” test (fishy smell) PO or vaginal metronidazole or vaginal clindamycin

Budding yeast or hyphae

Pseudohyphae (see Image C) Single-dose PO metronidazole or

Topical azole or PO fluconazole

tinidazole Treat partners, otherwise a “ping-pong effect”; test for other STDs

Complications

Chorioamnionitis/endometritis,

Same as for bacterial vaginosis

infection, preterm delivery, PID

A

B

C

If there are many WBCs and no organism on saline smear, suspect Chlamydia.

a

Image A reproduced with permission from USMLE-Rx.com. Image B reproduced courtesy of the US Department of Health and Human Services. Image C reproduced with permission from Wolff K, et al. Fitzpatrick’s Color Atlas & Synopsis of Clinical Dermatology, 5th ed. New York, NY: McGraw-Hill; 2005.

Regimen B: Ofloxacin or levofloxacin for 14 days ± metronidazole for 14 days. This is only in special cases since there is an increase in quinolone-resistant N gonorrhoeae. ■ If nucleic acid amplification testing for either N gonorrhoeae or Chlamydia is ⊝, treatment is not indicated. However, treatment should not be delayed for NAAT. ■ Inpatient antibiotic regimens: ■ Cefoxitin or cefotetan plus doxycycline for 14 days. ■ Clindamycin plus gentamicin for 14 days. ■

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Surgery: ■ Drainage of a tubo-ovarian/pelvic abscess is appropriate if: ■ Mass persists after antibiotic treatment. ■ Abscess is > 4–6 cm. ■ Mass is in the cul-de-sac in the midline and drainable through the vagina. ■ If the patient’s condition deteriorates, perform exploratory laparoscopy or laparotomy. ■ Surgery may range from TAH/BSO with lysis of adhesions in severe cases to conservative surgery for women who desire to maintain fertility.

KEY FACT Mild and subclinical PID is a major cause of tubal factor infertility, ectopic pregnancy, and chronic pelvic pain caused by pelvic scarring.

Complications ■ Repeated episodes of infection, chronic pelvic pain, dyspareunia, and ectopic pregnancy. ■ Infertility (10% after the first episode, 25% after the second episode, and 50% after a third episode). ■ Fitz-Hugh–Curtis syndrome (presents with associated perihepatitis, RUQ pain, abnormal liver function, and referred right shoulder pain). TOXIC SHOCK SYNDROME

Caused by preformed Staphylococcus aureus toxin (TSST-1); can occur within 5 days of using tampons. The incidence in menstruating women is now 6–7/100,000 annually. Nonmenstrual cases are nearly as common as menstrual cases (eg, surgical, burns). KEY FACT TSS is a rare but potentially fatal reaction to S aureus toxin, not to the bacterium itself.

History/PE ■ Presents with abrupt onset of fever, vomiting, and watery diarrhea. ■ A diffuse macular erythematous rash involving the palms and soles is seen. ■ Nonpurulent conjunctivitis is common. ■ Desquamation, especially of the palms and soles, generally occurs during recovery within 1–2 weeks of illness. Diagnosis ■ Based on clinical presentation. Fever > 38.9°C, hypotension, skin findings, involvement of three or more organ systems. ■ Blood cultures are ⊝, given that it is caused by a preformed toxin and not invasive properties of the organism. Treatment ■ Rapid rehydration, exam for foreign objects in vaginal canal, drainage if localized infection found. ■ Empiric antibiotics: Clindamycin + vancomycin. ■ If methicillin-sensitive S aureus isolated in wound, clindamycin + oxacillin OR nafcillin. ■ If methicillin-resistant S aureus isolated, clindamycin + vancomycin OR linezolid. Complications ■ Mortality rate associated with TSS is 3–6%. ■ Causes of death include cardiac arrhythmias, cardiomyopathy, respiratory failure caused by ARDS, and coagulopathy caused by DIC.

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Gynecologic Neoplasms Gynecologic cancers include uterine, endometrial, ovarian, cervical, and vulvar neoplasms. Ovarian cancer carries the highest mortality. UTERINE LEIOMYOMA (FIBROIDS)

The most common benign neoplasm of the female genital tract. They present as discrete, round, firm, and often multiple tumors composed of smooth muscle and connective tissue and may cause infertility or menorrhagia. Fibroids are hormone sensitive; size will ↑ in pregnancy and ↓ after menopause. ■ Malignant transformation to leiomyosarcoma is rare (0.1%–0.5%). ■ Prevalence: More common in African-American women (50%) than in white women (25%). ■

History/PE ■ Majority of cases are asymptomatic. ■ Symptomatic patients may present with the following: ■ Bleeding: Longer, heavier periods; anemia. ■ Mass effect: Pelvic/rectal pressure constipation, and urinary frequency or retention.