Illustrated Orthopedic Physical Assessment

MOSBY ELSEVIER

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ILLUSTRATED ORTHOPEDIC PHY SICAL ASSE SSMENT. Third Edition Copyright

ISBN:

978-0-323-04532-2

© 2009, 2001 by Mosby, Inc., an affiliate of Elsevier Inc.

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Neither the Publisher nor the Author assume any responsibility for any loss or injury and/or damage to persons or property arising out of or related to any use of the material contained in this book. It is the responsibility of the treating practitioner, relying on independent expertise and knowledge of the patient, to determine the best treatment and method of application for the patient. The Publisher

ISBN:

978-0-323-04532-2

Vice Presidel1l and Publisher: Linda Duncan Senior Acquisitions Editor: Kcllie

F. White

Senior Developmental Editor: Jennifer Watrous Associate Developmental Editor: Kelly Milford Publishing Services Manager: Julie Eddy Senior Project Manager: Andrea Campbell Designers: Renee Duenow, Jessica Williams

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DEDICATION

For Linda, Inspiration Everlasting

For PiS, VR, iG, KB, MAB, CG, LA, CR, KR, DR, RM , RS, iC, PS, MLP, DRG NIR ,

,

is, MF, RH, MRN, SAA, EIW, MAN, LLS, FLvw, RMS MRA, SMR, ID, CMC, MC, ADS ... ,

and all other patients, past and present, participating in my continued search for their wellness ...

For iRB ... because many scientific premises first illuminate in eddies of single malts, plumes of Cuban smoke, and at the end of tight lines ...a consummate physician/scientist ...

And finally, For my mother: An Irish woman who bore a Welsh son. I am blessed by her endless creativity and, compassion, and gift of gab. Were it not for her, I would have less to say ... how very dull.

ABOUT THE A U T H O R Dr. Ronald C. Evans is a Doctor of Chiropractic and a 1976 graduate of Northwestern Health Sciences Univeristy, and Chaired its Chiropractic Orthopedics Residency Program from 1980 to 1984. He is a Diplomate of the American Board of Chiropractic Orthopedists (DABCO) and Examiner Emeritus of that Board. He is a Fellow of the Academy of Chiropractic Orthopedists (FACO) and Examiner Emeritus of that Board. Dr. Evans is a Fellow of the International College of Chiropractors (FICC), and has lectured in orthopedics and neurology for 35 years, speaking extensively throughout the United States, Canada, New Zealand and Australia, and Scotland. Dr. Evans has lectured on the campuses of Northwestern Health Sciences, Drake University, Texas College of Chiropractic, Logan University/College of Chiropractic, Southern California University of Health Sciences, and Palmer College of Chiropractic, Western States Chiropractic College, as well as at the Center for Alternative Medicine Research, Harvard Medical School. Dr. Evans has addressed diverse audiences that include the Association of Trial Lawyers of Iowa, the American Bar Association, the Australian Chiropractor's Association, the Defense Research Institute of the American Bar Association, the American Public Health Association, and the Royal Academy of Physicians and Surgeons. Dr. Evans is retired from an 11-year term of office on the Iowa Board of Chiropractic Examiners, serving as chairperson of the Board for nearly half that term. He maintains a private practice in Des Moines, and is the senior chiropractic orthopedic staff of a multi-provider, multi-disciplinary health care facility specializing in the non-surgical management of orthopedic and neurological disorders. He is a Trustee of the Foundation for Chiropractic Education and Research, and served as Editorial Advisor for its publication "Staying Well" for many years. Dr. Evans is the Vice President of FCER and continues to serve the FCER as the Chairman of its Department of Defense Committee. Dr. Evans is the Chair of the Evidence-Based Resource Center of FCER. He was an appointee to the RAND Consensus Panel for the study of the Appropriateness of Manipulative Care for the Cervical Spine. He is an appointee, by the Secretary of Defense of the United States, to the Oversight Advisory Committee for Chiropractic Health Care, Department of Defense, now serving as a Senior Member of that Committee, as well as its successor committee, the Chiropractic Healthcare Benefits Advisory Committee. Dr. Evans has served as an Editorial Advisor for DC TRACTS, and is a Prepublication Book Reviewer for Lippincott Williams & Wilkins Publishers; Elsevier, and Aspen Publishing. He is an Associate Editor for the Journal of Neuromusculoskeletal

System of the ACA and a Forum Acquisitions Editor for the ACA Press. Dr. Evans was an appointee by Iowa Governor Terry E. Branstad to the Iowa Health Reform Council, the Iowa Health Regulation Review Task Force, and the Iowa Community Health Management Information System (CHMIS). He is the CEO of the Iowa Chiropractic Physicians Clinic, (ICPC) a single-specialty independent provider network for Iowa and surrounding Midwestern states. Dr. Evans is the recipient of the Chiropractic Orthopedist of the Year Award (1984) and the Distinguished Service Award (1994) from the American College of Chiropractic Orthopedists, receiving the ACCO Distinguished Service Award again for 2001-2002. The Council on Chiropractic Orthopedics recognized Dr. Evans for Lifetime Achievement in 1992 and he received the President's Citation for Distinguished Service by the American Board of Chiropractic Orthopedists in 1991. Dr. Evans received the Award of Excellence in 1993-1994, the Presidential Award in 1994, and the Outstanding ICS Member in 1996-1997, all from the Iowa Chiropractic Society. Most recently, he received the Iowa Board of Chiropractic Examiners Service Award: Iowa Chiropractic Society 1990-2001. Dr. Evans received the Distinguished Service Award from the Academy of Chiropractic Orthopedists in March 2003. Dr. Evans' writings include Orthopedic Test and Signs, A Compendium, NWUHS, 1979, third edition, 1984, 1985; Differential Diagnosis of Conditions Presenting Neck and ArmPain,NWCC, 1980, second edition, 1984,1985; Orthopedic Considerations of the Low Back and Lower Extremity, NWUHS, 1980, second edition, 1984, 1985; The Impairment Rating, NWCC, 1981, second edition, 1984; "The Injured Worker: Role of the Chiropractor," Journal of the Australian Chiropractor's Association; 1985; 15(2); "Malingering and Symptom Embellishment," Chapter 15, Chiropractic Family Practice, Williams & Wilkins, 1990; Thoracic Spinal Examination Procedures; audio lecture for DC TRACTS bimonthly publications, 1989, 1990; "Truncal Pain," Chapter 5, as a contribution to Scoliosis, by D. Aspergren, Williams & Wilkins, 1991; "Back School; a statistical correlation to demonstrate efficacy of a Back School Education Program in the therapeutic regimen: a one year study," completed 12/31/82; "CPT/ICD-9 coding and reference glossary" for Iowa Chiropractic Society; The Role of The Doctor of Chiropractic In Health Care Reform in The State of Iowa Within the Context of the Principles of Reform Of the Iowa Health Reform Council; Notice of Intended Action Insurance Division [191], New Chapter 75, "Iowa Individual Health Benefits Plans"; Managed Care In The United

vii

ABOUT THE A U T H O R ( C O N T I N U E D )

States Perspectives on Chiropractic Health Care Delivery in Total Managed Care Systems, 1995; Noticed Rules, Chapter 110, "Center for Rural Health and Primary Care," New Section. 514c. 11 Patient Access to Types of Physicians Under Managed Care Health Plan or Indemnity Plan With Limited Provider Network; Analysis of the Final Report on the Physician Utilization Study as authorized by Iowa State Senate, Senate File 2470(1996) and completed by Donald G. Hamm, Jr., FS A William M. Mercer, Incorporated, as the Clinical and Cost Effectiveness of Various Types of Physicians for the Iowa Division of Insurance January 6, 1997 by Ronald C. Evans, DC, FACO, FICC, and Anthony I. Rosner, Ph.D. February 10, 1997; Fibromyalgia: A Conservative Perspective on Definition, Diagnosis and Management, a video presentation for FCER 5/95; Identifying and Understanding Lateral Elbow Pain with Emphasis on Lateral Epicondylitis; Alternative Medicine: Implications for Clinical Practice Chiropractic Health Care; Basic Chiropractic Testing and Evaluation Techniques PAIN: "Is it real, or is it

Memorex," Iowa Trial Lawyers Association Medical Damages Seminar June 9, 1995; Testing Methodology and Protocol of the American Board of Chiropractic Orthopedists, Evans RC, Brandt JR; Evans RC, Rosner A L . "Alternatives in Cancer Pain Treatment: The Application of Chiropractic Care," Seminars in Oncology Nursing 2005;21(3):184-189. His textbooks include The Illustrated Essentials in Orthopedic Physical Assessment, 1993; Illustrated Orthopedic Physical Assessment, 2001; and Instant Access to Orthopedic Physical Assessment, 2002; and Iatrogenic Tendinopathy Associated with Levaquin (Levofloxacin); case report, 2008. Dr. Evans holds the copyright and trademark for the Greenfield Babinski Neurological Reflex Hammer; IMPSTAT (a computer program for the Evaluation and Rating of Physical Impairments (coauthored with Logic Unlimited, Inc.); and he is the co-developer of E X A M M A K E R , a computerized exam-making program, based on multi-statistical permutations, with Logic Unlimited, Inc.

PREFACE The basic observation of a patient's painful stance and aggravating movements usually allows the formulation of the presenting signs and symptoms into a recognizable constellation of a disease syndrome. The essence of orthopedic diagnosis is the clinically demonstrable or reproducible signs of disease or injury. Many physicians associate an aura of mysticism with the ease and speed with which the orthopedic specialist arrives at a diagnosis. In fact, the specialist's development of interviewing, observation, and physical testing skills allows proceeding directly to the heart of the patient's problem. I have been privileged in clinical practice to be challenged by the myriad orthopedic health problems presented by my patients. I believe that my early and fumbling years were well tolerated by these gracious people. They became well in spite of my efforts. They have remained loyal indeed. In these latter years of practice, many of the early patients return with new diseases. These maladies are often much more difficult to diagnose and treat. My skills as an orthopedic specialist have been honed to a fine edge out of necessity. Some of these patients will not outlive me to give me yet another chance to get it right. The perspective of the role of the physician in modern medicine has changed. Physicians are no longer viewed as the omnipotent beings they were formerly thought to be. The physician is expected to recognize personal skill limitations and make appropriate consultations and referrals. Patients expect the correct diagnosis the first time around. At the least, they deserve that. This book is created to alleviate the frustration and discomfort for two parties in their respective quests for health and wellness. First are the physicians and orthopedic specialists, who labor mightily in pushing, pulling, poking, bending, and twisting patients' body parts in the sometimes less than compassionate search for the cause of the suffering. Second are the patients who have been not-so-gently pushed, pulled, poked, bent, and twisted into inhuman configurations as they wait furtively for the discovery of the cause of their anguish. I salute both parties for their endurance in seeking the origin of disease and discomfort. Although the first edition of Instant Access to Orthopedic Physical Assessment was an unqualified success—voted into the 1994-1995 Top 250 Books of the Year by Doody's Health Sciences Book Review Journal—it could be made to be better. Much of what made the first edition so successful succeeded into a second edition, and now a third edition. There are many major changes to the contents: increasing the information on disease assessment, including more illustrations, and creating many more Orthopedic Gamuts.

Readers will enjoy the "At the View Box," contributions of Dr. Timothy Mick, DC, DACBR, as well as the expanded critical thinking elements. Illustrated Orthopedic Physical Assessment, Third Edition, remains clinically relevant and useful for both the student and the practicing clinician. The scope and organization of Illustrated Orthopedic Physical Assessment, Third Edition, makes it a suitable companion for the clinician at all levels of sophistication, progressing from the initial procedures of orthopedic diagnosis to the requirements of the advanced student and the experienced practitioner. Included in the thirteen chapters are diagnostic facts in orthopedics, organized in a manner most likely to be useful during the examination of patients. The book's compact physical dimensions invite constant use as a reference volume on the physician's office desk, in the instrument bag, and in the clinical setting; its functional internal design, with liberal use of Orthopedic Gamuts, offers a convenient vehicle for refreshing one's memory about seldom encountered and easily forgotten clinical orthopedic phenomena. Only the unusual reader and clinician could master the contents of Illustrated Orthopedic Physical Assessment by studying it in sequence from beginning to end. Rather, the student or clinician should digest the principles and procedures in segments as general diagnostic knowledge progresses. First, the reader should become familiar with Chapters 1 and 2 and the descriptions of the "Cardinal Signs and Symptoms". From these chapters, the clinician should explore the regional chapters. As contact with patients increases and specific questions arise, the reader should become familiar with the "Comments" for each diagnostic procedure. The "Comments" section of each test or sign amplifies the knowledge of an underlying pathology that is often discovered with the pertinent test or procedure. Chapter 13 presents rationale and procedures for investigating malingering or non-organically-based complaints. Included with Chapter 13 are numerous medical record forms, outcomes assessment forms, and pain scale analogs. Each chapter of Illustrated Orthopedic Physical Assessment, Third Edition, has a specific format. The format lends to the quick referencing of tests and maneuvers and crossreferencing of associated procedures. Each chapter begins with indexing of the tests found therein. Each chapter also begins with cross-reference tables for the syndrome assessed and by the syndrome suspected. Further, each chapter presents the separate protocols for the regional joint assessment procedures and for assessment of pain in the particular joint or region. These are presented as testing procedural flow charts. These charts

ix

PREFACE ( C O N T I N U E D )

identify the test procedure(s) used to objectify the symptoms of pain, paralysis, weakness, and loss of sensation. The chart provides a plan of examination and selections of tests for the joint. Each chapter begins with a set of axioms. Axioms are self-evident or universally recognized truths. Axioms are also established rules, principles, or laws. An axiom used in this text is also a principle accepted as true, without proof as the basis for argument. Each chapter introduction addresses the various unique considerations or pathologies of the focal joint. The introductory section contains the index of the tests presented and illustrated in the chapter. Laced throughout a chapter are Orthopedic Gamuts. The various gamuts present a range or spectrum of facts or concepts in assessing orthopedic disease. The gamuts in each chapter may represent universal orthopedic precepts as well as specific regional principles and maxims. The gamuts serve as diagnostic rubric in examining a patient. Essentia] anatomy is presented in each chapter. The essential anatomy section is not all-encompassing, but rather discusses only the typical tissues that can be examined in orthopedic physical procedures. Essential motion assessment for the joint is included. These illustrations depict the expected full ranges of movement for the joint. The discussion further identifies the amount of lost motion that can affect the activities of daily living. Essential muscle function for each joint is also included. This section identifies the musculature that is the prime mover of the joint, the innervation, and the action of the muscle, and limited discussion of the muscular anatomy. Essential imaging elements are addressed in each chapter, specific for the region or joint discussed. Again, not all imaging techniques or modalities are discussed, only those procedures germane to the physical orthopedic testing of a patient. Each test, maneuver, sign, law, or phenomenon is presented separately. The common usage name for the test, as identified in Stedman's, Taber's, Mosby's, Dorland's, or Churchill's medical dictionaries, is the heading for the test. Equally, common synonyms and eponyms follow this name. Eponyms for certain examinations vary from locale to locale or among institutions within the same area. Such observations are a reflection of the training center's influence. This is especially true where the names of prominent local physicians or clinicians or researchers are frequently used for these examinations. On occasion, the same test is given two or more names, or the name can apply to more

x

than one test or sign. In a problem-oriented situation, eponyms are routinely used in the physical evaluation process. Familiarity with the terms and techniques used in determining regional problems enables the physician and assistant to record and clarify an orthopedic examination. Following the name of the test, maneuver, or sign is identification of the specific pathology the test is suited to elicit. A test is part of the physical examination in which direct contact with the patient is made. It also may be a chemical test, x-ray, or other study. All tests described in his book will relate to the physical examination. A sign is elicited by a test or a particular maneuver. A sign can be simply a visual observation (e.g., antalgia), and it is an indication of the existence of a problem perceived by the examiner. A maneuver is a complex motion or series of movements, used either as a test or treatment. A maneuver is also a method or technique. A phenomenon is any sign or objective symptom or any observable occurrence or fact. A law is a description of a phenomenon that is so thoroughly tested and accepted that it is regarded as a principle governing like phenomena. For each testing procedure in the book, a general comment is presented about the pathologic condition targeted by the test. Numerous citations from current research literature annotate the discussions of underlying pathologies. Following the comment section is a bulleted delineation of how the test is conducted. Each procedure is supported by photo illustrations and legends. Each test is cross-referenced with other supportive tests and procedures as "Next Steps/Procedures". Where pertinent, a "Clinical Pearl" identifies the subtle nuances or finesse of the tests that the author has gleaned from empirical practice. For selected tests or procedures, At the Viewbox case studies are presented. The case studies exemplify the typical and salient diagnostic image findings for the disease pathology discussed. The case studies have been graciously supplied from the teaching library of Dr. Timothy Mick, DC, DACBR. At the close of each chapter, a "critical thinking" section is included. The critical thinking section is a range of questions germane to the specific region or joint of the chapter. The questions pertain largely to information contained in this text, but may occasionally require the reader to crossreference with other pieces of literature or current scientific journals. The answers for each question are contained in this reference as well.

PREFACE ( C O N T I N U E D )

The references are listed for each chapter. The bibliographic listing is new, updated, and extensive. In some instances, the bibliography reflects older volumes or works than are commonly found in scientific literature today. These older references are the original work of the creators of various tests or procedures in this book. Preserving the books in these reference lists is an attempt to preserve a continuum in the development of orthopedic investigation. In an effort to accurately depict tissues and pathology involved in orthopedic disease and injury, numerous new illustrations are included in Illustrated Orthopedic Physical Assessment, Third Edition. Largely the new illustrations are from the outstanding and benchmark works of selected

authors. Their works are exemplary in great scientific writing, strongly contributing to the fund of knowledge of modern physicians. The artwork and line drawings used in these works are unsurpassed. Although the various tests and procedures in this book are presented in an anatomical or regional format, the application of the tests is accomplished in a more natural flow of examination procedures. The natural flow of the examination usually moves the patient from the standing position, through sitting, supine, and side-lying positions to the prone position. Appendix A is a Listing of Tests, Alphabetically and Anatomically; Appendix B is a Listing of Tests According to the Position of the Patient. A Glossary of Abbreviations is also included.

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xi

ACKNOWLEDGMENTS Many individuals come to mind for their contributions to the continuum of this reference work, and they are indeed too numerous to list. They are, especially, the physicians who attend my lectures and symposia and take the time to tell me about or demonstrate for me various orthopedic tests and signs. I am sure that in many instances the uninformed or casual onlookers thought that grown men were wrestling in public, when, in fact, we were exchanging the latest testing procedures. I will always be grateful to these keepers of the empirical body of medicine and science. Without their thirst for knowledge and scientific evidence and support, this book could not be written or continue in its evolution. More specifically, I must acknowledge three great mentors in chiropractic orthopedics: Dr. Joseph J. Sweere, Dr. Russell G. Hass (dec), and Dr. Robert N. Solheim (dec). It was my fortune to be their student in orthopedic health science. Their challenges kept me advancing in my fundamental knowledge in orthopedic medicine, and their educational excellence caused me to grow. This book is a product of that growth. Their guidance and vitality have been the breath of life for the entity of orthopedic specialization within the scope of chiropractic practice. Perhaps more especially, I acknowledge Dr. John F. Allenberg, former President, Northwestern University of Health Sciences, as the individual responsible for my completion of the arduous, if not overwhelming, residency program at Northwestern. Although I may have had the talent and intellect for the task, he provided the necessary stimulus at the right times to help me see the endeavor to completion. Without that, I would not be a chiropractic orthopedist. It is hard to define the driving force that propels one to aspire to excellence. Samuel C. Evans, DC, my father, and partner in practice, in his life and love of quietly but efficiently caring for people, embodied the greatest attributes in health science and art. His dedication to truth in science and compassion in ministering to the sick and injured inspired me to greater heights as a physician and as a person. This book, the editions before it, and those that will come after, is penned with eternal respect, admiration, and humility for his lifetime work and contribution to the human condition. The greatest man I ever knew. My contemporary, Dr. James R. Brandt, continued to serve in the development of the third edition of this text, as well as for its companion, Instant Access to Orthopedic Physical Assessment, Second Edition. Dr. Brandt remained steadfast in critical assessment of the work and dedicated to making me strive for excellence in my writing. Dr. Kim A. Skibsted contributed to the third edition with astute clinical photography. Dr. Skibsted's keen eye and

sense of photographic composition are unparalleled and add to the advancement of the images used in various chapters. In many instances, the clinical photography of Dr. Skibsted is unsurpassed in depicting important positions and postures. Dr. Skibsted not only grasped the concept and framing issues of the illustrations, he worked tirelessly to perfect the quality of this book. I am ever indebted. For the third edition, Mrs. Linda K. Evans saw to it that manuscripts for both Illustrated Orthopedic Physical Assessment, Third Edition, and Instant Access to Orthopedic Physical Assessment, Second Edition, were ready, accurate, and finished ahead of time. Her zeal to make these editions as successful as the previous ones is unparalleled. She made the task of revision more interesting and less heavy. I will seek her guidance for future works. For the third edition—and to quote, "It takes a village" —to produce the stunning new color images for the various tests and maneuvers. At the outset, Logan University/ College of Chiropractic president Dr. George Goodman, and Dr. Elizabeth Goodman, Ms. Ann Carter, Assistant to Drs. Goodman, and Ms. Kim Sullivan, Graduation & Event Planner at the Purser Center, are commended for their generosity in providing a magnificent location for the author, crew, editorial photographer, and models, in the production of the art. The Purser Center is unparalleled in its beauty and functionality. Certainly, the college administration and staff saw to every need for this project, ensuring its success. I am grateful to the ITC company for providing the set backdrop and carpet, without which, the art would be less charming. Mr. Jim Visser, primary still photographer, and Mr. Chuck Leroi, and his videographic assistants Matt Aiskenen, and Ryan Cannon, could not have worked harder to achieve any higher degree of excellence with the color photos and illustrations and video footage. They both pushed the models to exceed their known abilities, squeezing out every detail of movement or position. Their collective work embodies the constant search for perfection, serving as a guide for me to create prose equal to the illustrations. I look forward to working with both in future endeavors. The primary photographic models include Ms. Kim Alvis, Mr. Sean Brasfleld, Ms. Candyse Burns, Mr. Ryan Collart, Mr. Ochuko Ekpere, Ms. Angela Fain, Dr. LT Faison, Ms. Sheena Gordon, Mr. John Knott, Mr. Patrick Milford, Ms. Julie Mowczuo, Mr. Gary Taylor, and Ms. Annie Walters. Both Mr. Brasfield and Dr. Faison rose far above the call of duty in providing either specialized and critical equipment for the photos, or in helping recruit suitable models for the shoot. Each of the models demonstrated interminable patience in achieving just the right position or

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ACKNOWLEDGMENTS

look of a test or procedure. I am grateful for their stamina and physical pliability. It is worthwhile noting that some of these able models subsequently entered successful practice as chiropractic physicians. Ms. Bailey Schechinger is a superb model for the clinical illustrations. She was tireless, well-poised, and eager to learn the meanings and usefulness of the procedures. Because of this, she helped make this book better. The Mosby/Elsevier staff for this edition included: Ms. Jennifer Watrous, Senior Developmental Editor, Health Professions 1 department of Editorial. I am pleased that Ms. Watrous elected to engage in the work on my new editions. She worked diligently on the second edition of Illustrated Orthopedic Physical Assessment, and it has been exciting to have her working on the third. Her attention to detail previously made the book into a definitive reference. That same perseverance with editing my writing this time pushes the book yet one notch higher. It is always a pleasure to work with people who truly want to see a project succeed. Ms. Watrous exemplifies this trait. Ms. April Falast, Editorial Assistant, Health Professions I department of Editorial. We could not have completed the work on time or in an organized fashion without Ms. Falast's creative work in making the photographic masters from the second edition. The enlarged illustrations were the perfect tool for both the stills and videos. I am sure this was hard work, but the resulting photo catalog is unsurpassed. I am also grateful for her attention to the needs of the models. Without Ms. Falast's leadership, I am certain the freezing models would simply have left the building, along with Elvis. Ms. Kelly Milford, Associate Developmental Editor, Health Professions 1 department of Editorial, is exceptional in her work. Her attention to detail and dedication to completion of the project kept the manuscripts, models, photographers, and the author moving forward. I am ever indebted to her patience in waiting for the final draft(s). Her professionalism is unsurpassed, especially tested in frequent e-mail and tele-conference contact from the beginning until the first bound copy. One could not

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(CONTINUED)

ask for more of an editor. Her activities in compiling the manuscript schedules, arranging the photo shoot, arranging for the models and organizing the video and audio studios, as well as keeping everyone on the same page were invaluable. I could not have done any of the work without her at the "director's table." Ms. Andrea Campbell, Senior Project Manager, juggled communication with numerous staff constantly. She was the last stop before the "work" becomes a book. She is the sous chef for my manuscripts: I gave her the ingredients and she turned them into something everyone will like to look at and want to read. Ms. Campbell helped to sort out the art problems and keep track of what needed to be redrawn and what needed replacing (according to my seemingly interminable corrections). Quite a task. I am ever grateful for her skills. Ms. Kellie White, Senior Acquisitions Editor, Health Professions I department of Editorial. Worked with me from the earliest stages of Illustrated Essentials in Orthopedic Physical Assessment, through to Illustrated Orthopedic Physical Assessment, Second Edition, and Instant Access to Orthopedic Physical Assessment, and now for Illustrated Orthopedic Physical Assessment, Third Edition, and Instant Access to Orthopedic Physical Assessment, Second Edition. Ms. White continues to provide the necessary latitude and unwavering encouragement for the development of both books to evolve them into nationally recognized, definitive works. She embodies the attributes of a senior editor for which every author hopes. She and her excellent staff brought professionalism, interest, and dedication to the project. I have now written two editions under her guidance, with great result. The current revisions will surpass both our expectations, which I attribute to her skills at marshaling all the creative elements, models, photographers, and the author, to their best. Developing a book with her and for her is a joy. Elsevier is both astute and fortunate to have Ms. White in its Editorial leadership, and I am fortunate to enjoy her friendship and creative counsel. I will continue to strive to give her the best manuscripts. I look forward to future collaborations.

Solving a patient's health problem can be a demanding exercise of orthopedic medical detection and logical deduction. Each health problem is a new diagnostic jigsaw puzzle for which the pieces must be found and fitted together in a carefully organized manner. Each examination or investigation should have a plan for including or excluding a specific member of a "short list" of suspected conditions. It is always the failure to have such an organized plan or approach that makes the diagnosis of orthopedic health problems so artificially difficult. Certainly, common or customary steps must be followed, but not blind routine or blunderbuss investigations.

Diagnosis purely by comparison with previous cases is reserved for the physician or orthopedic specialist who is very experienced and very accurately remembers the cases, but this combination is not the norm. The entry level physician or orthopedic specialist will come nearer to diagnostic accuracy by progressing logically through the medical investigation paradigm. Despite all this, however, the right approach will never be achieved until one misconception is laid to rest. This misconception is that the exact solution of an orthopedic problem does not matter very much and that such a solution will be of academic interest only, with no useful nonsurgical treatment. Such a view is nonsense. It is true that health science is frustrated in treating motor neuron disease; no cure exists for hereditary ataxia, and no reliable method exists to prevent relapses in disseminated sclerosis. Contrary to many beliefs, these diseases occupy only a small part of the orthopedist's time. Think for a moment of the transformation in the last 30 years in the treatment of cervical spine trauma, intervertebral disc prolapse, carpal tunnel syndrome, and deficiency neuropathies. Think of the influence of physiologic therapeutics in hypersensitivity states and in acute episodes of soft-tissue disease, of the continuing progress of manipulative therapy in certain facets of the migraine headache process, mechanical lower-back disorders, and in trigeminal neuralgia. Consider the advances of chiropractic orthopedics in treating various forms of benign spinal compression. Finally, the solution of an orthopedic problem takes time. A solution cannot be rushed, and the examiner must never allow the approach to be influenced by the exhortations of optimistic colleagues to "just glance at this case while passing" or to "just run over the musculoskeletal system, it won't take 5 minutes." It will, it always does, and so it should.

XV

1 Principles in Assessing Musculoskeletal Disorders, 1 2 Assessing Cardinal Musculoskeletal Symptoms and Signs, 48 3 Cervical Spine, 75 4 Shoulder, 205 5 Elbow, 324 6 Forearm, Wrist, and Hand, 375 7 Thoracic Spine, 467 8 Lumbar Spine, 535 9 Pelvis and Sacroiliac Joint, 699 10 Hip, 765 11 Knee, 843 12 Lower Leg, Ankle, and Foot, 929 13 Malingering, 1004 Glossary of Abbreviations, 1141 Appendix A, 1149 Appendix B, 1151 Answers to Critical Thinking Questions, 1153

xvii

AXIOMS IN ASSESSING MUSCULOSKELETAL DISORDERS Eliciting the patient's history is the quintessential skill in orthopedics. •

An examiner needs to learn about the patient's major

l)I�llllll'II)ll

(,\\\l I t I

ORTHOPEDlC EVALUATlON PROCESS The orthopedic evaluation process has three phases:

pre enting symptoms, the chronology of the disorder.

I. History taking

and its impact on the patient's activities of daily living,

2. Examination

as well as ancillary information that include history

3. Diagnosis

and involvement of other systems. The orthopedic examination is the focal activity in assessing the patient's musculoskeletal complaint. The orthopedic examination process is adapted to the specific needs of the patient's musculoskeletal system, such as inspection, palpation, and observation.

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CLlNlCAL ASSESSMENTS In clinical practice, assessments occur all day, every day, including:

INTRODUCTION Health care providers assess patients every day in clinical practice. Commonly, clinical practice is impossible wiLhoUl structured assessments and tests. Examination procedures appear to be straightforward: results are either positive or negative. However, all assessment and testing in clinical practice is based on the assumption of uncertainty: Does the patient have a disease? The probability of a particular disease can be established only by performing a test or a chain of test.s. The accuracy of a test for detecting a disease or a condi­

I . Elucidating complaints 2. Establishing impact of the complaints 3. Checking the complaint consistency with specific diagnoses 4. Performing a general physical examination 5. Performing special physical examinations 6. Performing laboratory and imaging tests 7. Interpreting test results

8. Formulating a diagnosis 9. Commencing lreaunent 10. Evaluating treatment efficacy

I I . Referring to a specialist, as needed

tion is determined by sensitivity and specificity. A high sensitivity (or a high specificity) does not uffice to make a test lIseful in clinical practice: a test should be as sensitive

dependent on how likely the existence of the disease is

as possible. The sensitivity and specificity of examination

before the procedure is actually conducted. This likelihood

procedures and tesLS can often be found in the literature.

is dependent on the prevalence of the disease.

Sensitivity and specificity are important characteristics of

The decision on whether to perform a new test depends

evidence-based physical assessment procedures but only in

on the resu lt of the previous test. Procedures with the lowest

the context of a specific disease or condition.

burden. risk. and costs for the patient are performed first,

The probability of a disease or condition after having

and those with the highest burden. risk. or costs are reserved

performed a test (Bayes theorem) is dependent on two

for specific patients in which the prior probability is highest.

things: (I) the specificity and sensitivity of the procedure

Examination procedures in the context of a low prior prob­

(test characteristics) and (2) the probability of the disease or

ability of disease is rarely, if ever. informative. The yield of

condition before conducting the procedure. Interpretation of

diagnostic testing will increase the prior probability in the

Bayes' theorem is that the probability of having a disease is

range of approximately 50%. Very experienced clinicians

not only dependent on the lest or examination procedure

intuitively apply these rules and arrange rheir diagnostic

result and the characteristics of the procedure, but is also

process in such a way that the highest possible yield (a

2

CHAPTER

I Principles in Assessing Musculoskeletal Disorders

llRIIIIlJ'1 \lIt t;AM1J I I l

BOX I-I

BAYES THEOREM

PRECIS IN ORTHOPEDIC DIAGNOSIS

Rules of Thumb rationale for use in clinical situations:

I. HistOry 2. Examination

I. Highly sensilive and specific lest, will not perform very well in the clinical context if the

a

priori prob­

3. Determination of disability lPILS): ,F:revcntable causes of disability Independent living

ability is very low,

2, No single diagnostic test exists that tums an a priori risk of disease of less than 10% into a probabil.ity that

hifeslyle SOCial support

makes a clinician sufficiently convinced to establish a diagnosis,

3, lhting is most valuable if the

a

priori probability of

the disease is somewhere in the range of 40% to 60%, 4, Diagnostic tests can turn such a probability into a sufficiently high posttest probability onto which to base further action.

From the moment of the first encounter with a pmient, the examiner is simultaneously observing and examining the movements and mannerisms of the patient. as well as listen­ ing to what is being said, The diagnostic process is complex; the examiner needs to establish the physical issues that are of greatest imponance to the patient (those most disrupting to the activities of daily living) and try to differentiate the anatomic and pathologic aspects of any disease or injury that

OIU 1101'1 \lIt t;AMlIl I 4

might be present.

PRECIS OF PHYSICAl EXAMINATION

The history provides much information about what dif­ ficulties the patient is experiencing and the impact of these

•

Sensitivity and speciticity do not exclusively make a

•

Test results that are considered

diagnostic test as appropriate for clinical use,

normal or abnormal

should always be interpreted in the context of the individual patient. The probability of having a disease is not totally dependent on the test result and the characteristics of the test. The probability of having a disease is also dependent on how prevalent the disease is before the test is actu­ ally conducted, Testing in the context of a low probability of disease is rarely. if ever, informative. •

Highly sophisticated and costly diagnostic techniques may fail

as easily as

simple, cheap,

diagnostic

maneuvers.

difficulties on the patient. Orthopedic examination is essen­ tial to define the structures involved; together. these pro­ cesses allow differentiation of orthopedic disorders into various diagnostic cat.egories (Box I-I).

HISTORY TAKING A carefully elicited history is a most crucial element in onhopedic assessment. An experienced examiner can form an idea of the extent and magnitude simply frol11 the patiem's history. I n the modern era of electronic patient medical record keeping, the examiner has new lools and melhods for not only capturing patient infomlation. but also tracking clinically significant changes. Health care providers arc increa�ingly under pressure to deliver efficient and high-quality care. Irnponant reasons for this pressure arc the ageing population. increasing demands and expectations by patients, rbing medical cOst.l.. and a decrea.l.c of full-time cmployed spccialists. Various innova­

highly probable diagnosis) will be oblained at the lowest

tions in information technology have been proposed to

possible burden, risk, and costs for the patient. Less experi­

enhance the efficiency and quality of health cart.!. Conse­

enced clinicians may learn from experienced colleagues by

quences of these innovations are altered health care pro­

recalling Bayes theorem and implemcming ils principles in

cesses. as well as a redefinition or responsibilities and a

everyday clinical practice. Health care provider� cannot function adequately without

change in workload for caregivers and patients involved in these processes. A health care innovation that is increasingly

physical examination procedures. In the real world, examin­

applied in 1l1:;IIlY medical specialties is telcmedicine (TM).

ers accomplish ciinicul practice appropriately witholll a

TM can be defined as "the use of telecommunications tech­

deJailed knowledge of the principles of tests, However, the

nology for medica,1 diagnostic. monitoring and therapeutic

benefits from physical testing can be easily increased by

purpoSC!\ when distance andlor time scparmcs the partici­

recognizing that Lhese tests do nothing more than increase

pants" (Bcrgholll ct al. 2006).

the probability of a certain condition or diagnosis. Test results are never infallible.

A recent Institute of Medicine (10M) report charactcr­

i/cd increased utilization of advances in health care informa-

CHAPTER I Principles in Assessing Musculoskeletal Disorders

OIU Illll'lllll I;A�Il'1 1 (,

(lRI I I(l I'II) III,A�\lI11 ,

WORKlNG DIAGNOSIS

An integrated electronic patient record (EPR) is essen­ tial for the future of health care services. The EPR assists in the sharing of patient infomlation and helps promote efficiency. The most important resource for the development of the EPR is the patient. Computer systems can take appropriate directed medical histories from patients based on chief com­ plaint.

lion technology (IT) (e.g.. automation of clinical, financial. and administrallve transactions)

as

3

essential 10 improving

quality and efficiency. preventing errors. and enhancing comumcr confidence in the health care sy�lem. Research shows that IT loo h •. such as computerized clinical decision suppon
Essential steps in formulating a working diagnosis include: I. History taking

2. Observation 3. Palpation 4. Orthopedic testing 5. Clinical laboratory and imaging procedures

llR1 IIlll' Illlt l,\"l'l 17

OBSERVATION AND INSPECTION Observation and inspection of the patient occur anytime during the examination or history interview, especially when the patient is not aware of the observation. In this way, the examiner notes: I. Antalgia or deformities of poslure

2. Gait disturbances, especially if the patient needs assistance 3. Spinal synunelry, including prominences or eleva­ tions, flattening or depressions, scoliosis, or abnor­ malities of the anteroposterior curValure 4. Surface scars and wounds

physician usc and acceptance by st3ndardiLing medical prose or creating templates; acceptance is Mill suboptimal (Benamia. Elinson. Zarnke. 2(07). Bun and Hmg found that although 73Ck of physician offices u..,ecl computer.., for billing. only 17% lIsed them for

CHIEF COMPLAINT

mainw1l1ing medical records and 8ift. for ordering prescrip­

Patients who have more than one complaint, such as those

tion.... The proponion of U.S. physicians who have adoptcd

with pain of spinal origin coupled with other body region

electronic health rccords is estimated to be between 20% and

symptoms or extremity problems. must be guided in ranking

25tH (Schleyer. Spallck. Hernandez, 2(07).

the complaints in priority. Although patients occasionally

The complaint history of a musculoskeletal condition

seek attention for stiffness or some other joint-related com­

covers certain essential points. History of trauma helps dif­

plaint, most patients with musculoskcletal conditions do so

ferentiate between acquired ligamentous (soft-tissue) insuf­

for reasons related to pain, especially when it compromises

ficiency, inherent laxity, and past instability. Ii" trauma or

the activities of daily living.

overuse caused t.he problem, the examiner must determinc

The basic elements of examining the patient include

whether the patient stopped the injurious activity immedi­

observation and inspection. palpmion. neurologic evalua­

ately and self-treated the resulting condition.

tion. vilal signs, range-of-motion studies, clinical laboratory

Finding

lraumali/ed joints and adjacent Mructures neglected. decon­

'lUdies. orthopedic tests, and diagnostic imaging.

ditioned. weakened. or atrophied caused by prolonged

Mo ...t examiner� perfonn routine cOll1prehcn�ivc cxal11l1la­

periods of protection is common.

tiom, on patients with even minimal initial chief compl:lint�

An accurate description of the traumatic event. including

(Phelps. Rodriguez. 2005).

the exact position of the part at the moment of injury, is essential. The exact site of the pain is also important. Patients

OBSERVATION AND INSPECTION

often identify pain in one location. such as the hip, but

The first impressions-observations made while taking the

point somewhere else, such as the sacroiliac joint. The more

patient's history-are often the most revealing.

distal the pain is, the morc accurately patients detine its

Reasoning within the�c (pain-based dinical) categories

location.

appears LO be useful in helping providers and patients under-

I

CHAPTER I Principles in Assessing Musculoskeletal Disorders

4

stand and account for c1inicaJ presenwuons of pain. Such

5 questions for an orUmpedic specialist. Once all five ques­

reasoning influences planning of phy.!.ical assessments and

tions are answered, a differential diagnosis can usually be

lreatment (Smart. Doody, 2007).

established (Box 1-2).

A useful approach in the clinical examination of the neu­

A rapid general screening examination suffices initially.

romusculoskeletal system is to seek answers to the Critical

Abnormal joints are subjected to a more focused regional orthopedic examination procedure. The examiner must detennine the presence of active or

ORl lllll'llll( (,A�HlI I X

PAIN-BASED CLINICAL REASONiNG Five main categories of pain-based clinical reasoning are: •

Biomedical (structural-functional source) Psychosocial (perception-interpretation of pain) Pain mechanisms (underlying pathophysiologic factors)

•

Chronicity (temporal aspects of pain) Irritability or severity (degree of pain)

current inHammation. the presence of irreversible joint damage from past. injury or inflammation, and existing mechanical defects. These findings are not mutually exclu­ sive. The distribution of joint involvement is important in reaching a diagnosis. Certain patterns characterize specific disorders. The number of involved joints may also be of diagnostic significance. Learning what exacerbate!> or relieves the symptom pattern is important. Equally important is how long the com­ plaints have existed (Table I-I) . Several other features may be of diagnostic importance. Some of these features produce skin signs or nodules. Exam­ ples include rheumatoid nodules (Fig. I-I), gouty tophi (Fig. 1-2), dermatomyositis (Fig. 1-3), and psoriatic arU"itis (Fig. 1-4).

(lRllltll'l niL (,AMlil I ')

DETERMINING EXTENT OF INJURY

BOX 1-2

Other characteristic features of diagnostic

CR.ITlCAL QJlESTIONS IN OR.THOPEDIC

importance in determining the extent of the disease

PHYSICAL EXAMINATION

or injury: 1. Is involvement symmetric or asymmetric? 2. Are large or small joints affected?

I. Are any joints abnormal'? 2. What is the nature of the abnormality?

3. Is the distribution of the condition peripheral or axial?

3. What is the extent of the involvement'? 4. Are Olher features of diagnostic importance present?

4. Does the condition affect upper versus lower limbs,

5. Do the answers to questions I tJlrough 4 provide sufficient

data?

or vice versa?

fAKlrl·t JOINT PATTERNS IN ORTHOPEDiC/RHEUMATIC DISORDERS

Diagnosis

Symmetry

Number or JOints lnvolved*

Rheumatoid arthritis

Symmetric

M ono-, oli g o-. polyarth rit is

Large/SmaU .Joints

Peripheral! Central Distribution

Upper! Lower Limb

Predilection

Large/sm all

Pe ripheral

Uppe rllow er

MCPs. PIP,. MTPs. DIPs

Ankylosing

Sacroiliac

Cenlral

spondylitis

joints. hip, sh ou lder

Psoriatic arthritis

Asymmetric

PO lyart hri tis

Large/sma ll

Peri pheral

Uppcrllower

DIPs, sacro i li ac

Reactive arthritis

A!iymmctric

01 igoarthri lis/Polyanhri lis

Large

P eriph eral

Lower

Sacroiliac

join ts join L'I. DIPs (toes)

Gou t

As ym me tri c

MonoarthritislOligoarthritis

Large/s ma ll

P eri ph era l

Lower m ore than upper

First MTP, Knee. Hip

DIPs. Distal interphalangeal joints: Mep.\'. mctacarpoph,lIangeal joints: MTP\. mClalarsophalangcills; PIPs. proxirmll interphalangeal joints.

*Monourthritis dellotes inflammation in a single joint. oligoarthritis Jenoles two to four joint1.. lind polyu � 1hrilis

CHAPTER I Principles in Assessing Musculoskeletal Disorders

5

I

FIG. 1-3 Skin and nail fold lesions seen in dermatomyosi­

lis. Patches (A) and periungual edema and nail fold (B). FIG. I-1 A, Rheumatoid nodules. B, Large nodules may

(From Klippel JH. Dicppc PA: Rhe"l/IlllOlog.\; vol 1-2. cd 2, London. 1998.

develop in the olecranon bursa as well as in the subcutane­

Mo!.by.)

ous (issue.

(From Klippel JH. Dieppc PA: Rhelllll(l(% gy. 1'0//-2. ed 2.

London. 1998, Mosby.,

F IG. 1-4 Psorialic anhritis, with swelling of the distal inter­

phalangeal joint and pitting in the adjacent fingernails.

(From

Klippel HI, Dicppc PA: R"elll/llifOlog.\� vol 1·2. cd 2. London. 1998. Mosby.)

PALPATION Palpation is the process of assessing the physical character­ F I G. 1-2 Gouty tophi represent deposits of urate crystals. (From Klippel JH. Dicppc PA: Nlli'1I/1I0to/OKI'. '0'011-2. cd 2. London. 1998. Mo�by.)

istics of joints and contiguous structures by touching or feeling the palienes body. The purpose of palpation is to locate and substantiate areas of tenderness, swelling, and abnormal muscle LOne. Palpmion allows the examiner to identify a localized increase or decrease in surface tempera­

The answers to the Critical 5 questions usually provide

ture and the presence of induration and mass. Palpation is

sufficient information to establish a differential diagnosis.

classically performed with the fingerlips or Wilh the blum

They mu�l. Ir not, the examiner will need 10 retrace each

end of a cotton·lip applicator. However, instruments can be

examination step ullIil a logical and credible diagnosis can

used in percussion (gently tapping with a renex hammer).

be reached.

Wilh vibralion (using a C-128 lUning fork).

6

CHAPTER I Principles in Assessing Musculoskeletal Disorders

() I� I I I () 1'1 I ) I ( (, \ \\ I I I III

SPINAL PALPATION Effective spinal palpation can be accomplished with the patient in the silling or kneeling variants of Adam's position: •

In palpating various structures, the examiner assesses the skin and subcutaneous tissue. Rolling of the skin (Kibler's test) can be perfonned. The examiner observes for surface temperature, hypesthesia, hyper­ hidrosis, and muscle splinting.

•

Tenderness of muscles and tendons and their attach­ ments is assessed, in both the anatomic resting posi­ tion and through various ranges of motion.

FIG. 1-5 From top to bottom, the Greenfield Babinski reflex hammer, Taylor reflex hammer, Buck's neurologic hammer, and Babinski reflex hammer.

Tendon sheaths and bursae are palpated for thickness, crepitus (especially silken versus snowball crepitus), and tenderness. The joints are palpated for all anatomic compo­ nents to include bones, capsule, ligaments, any specialized structures, swelling. a change of shape or defornlity, posi­ tional deficits, and tenderness. Palpation also aids in estab­ lishing the integrity of local circulation. Using a stethoscope or similar instrument improves crep­ itation grading by enhancing the auditory component in con­ junction with palpation and is especially useful with patients who display mild or moderate crepitation grade subclassifi­ cations.

NEUROLOGIC EVALUATION The neurologic evaluation involves locating the lesion; testing deep tendon, superficial, and pathologic reftexes (Fig. 1-5); testing cranial nerve and brainstem function; measuring body parts (mensuration); grading muscular strength;

and

testing

the

gross

sensory

modalities

(Fig. 1-6). Cerebral dysfunction is determined during the consulta­ lion by nOling the patient's mannerisms and orientation to time, space, and body pans (usually noted in the chan as oriented x3). Funher evaluations of lesions in the cerebrum require advanced imaging procedures and electroneurodiag­ nos tie testing. Cerebellar

lesions

are

characterized

by

repeated

cogwheel-type muscle actions while the patient's eyes arc open. The posterior columns of the spinal cord are the source

FiG. 1-6 Single-tipped cotton applicators are both eco­ nomical and versatile and can be used in the following set­ tings: in emergency rooms, examining rooms, outpatient clinics, and laboratories and on dressing cans. Sterile tongue depressors are usually made from white Birchwood that is '/..-inch thick. These tongue depressors are evenly cut and highly polished for smooth and clean edges, ends, and sur­ faces.

of the dy function when repeated muscle actions are smooth

sign in the second edition of his Lehrbuch der Nen1en·

and occur while the patient's eyes arc open. However, these

kmnkheiten des Metlsc/len (1851). After discussing a reduc­

same muscular actions cannot be repeated as smoothly with

tion of the motor power in the lower extremities. Romberg

the eyes closed. Brainstem dysfunction is discerned through

stales, ··The individual keeps his eyes on his feet to prevent

testing of the cranial nerves. The type and quality of paraly­

his movements from becoming still morc unsteady. If he is

sis, reflexes, muscle lone, clonus. atrophy, fasciculation, and

ordered to close his eyes while in the erect posture. he at

reaclions of degeneration can differentiate spinal cord lesions

once commences to tolter. The insecurity of his gait also

from lower motor neuron disorders.

exhibits itself more in the dark·' (Romberg. 1853). Romberg

Moritz Heinrich Romberg (1795-1873), the founder of

thought lhe sign was pathognomonic of tabes dorsalis (Cole.

clinical neurology in Germany. described his now famous

Michael. Roben, 2(03).

7

CHAPTER I Principles in Assessing Musculoskeletal Disorders

(}1�111(} 1 'lll l ( (,\\11 I I I I

(liZ I II(1 1' I Il l( (, \ \\ I I I I 1

DEEP-TENDON REFLEXES

CRANIAL NERVES AND BASIC FUNCTION

I . Scapulohumeml C5-C6 2. Biceps C5-C6

I:

Smell

3. Radial C5-C6

II:

Vision

4. Triceps C7-C8

IJI :

Light accommodation

5. Wrist C7-C8

I I I, IV, V I :

Eye movement

6. Ulnar C8-T I

v:

Sensation (wink)

7. Patellar L2-L4

VII:

Facial muscle (taste)

8. Hamstring L4-S I

VIII:

Auditory (balance)

9. Achilles 51-52

IX:

Taste (gag)

x:

Voice (swallow)

XI:

Shoulder (shrug)

XII:

Tongue (motor)

tlIZIII(lI'l l l l ( (,\\111 1 1'

SU PERFICIAL REFLEXES J . Corneal IJ I, V

lll� I I Illl'l 111(

2. Upper abdominal 17-T9

COMMONLY ACCEPTED DEEP-TENDON REFLEX GRADING SCHEME

3. Lower abdominal T I (}..T 12 4. Cremasteric 5. Gluteal 6. Plantar

(,\ \I I I I I,

0 = Absent

7. T l 2-L2

I

8. L4-LS

2 = Average

9. S I -S2

2+

=

=

Diminished or hyporeactive Slightly exaggerated (hyperreactive)

3 = Exaggerated (hyperreactive) 4

=

Associated with myoclonus

tl l Zllltl l'lllIl (,\\11 I I 1\

PATHOLOGIC REFLEXES J. Hoffmann

2. Babinski 3. Chaddock 4. Oppenheim 5. Bechterew-Mendel 6. Rossohmo 7. Gordon 8. Schaeffer

comraction in the opposite upper or lower extremities (Jendrassik maneuver). lendrassik faci litation is different between age groups and weight bearing versus non-weight bearing. Young patients often demonstrate a significant lendrassik facilita· tion effect in the standing position, whereas. very often, no difference is seen in the elderly patients. Mensuration of body parts is used to determine atrophy and functional and anatomic abnormalities (Fig. J.7). Grip strength testing examines the functjon of the ulnar nerve and can help differentiate myoneural dysfunction from malingering activity ( Fig. \·8). The examiner can use

Deep·tendon renexes help the examiner locate the lower

three methods of grip strength evaluation (one trial, the

motor neuron lesion and differentiate it from an upper motor

mean of three trials. and the best of three trials) when using

neuron lesion.

the Jamar dynamometer. Two different sLHtic grip tests are

Superficial renexes differentiate lower motor neuron lesions from upper motor neuron lesions. Pathologic renexes determine the presence of upper molor neuron lesions. Cranial nerve function is dClcmlined by testing brainslcm activity. On occasion, eliciting a particular renex is difficult; dis·

the five-rung test and the maximal static grip test. Thc five-rung tc�t involve� perrorming one repetition (trial) with the handle or the Jamar dynamometer on each of the rive handle sCllings. whereas the ma"imal static grip tc�t involves performing three repetitions with the handle on either lhe second or third sCILing (Fess. 1992: Joughin el 31.

1993).

lrJclion techniques are helpful in such situations. If Jcss­

The main difference between the static grip test and the

than-nannal reactivity is encountered in the upper or lower

rapid exchange grip ( REG) maneuver is the duration of the

extremities, the patient is directed to perfonn an isometric

muscular contraction during gripping.

I

8

CHAPTER I Principles in Assessing Musculoskeletal Disorders

FIG. I-750ft linen tape is marked in inches on one side

and centimeters on Ihe other. The fast-read ing clinical ther­ mometer.

FIG. 1-8 Manin Vigorimetcr aneroid dynamomeler (left)

and Jamar hand grasp mechanical five-position dynamom­ eter (right). lll: I l Illl'l l ll(

(, \\\1, I I 1(,

COMMON AREAS OF MENSURATION I. Excursion

of

the

chesl

during

inspiralion

tll:!IILlI'1I11( (,\\\1'1117 and

expiration 2. Upper-extremity circumference (brachium and ante­

brachium); measured in the noncontracled and con­ tracted state 3. Lower-extremity circumferences ( thigh and calf); measured in the noncontracted and contracted states 4. Leg length (measured standing versus supine or prone); differentiates a functional shan leg from an anatomic shan leg

CERVICAL SPINE EXTRINSIC MUSCULATURE WITH SPECIFIC NERVE ROOTS NOTED I. Deltoid (CS)

2. Biceps (C6) 3. Wrist extensors (C6) 4. Triceps (C7) 5. Wrist flexors (C7)

6. Finger extensors (C7) 7. Finger flexors (C8) 8. Finger abductors (T1)

During lhe stalic grip lcst, the duration of muscular contrac­ tion of each hand grip is 3 10 5 seconds. whereas during Lhe REG maneuver. lhe hands alternate rapidly. resulting in a �hortcr duration of each grip (Ics� than 1 .5 sccond� per grip)

2000). A positil'e REG

(Taylor c( al.

test i!
arc greater than static grip scores. which indicates a l'!oub· maximal or a feigned effort. A lIeglll;\'e REG test is obtained when slatic grip scores arc greater than REG scores. indical­

LlI:!IILlI'1 \ll( (,\\\tI1 11K

THORACOLUMBAR EXTRINSIC MUSCULATURE AND SPECIFIC ASSOCIATED NERVE ROOT LEVElS

ing a maximal or a sincere eITon (Shechlman. Taylor.

I. Hip flexors (L2-L3)

2002).

2. Knee extensors (L3-L4)

Cervical intrinsic muscle lesling relates to the cervical spine functions of flexion, extension, lateral flexion, and rotation. Thoracolumbar imrinsic muscle function is associated with trunk flexion. extension. lateral flexion. and rotation.

3. Ankle extensors (L4--LS) 4. Hip extensors (L4--LS) 5. Knee nexors (L5-5 I)

6. Ankle flexors ( 5I-52)

CHAPTER I Principles in Assessing Musculoskeletal Disorders

9

FIG. 1-9 From top to bottom, the Wanenberg pinwheel:

Boley two-point discrimination gauge: von Frey ancsthe­ ,imctcr: Buck camel hair brush. pin. and neurologic hammer:

FIG. J-IO Aluminum alloy tuning forks. available in C-64.

and

C- 1 28. C-256. C-5 1 2. C- 1 024. C-2048. and C-4096 vibra­

u

Serol China marker.

tions. The lower-frequency luning forks are the usual choices for bone vibration conduction studies. Testing of the gross sensory modalities allows for evalu­ ation of the derl1latomcs involved in superficial and deep sensations and proprioception (Fig. 1 -9). The superficial scnsation� include light touch. pain. and temperature. Light touch is mediated by the dorsal columns

C6

C4

C4

and easily examined with a colton ball. Pilin receptors are mediated by the lateral spinothalamic tracts and are tested by a pinprick and hot and cold temperatures. Temperature. or thermal scnsalian. mediated by the dorsal columns is tested with warm ( not hot) and cool (not cold) tempera­ tures. The deep sensat ions arc vibration and deep pressure per­ ception. The do"al columns of the spinal cord (Fig. 1 - 1 0) mediate vibration. tested with a C-128 or lower-rrequency luning rork. Deep pressure is ICMcd by squeezing any mus­ cular part of the body and is mediated in the dorsal columns. Proprioception. or joint po\ition �en\e. i� mediated by the dorsal columns and can be tc;ted by having the patient point to a particular part of the body while keeping the eyes closed.

PAIN AND PATTERNS OF PAIN Pain thal arises with activity and decreases with rest is l i kely to ha\'c mechan ical causc�. The pain may be position depcn­

C7 DERMATOMES

MYOTOMES

SCLEROTOMES

dent; most case\ of mechanical spinal pain have both a

F I G. 1-1 1 Primary pallern� of pain originating in the �pioe:

provocative and palli:.ni\'e arc of l11otioo.

derma tomes. myotol11e�. and sclerotomes. Demonstrated for

Spinal pain is the most difficult to differentially diagnose.

lhe right upper extremity. (From Saidofl' DC. McDonough A: Cr;lj·

The three primary patterns are dermatogenous. myogenous.

all 1H.lIl/l\'(/n ill therapf'lIlic in/(·n'f''''i(JI/.�, IIpper f'\lI"('milies, 51 Louis.

and sclcratogenous (Fig. I - I I).

1997. Moshy,)

10

CHAPTER I Principles i n Assessing Musculoskeletal Disorders A dermatome is the area of sensation atlributed to a par­

VITAL SIGNS

ticular nerve root level. Dermatomal pain is often described as sharp. stabbing, and well demarcated. It may result from

Vital signs include the brachial blood pressure, peripheral

herniated discs, stretch injuries, or tumors.

pulse rate, respiration rate, height. weight, and vital capac­

Pain referral within muscular or fascial tissue is myoge­ nous pnin. Areas known as (rigger poiflls refer pain 10 distant

stethoscopes, spirometers, scales, tape measures. and blood

sites. Trigger points are evident in patients with myofascial

pressure cuffs (Fig. 1 - 1 4).

ity. The instrumentation for these measurements includes

pain syndromes. Specific sites of tenderness that do not result from referred pain are termed tellder poillfs. Tender points develop in patients wilh varied sort-tissue, rheumatic.

R ANGE OF MOTION

and collagen-vascular disorders, such as systemic lupus ery­

Of a l l the orthopedic tests that an examiner can perform on

thematosus and fibromyalgia.

a patient, none is more crucial than range-of-motion (ROM)

Pain referred from somatic structures such as cartil age.

testing of the affected articulation. Range of motion testing

l igament, joint capsule, or bone often does not follow der­

often reveals the origin of the patient's discomfort. because

matome patterns, as does nerve root pain. This pain is known

movement may reproduce the pain. The patient is examined

as sclera/agel/otis pain. Patients may describe this type of

symmetrically for aClive ROM of all the joints that may be

pain as dull, achy, diffuse, and difficult to pinpoint. Sclera­ logenous pain is one of the morc common spinal pain

involved in the dysfunction or injury (Fig. 1 - 1 5). The exam­

patterns.

iner then takes the patient through passi,'e ROM, evaluating the e/ldleel (i.e., spri nginess) of the affected joint.

Local Versus Referred Pain

be tested for ROM. ROM is assessed bilaterally by compar­

Any movable joint in the body, including the spine. can

Patients with referred pain often point to large generalized

ing findings with a given set of normal values. Normal

areas. whereas patients with localized lesions can be more

values can vary dramatically, depending on the reference

specific. A patient complaining of unrelenting spinal pain.

source used, An examiner must exercise careful professional

demonstrating ful l , pain-free range of motion presents a

judgment to ensure objectivity. Any ROM that is less than

problem. The patient likely has either viscerosomatic pain,

normal may indicale or be the result of muscle spasm, sprain.

which mandates further diagnostic te ting, or pain resulting

strain. joint subluxation, general anhrilic degeneration. post­

from a psychosocial cause. If referred pain from a diseased

surgical condition. or obesity.

organ system is mimicking a local orthopedic problem, the examiner should not hesitate to order appropriate tests.

Recenll),. Childs and colleagues found in a clinical trial that spinal stiffness was one of five

Every effort should be made to objectify the patient's

predictors of which patients

wilh low back pain would respond favorably to a particular

report of pain and discomfort. Measurement instruments

physical lherapy manipulation. In their slUdy. they used a

such as the visual analog scale (Fig. 1 - 12) are reliable and

manual assessment to grade the relative stiffness of the L4�

valid for examining a patient's pain. The McGill Short

L5 and L5-S I joints. A palpable difference in the �tiffncs�

Form Questionnaire (Fig. 1 - 13) is helpful for pain mea­

at these joints helped predict which patients were more

surement in a clinical setting.

likely

to respond favorably to manipulative therapy. Manual

Pain is associated with a very high disability rate, sig­

palpation methods have been notoriousl), difficult to quan­

nificantly affecting the three domains evaluated by the Sheehan Disability Scale, which assesses patient functional

liry and suffer from a lack of objectivity. Interexaminer

impairment in three domains: work impairment. social impairment. and impainnent of family l i fe or home respon­ sibilities. Two further items gather data on patient-perceived stress and social support.

OINT END-FEEL CATEGORIES In passive joint motion assessment, the end-feel is important. The accepted end-feel categories are: Bone-to-bone: an abrupt halt to movement when two hard surfaces meet

-

Capsular end-feel: a lealhery resistance to movement

On Ihe hoe below.

with a slight amount of give at the very end of the

place a mark mdlcalmg your pam le\el

range Springy block: a usually pathologic end-feel, gener­ ally representing an intraarticular displacement Tissue approximation: no further joint movement

10

o

F IG. 1 - 12 Visual analog scale for objective pain measure­ ment.

(From Mulone TR. McPoil TG. Nit7. AJ: Orthopedic mill sports

p/n·Jical ,lteropy. cd 3. SI Loub. 1 997. Mo:.b).)

available •

Empty feel : usually pathologic

1 1__

CHAPTER I Principles in Assessing Musculoskeletal D isorders

Check only one item for each category to describe your pain today.

4

3

2 1 Flickering

1 Jumping

2 Quivering

1 Pricking

2 Flashing

t Sharp

2 Boring

2 Cutting

3 Pulsing

3 Shooting

3 Drilling

3 Lacerating

4 Throbbing

4 Stabbing

5 Beating

5 Lancinating

6 Pounding 5

6

7

8

1 Pinching

1 Tugging

1 Hot

1 Tingling

2 Pressing

2 Pulling

2 Burning

2 Itchy

3 Gnawing

3 Wrenching

4 Cramping

3 Scalding

3 Smarting

4 Saaring

4 Stinging

5 Crushing 9

10

11

12

1 Dull

1 Tender

1 Tiring

1 Sickening

2 Sore

2 Taut

2 Exhausting

2 Suffocating

3 Hurting

3 Rasping

4 Aching

4 Splitting

5 Heavy 13

14

15

16

1 Feartul

1 Punishing

1 Wretched

1 Annoying

2 Frightlul

2 Grueling

2 Blinding

2 Troublesome

3 Terrifying

3 Cruel

3 Miserable

4 Vicious

4 Intense

5 Killing

5 Unbearable

18

17

19

20

1 Spreading

1 Tight

1 Cool

1 Nagging

2 Radiating

2 Numb

2 Cold

2 Nauseating

3 Penetrating

3 Drawing

3 Freezing

3 Agonizing

4 Piercing

4 Squeezing

4 Dreadful

5 Tearing

5 Torturing

F I G . 1 - 1 3 McGill Short Form Pain QuesLionnaire.

(From Malone TR. McPoil TG . Nitl AJ: Ortho·

pe(Jic (Il1d sports phYJiC(l/ ther(/I)): ed 3. S( Louis, 1 997. Mosby: rrom Mel7.acker R: The McGill Pain Quc�tion· naire: major propenics and scoring methods. Pain 1:277. 1975.)

reliability or chiropractic palpation of segmental fixation is

joint and periarticular structures through their respective

typically poor to 5!light. Inlracxaminer reliability iii usually

arcs and end-range motions. Stability lesting involves stress­

rated :,omcwhat beuer. in the moderate to !o.ubMantial range.

ing ligamentous tissues and joint capsules (Fig. 1 - 1 6).

depending on the experience of the exami ner. Similarly. Miffness mcasures commonly used by physical therapi5!ts show liulc interex3miner agreement. Childs and colleagues

MUSCULAR ASSESSMENT

were able to achicve acceptable reliability in the lumbar

Movement resLrictions in a joint's passive ROM are nOI

mobility tClit they used by reducing the assc:,sment to three

exclusively articular. Muscular hypertonicity limits passive

level>: ( I ) hypomobilc. (Owen, C(

(2)

normal. and (3) hypcrmobilc

.1. 2(07).

movement and often occurs in association with articular lesions Uoint dysfunction). Chronic joint problems are also commonly associated with myofascilis.

STABILITY TESTING Because clinical examination reveals the degree of ligamen­

CLINICAL L ABORATORY

tous or joint sprain, the examiner must be able to Lest accu­

For the examiner concemed with musculoskeletal disorders.

rately for joint instability (Table 1 -2). Stability testing moves

differential diagnosb becomes a chal lenge. Complete blood

I

12

CHAPTER I Principles i n Assessing Musculoskeletal Disorders

F I G . 1 - 1 5 From top to bottom, stainless steel goniometer

measures movement or joints rrom 0 to 180 degrees. Bubble inclinometers measure the angular motion from 0 to 360 degrees. Finger or small joint goniometer measures the movement or interphalangeal joints or fingers and toes. Plastic radiographic goniometer provides standard orthope­ F IG . 1 - 1 4 Wall-mounted sphygmomanometer and stetho­

dic measurements of joint mOl ion and neutral position.

scope (Ie[t). Portable blood pressure curr (top right). Most significant heart sounds occur in the frequency range of 200 to 500 Hz. bUl human auditory sensitivity is l i m i ted to those

,ounds below 1000 Hz. Stethoscopes ampliry the lower rre­ quencies (bollo/ll right).

lAB l 1 1-2 I N J U RED LIGAMENT REst DUAL FUNCTtON

Extent of Failure

Sprain

Mi nimal

Finol degree

Damage·

Joint Motion, Subluxation

Residual Strength

Residual Functional Length

Residual functional Capacity

Less thun onc lhird of

None

RClaincd or

Nonnal

Retained

Increased. still within

Marked

fibers failed:

slightly

includes Illost

decreased

sprains with few to

some fibers failed. Microlcars also exist.

Partial

Second degree

One-third to two-

In geneml. minimal

Marked

lhirds ligament

or no increased

decrease.

functiomll range

damage; significant

motion.

At risk for

but may later act

requires

damage. but pans

Remaining fibers

complete

as

healing to

of the ligament are

in ligament re�ist

failure

sti l l functional .

openi ng.

Microtcars may exist.

Complete

Third degree

More than two-thirds

Depcnw. on

!>CCondary

continuity remains

re\lrainlS

Conti nui ty lost and gross separation

rather than subtle

regai n

control of joint

function

motions

to complete failure: In pan.

a check rein

compromise:

Little to none

Lost

None

Lost

Depcnd� on

Severely

compromised or lost

Lost

.!.econdary restrai nts

between fibers ·E�limate of damnge i� often difficult: however. the different I) pc.. li"led can u,uall) be diffcrentiated. NOle: Antcrior IInci po..tcrior crucimc IC:lr.. commonly c:tiSI with liule 10 no

.Ihnonnlll

laxilY. Thc c:taminalion for medial and Imeral 1igamentou<; injury is u..ually more :lecumte.

From Fcagin JA. edilor: Th(' ("rllcia/ ligaftlenl.\. New York. 1988. Chun:hill Li"ing�tonc.

CHAPTER I Principles in Assessing Musculoskeletal Disorders

13

FIG. 1-16 Lachman (eM of the anterior crucialc l igament. (From Scuderi GR. McCann PD. Bruno PJ: SWJrI\'

medicine: (Jrind/,Ies ofprimary C(l�.

51 Louis. 1 997. Mosby.)

Ll I�I II LlI' I I) I ( (, \\\l I I _'tl

LA BORATORY RESULTS INTERPRETATIONS

RESISTED MUSCLE MOVEMENT In assessing muscle tissue, resisted movements are the most revealing. Standard interpretations of

For laboratory testing in orthopedic evaluations,

resisted muscle tesling movements include:

results interpretation errors usually Involve one or

Painful and strong is equated with a m i nor lesion of

four areas:

muscle or tendon.

False-positive results

Painful and weak equates with a major lesion of the

False-negative results Measurcmcnt error

muscle or tendon. Painless and weak equates with neurologic injury or complete rupture of the muscular auachment.

•

Differences in groups of patients compared with indi­ vidual patients

Painless and strong is normaL

and urine tests can help determine a diagnosis. Diseases of the heart. liver. kidney. pancreas. and prostate can mimic back pain of spinal origin. Mo" laboratory te;ting has l imited utility for orthopedic diagnosis (Table

INDIVIDUAL BLOOD AND URINE TESTS Acid Phosphates

1 -3)_ As an example, in rheumatoid

Dietary deficiencies in phosphorus arc rare but may be seen

arthritis, the diagnosis is often established from the history

with alcoholism and malnutrition_ Low levels of phosphorus

and physical examination; for systemic lupus erythemato­

(hypophosphatemia) may also be caused by or associated

sus, from the laboratory test antinuclear antibody (ANA);

with:

for gout, from a synovial nuid examination; and for anky�

Hypercalcemia (high levels of calcium), especially as

losing spondylitis, from a radiograph. In common disorders

a result of hyperparathyroidism

such as osteoarthritis. fibromyalgia, or muscular strains and

Overuse of diuretics (drugs that encourage urination)

sprains. essentially no diagnostic role exists for laboratory

Severe burns

tests except to exclude other diagnostic possibilities.

Diabctic ketoacidosis ( after treatment)

The simplest orthopedic screen includes rheumatoid

Hypothyroidism

arthritis factor. ANA, and uric acid, although more elaborate

Hypokalemia (low levels of potassium)

screens arc available, which may include erythrocyte sedi­

Chronic antacid use

mentation rate. C-reactive protein. antislreptolysin-O liter.

Rickets and osteomalacia (caused by vitamin-D defi­

protein clectrophore�is. quantitative immunoglobulins. and

ciencies)

ANA subsets such as anti-Ro and anti-LA. anti-Sm. and anticentromcre antibodics.

Higher-than-nom,,1 levels of phosphorus (hyperphos­ phatemia) may be caused by or associated with:

14

CHAPTER I Principles in Assessing Musculoskeletal Disorders

TAIlI

F Ll

LABORATORY STUDIES USEFUL I N DIAGNOSING

low BACK SYNDROMES

Test

Measurement

Low Back Implication

Complete blood count

A measure of volume of circulating red

May be diminished in systemic diseases (e.g.. neoplasm)

blood cells

Hematocrit hemoglobin White blood count and differential

and in chronic spinal infections. Total white blood cell and shifts in differential Illay be

Amount and type of circulating white blood cells

prescnt in spinal infections or occasionally in spondyJoarthropalhics.

Sedimentation rate

NonspecifiC test of inHammation

Increased in spinal infections. may be increased in

Chemistry

A measure of circulating calcium and

Calcium is elevated in hyperp.trathyroidism, may be

neoplasms and spondylo3nhropalhies. elevated with primary and secondary osseous tumors.

phosphorus

Calcium

alterations in the distribution of calcium and phosphorus

Phosphoru�

accompany many metabolic disorder!\: but arc norma.l in osteoporosis. Enzyme associated with bone rannalian;

Alkaline pho�phi1tase

May be elevated in primary or secondary osseous neoplasllls.

therefore: elevation implies increased bone formalion. An enzyme associated with tumors

Acid phosphatase

Increased in prostatic tumors.

metastatic to bonc Serum proteins (albumin globulin protein electrophoresis) protcin HLA·B27 antigen

Measurement of amount and type

Elevations of one fraction of globulin are associated with

circulating

multiple myeloma.

A circulating antigen

Usually individuals with spondyloarthropaLhies arc HLA· 827 positive. NOle 6·8% of men have this antigen and therefore its presence is not confinnaLory of a spondyloarthropathy.

fiLA. Human leukocyte antigen. Adaptcd from Pope ML: OCl"II{J(J/;OIUll low back paill. asseSSIllt'/It, IY'I!(I/f1U.'f/I (lnd prcl'elll{(}I/. SI Louis. 1991, Mosby.

•

Kidney failure

Then the amylase values will return to normal in a few days.

Hypoparathyroidism (underactive parathyroid gland)

In chronic pancreatitis, amylase levels will initially be mod­

Diabetic ketoacidosis (when first seen)

erately elevated bul often decrease over time with progres­

Phosphate supplementation

sive pancreas damage. Amylase levels may also be significantly increased in

Alkaline Phosphatase

patients with pancreatic duct obstruction. cancer of the pan­

Increased serum alkaline phosphatase is seen in states of

creas, and gallbladder allacks. Urine and blood amylase

increased osteoblaSlic activity (hyperparathyroidism, osteo­

levels may also be elevated wilh a variety of other condi­

malacia. primary and mctastatic neoplasms), hepatobiliary

tions, such as ovarian cancer, lung cancer, tubal pregnancy,

diseases charaClCriL.ed by some degree of inlra- or extrahe­

mumps, intestinal obstruction, or perforated ulcer, but

patic cholestasis. and in sepsis. chronic inHammatory bowel

amylase tests are not generally used to diagnose or Illonilor

disease, and thyrotoxicosis. Isoenzyme determination may

these disorders. Decreased blood and urine amylase levels

help detennine the organ or tissue responsible for an alkaline

may indicate permanent damage to the amylase-producing

phosphatase elevation.

cells in the pancreas. Increased blood amylase levels with

Decreased serum alkaline phosphatase may not be clini­

normal to low urine amylase levels may indicate decreased

cally significant. However, decreased serum levels have

kidney function or the presence of a macroamylase. a benign

been observed in hypothyroidism. scurvy. kwashiorkor.

complex of amylase and other proteins that accumulates in

achondroplastic dwarfism, deposition of radioactive materi­

the blood.

als in bone, and in the rare genetic condition hypophospha­

Given that reference values for amylase vary from labo­ ratory to laboratory, depending on the test method used, no

tasia.

universally accepted numberexisls that can be called nornlal

A mylase

or high.

In acute pancreatitis, amylase in the blood increases (often to four to six times higher than the highest reference value,

limit of normal). The

Anti-Nuclear A ntibody

increase

Anti-nuclear antibody (ANA) tests are performed using dif­

occurs within 12 hours of injury to the pancreas and gener­

ferent assays (indirect immunoHuorescence microscopy or

ally remains elevated until the cause is successfully treated.

by enzyme linked immunoabsorbent assay). and results are

sometimes called the upper

CHAPTER I Principles in Assessing Musculoskeletal Disorders

15

reported as a liler with a particular type o f immunofluores­

the diffuse form is associated with autoantibodies to the

cence pattern (when positive). Low-level titers are consid­

anti-ScI-70.

ered negative, whereas increased lilers, such as I : 320, are

A positive result on the ANA may also show up in

positive and indicate an elevated concentration of ANAs. ANA shows up on indirect immunofluorescence as fluo­

patients with Raynaud disease. rheumatoid arthritis. der­ matomyosilis, mixed connective tissue disease. and other

rescent patterns in cells that arc fixed to a slide that is

autoimmune conditions.

evaluated under a microscope. Different patterns are associ­

Because symptoms may come and go. months or years

ated with a variety of autoimmune disorders. Some of the

may be required to show a pattent that might suggest SLE

morc common patlems include:

or any of the other autoimmune diseases.

Homogenous (diffuse)-associated with systemic lupus erythematosus

(SLE)

and

mixed

connective

tissue

disease

necessary: however. because of the episodic nature of auto­

Speckled-associated

with

sclerodemta. polymyositis.

SLE.

Sjogren syndrome.

rheumatoid arthritis. and

mixed connective tissue disease Nucleolar-associated

with

scleroderma

immune diseases. repeating the ANA test at a future date may be worthwhile. Aside from rare cases. further autoantibody (subset)

and

poly­

myositis

testing is not necessary if a patient has a negative ANA result.

Outline pattern (peripheraJ)-associated with SLE An example of a positive resul t might be positive a/

J : 320 ,Ii/wioll

A negative ANA result makes SLE an unlikely diagnosis. Immediately repeating a negative ANA test is not usually

",i,h a homoge"ous pallem.

Antislrepto(ysin-O Titer Antistreptolysin-O ( A SO) titer test results can be reported

A positive ANA test result may suggest an autoimmune

in several different ways: however. the interpretation is gen­

disease, but further specific testing is required to assist in

erally the same: The higher the result is. the more antibody

making a final diagnosis. ANA test results can be positive

that is present in the blood (unless a titer is perfonned. which

in people without any known autoimmune disease. Although

is a ratio and therefore is interpreted differently).

this finding is not common. the frequency of a false positive ANA result increases as people get older. Approximately 95% of patients with SLE have a positive

The ASO antibody is either absent or present in very low concentrations in patients who have not had a recent streptococcal (strep) infection. Antibodies are produced

ANA test result. If a patient also has symptoms of SLE. such

approximately a week to a month after the initial slrep infec­

as anhritis. a rash. and autoimmune thrombocytopenia. then

tion. ASO levels peak at approximately 4 to 6 weeks after

the patient probably has SLE. In cases such as these. a

the illness and then taper off but may remain at detectible

positive ANA result can be useful to support the SLE diag­

levels for several months after the strep infection has

nosis. Two subset tests for specific types of autoantibodies.

resolved.

such as anti-dsDNA and anti-Sm. may be ordered to help confimt that the condition is SLE. A positive ANA can also mean that the patient has drug­ induced lUpus. This condition is associated with the devel­

If the test is negative. or if ASO is present in very low concentrations. then the patient 1110St likely has not had a recent strep infection. especially if a sample taken 1 0 to 1 4 days later is also negative or minimal.

opment of aUloanlibodies to histones, which are water-soluble

If the ASO level is high or is rising. then a recent strep

proteins rich in the amino acids lysine and arginine. An anti·

infection has likely occurred. ASO levels that are initially

histone test may be ordered to support the diagnosis of

high and then decline suggest that an infection has occurred

drug-induced lupus.

and may be resolving.

Other conditions in which a positive ANA test result may be seen include:

The ASO test does not predict whether complications will occur after a strep infection, nor do they predict the

Sjogren syndrome: Between 40% and 70% of patients

severity of the disease. If symptoms of rheumatic fever or

with this condition have a positive ANA test result.

glomerulonephritis are present, an elevated ASO level may

Even though this finding supports the diagnosis, a

be used to confirm the diagnosis.

negative result does not rule it out. The examiner may want to test for two subsets of ANA: anti-SS-A (Ro) and

Bence-Jones Protein

anti-SS-B (La). The frequency of autoantibodies to

A Bence-Jones protein is a monoclonal globulin protein

SSA in patients with SjOgren syndrome can be 90% or

found in the blood or urine. The isolated finding of a Bence­

greater.

Jones protein is known as monoclonal gammopathy of

Scleroderma: Approximately 60% to 90% of patients

uncertain significance. Finding this protein in the context of

with scleroderma have a positive ANA finding. In patients

end-organ manifestations such as renal failure, lytic bone

who may have this condition. ANA subset tests can help

disease. or anemia. or large numbers of plasma cells in the

distinguish two forms of the disease. l imited versus

bone marrow of patients can be diagnostic of multiple

diffuse. The diffuse form is more severe. Limited disease

myeloma.

is most closely associaled with the anticentromere patlem

The proteins are antibody immunoglobulin-free light

of ANA staining (and the anticentromere test), whereas

chains (paraproteins) and are produced by neoplastic plasma

16

C HAPTER I Principles i n Assessing M usculoskelelal Disorders

cells. The lighl chains can be delecled by healing or eleclro­

Calcium

phoresis of concentrated urine. Light chains precipitate

A nonnal calcium result with other nom13l laboratory results

when heated 10 50· 10 60· C and re-dissolve aI 90· 10 100·

means lhal Ihe patient has no problems with calcium melab·

C. These tests arc essential in patients who may bave Bence­

olism (use by the body).

Jones proteins in their urine because these proteins do not

Because approximately one half of the calcium in Ihe

react with the reagents normally used in urinalysis dipsticks.

blood is bound by albumin (a prolein). Ihese IwO lesls are

This circumstance lead� to false-negative results in people

usually ordered logelher. Calcium values musl be inlerpreled

with Bence-Jones proteins in their urine undergoing stan­

in combination with albumin 10 delenlline if the calcium

dard urinaly�is. Various rarer conditions can produce Bence­

concentration of serum is appropriate. As albumin level�

Jones proteins. such as Waldenstrom macroglobulinemia

rise, calcium rises as well. and vice versa.

and other mal ignancies.

Bilirubin

A high calcium level is called hypercalcemia, requiring trearment for the underlying condition. Hypercalcemia is usually caused by:

VeM.'boT/u

Hyperparathyroidism

Excessive bilirubin kills developing brain cells in infanls

funclion): This condilion is usually caused by a benign

( i ncrease

in

paralhyroid gland

and may cause mental retardation. physical abnonnalities,

lumor on Ihe paralhyroid gland. This fonn of hypercal­

or blindness. Bilirubin in newborns must not become 100

cemia is usually mild and can be present for many years

high. When Ihe level of bilirubin is above a crilical lhresh­

before being nOliced.

old, special treatments arc initiated to lower it. An excessive

Cancer: Cancer can cause hypercalccmia when it �preads

bilirubin level may resull from Ihe breakdown of red blood

to the bones, which releases calcium into the blood. or

cells ( R BCs) caused by Rh blood Iyping incompatibililY.

when cancer causes a hormone similar to parathyroid

(The mOlher is Rh negalive I Rh-I. lhe father is Rh posilive

hormone to increase calcium levels.

I Rh+l. and Ihe felUs is Rh+: Ihe mOlher develops antibodies

Olher causes of hypercalcemia include:

again;! Ihe newbom's RBCs. which are destroyed.)

Hyperthyroidism Sarcoidosis

Idl///.\ alld Childrell

Tuberculosis

Bi lirubin level� can be used (0 idcIHify liver damage or

Bone break!>. combined with bed rest or not moving

disease or to monitor the progression of jaundice. A conju­

for a long periods

gated bilirubin that is elevated may indicate some kind of

Excess vitamin D intake

blockage of Ihe liver or bile duCI. hepmilis. lrauma 10 lhe

Kidney lransplantation

l iver, a drug reaction. or long-Icnn alcohol abuse. Inherited

High prolein levels (e.g .. if a lourniquel is used for 100

di,orders caused by abnonnal bilirubin melabolism (Gilbert,

long while blood is collecled)

ROlOr. Dubin·Johnson. or Crigler·Najjar syndromes) may also cause increased levels.

Blood Urea Nitrogen Increased blood urea nilrogen (BUN) levels suggesl impaired

In this case, free or ionized calcium remains normal. High levels of ionized calcium occur with all the conditions previ­ ously menlioned. excepl high prolein levels. Low calcium levels. called hypocalcemia. mean that the patient has insufficieJ1l calcium i n the blood or Ihal Ihe

kidney function. This elevation may be caused by acute or

patient has insufficienl prolein in Ihe blood. The moS!

chronic kidney disease. damage. or failure; i t may also be

common cause of low total calcium is low protein levels.

caused by a condilion Ihal resulls in decreased blood How

especially low albumin. When low prolein i< Ihe problem.

(0 the kidneys, slich as congestive heart failure, shock. stress,

the ionized calcium level remains normal.

recent heart attack, or severe bums; to conditions that cause Ob!
Low calcium. known as hypocalcemia, is caused by many conditions: Low prolein levels

excessive prolein catabolism (breakdown). significanlly

Underaclive paralhyroid gland ( hypoparalhyroidism)

i ncrea!>.ed protein in the diet. or ga!>.lIointestinal bleeding

Decreased dietary imake of calcium

(becau,e of Ihe prolein, presenl in the blood).

Decreased levels of vitamin 0

Low BUN levels are not common and are not usually a

Magnesium deficiency

cause for concern. They may be seen in severe liver disease,

Excessive phosphorus

malnutrition. and sometimes when a patient is overhydnlled

Acute inflammation of the pancreajo,

(excessive nuid volume): bUI Ihe B U N lesl is nol normally

Chronic renal failure

used to diagnose or monitor these conditions.

Calcium ions becoming bound 10 prole in (alkalosis)

Both decreased and increased B U N concentrations may be seen during a normal pregnancy. I f one kidncy is fully funclional, B U N concenlralions may be nonnal even when significant dysfunction is presem in Ihe olher kidney.

Bone disease Malnutrition Alcoholism Causes of low ionized calcium Icvels include all of these condition except low protein levels.

17

C HAPTER I Principles in Assessing Musculoskeletal Disorde"

Chloride

Glucose

Increased levels of chloride (hyperch/oremia) usually indi­

High levels of glucose most frequently indicate diabetes, but

cate dehydration, but high levels can also occur with any

many other diseases and conditions can also cause elevated

other problem that causes high blood sodium. Hyperchlore­

glucose. The following information summarizes the meaning

mia also occurs when excessive base is lost from the body

of the test results. These points are based on the clinical

( producing metabolic acidosis) or when a person hyperven­

practice recommendations of the American Diabetes Asso­

tilates (causing respiratory alkalosis).

ciation (Table 1 -4).

Decreased levels of chloride (hypoch/oremia) occur with any disorder that causes low blood sodium. Hypochloremia also occurs with prolonged vomiting or gastric suction.

Some of the other diseases and conditions that can result in elevated glucose levels include: •

Acromegaly

chronic diarrhea. emphysema or other chronic lung disease

Acute stress (response to trauma, hean attack, and

(causing respiratory acidosis), and with loss of acid from the

stroke for instance)

body (causing metabolic alkalosis).

•

Chronic renal failure Cushing syndrome

Cholesterol

Drugs (e.g., conicosteroids, tricyclic antidepressants. diuretics, epinephrine, estrogens [birth control pills

In a routine setling in which testing is perfonncd to screen for risk factors, the test results arc grouped in three catego­

and hormone replacement medications I, lithium, phe­

ries of risk:

nytoin [ Dilantin"'" salicylates)

Desirable:

A

cholesterol

level

below

200 mg/dL

Excessive food intake

(5. 1 8 mmol/L) is considered desirable and reflects a low

Hyperthyroidism

risk of heart disease.

Pancreatic cancer

Borderline high: A cholesterol level of 200 to 240 mg/dL (5. 1 8-6.22 mmol/L) is considered 10 reflect moderate risk. High

Pancreatitis Low to nondetectible urine glucose results are considered normal. Anything that raises blood glucose levels also has

risk:

A

cholesterol

level

above

240 mg/dL

(6.22 mmol/L) is considered high risk.

Creatinine

the potential to elevate urine glucose levels. Increased urine glucose levels may be seen with medications such as estro­ gens and chloral hydrate and with some forms of renal disease.

Increased creatinine levels in the blood suggest diseases

Moderately increased levels may be seen with prediabe­

or conditions that affect kidney function, including the

tes. This condition, if left untreated. often leads to type 2

fol lowing:

diabetes.

Damage to or swelling of blood vessels in the kidneys (glomerulonephritis) caused by. for example, infection or

Low

glucose

levels

(hypoglycemia)

are

also

autoimmune diseases

Adrenal insufficiency

Bacterial infection of the kidneys (pyelonephritis)

Drinking alcohol

Death of cells in the kidneys' small tubes (acute tubular

Drugs (e.g., acetaminophen, anabolic ;tcroids)

necrosis) caused. for example, by drugs or toxins

Extensive liver disease Hypopituitarism

Prostate disease, kidney stone. or other causes of urinary tracl obstruction Reduced blood flow to the kidney caused by shock, dehy­

seen

with:

•

Hypothyroidism Insulin overdose

drmion. congestive hean failure. atherosclerosis, or com­

Insulinomas (insulin-producing pancreatic tumors)

plications of diabetes

Starvation

Creatinine can also increase temporarily as a result of muscle injury. Low levels of creatinine are not common and are not usually a cause for concern and can be seen with

Heavy Metal Screens

conditions that result in decreased muscle mass. Creatinine

Heavy metals are increasingly responsible for the produc­

levels are generally slightly lower during pregnancy.

tion of free radicals. as well as undermining the illlernal

Creatinine Phosphokinase

ell v;romnellf and body chemistry. The main concern is not

so much the type of metal that may be detected but rather if

A high creatinine phosphokinase (CK) level, or one that

metals in their ionic form are present. Chemical analyses can

goes up from the first to the second or later samples, gener­

establish the exposure to excessive amounts of toxic sub­

ally indicales some damage to the heart or other muscles; it

stances. Many analytical procedures can be performed if the

can also indicate that the patient's muscles have experienced

problem warrants me investment of time and the client is

heavy use. If the patient has experienced a heart allack and

willing to pay for the procedure. Although screening samples

the CK is high, a more specific test (troponin or CK-MB)

for cenain groups of chemicals is possible. analyzing for

should be ordered to determine if the patient's heart is

everything or checking for poisons is not feasible. Heavy

damaged.

metals include arsenic. cadmium. calcium. cobalt, copper,

18

C HAPTER I Principles i n Assessing Musculoskeletal Disorders

TAIl L E 1 -4 SUMMARY or GLUCOSE TOLERANCE TESTS AND I NTERPRETATtONS Fasting Blood Glucose From 70 to 99 rng/dL £3.9 to 5.5 mmol/L)

Normal glucose tolerance

From 1 00 LO 125 OlgldL {5.6 to 6.9 mmoVL)

Impaired fasting glucose (prediabclc..'iI)

1 26 mgldL (7.0 mmol/L) and above on more than one tcsling occasion

Diabetes

Oral Glucose Tolerance Test (OG1T) [except pregnancy] (2 hours after a 75-gram glucose drink) Lc�s Lhan 1 40 mgldL (7.8 mmollL)

Nonllai glucose tolerance

From 140 10 200 mgldL (7.8 10 1 1 . 1 mmollL)

Impaired glucose lo\cram:e (pre-diabetes)

Over 200 mgldL ( 1 1 . 1 Illmul/L) on more limn one testing occasion

Diabetes

Gestational Diabetes Screening: Glucose Challenge Test (1 hour after a 50-gram glucose drink) Less than 140* mg/dL (7.8 mmoVL)

Normal glucose tolerance

1 40· mgldL (7.8 rnmollL) and over

Abnormal. needs OGTI (�ce below)

Gestational Diabetes Diagnoslic: OGT'I' ( I OO-gram glucose drink) Fu!.ting·

95 mg/dL (5.3 mmolfL)

I hour after glucose load

180 mgidL ( 1 0.0 mmollL)

2 hours after glucose load'

155 IllgidL (8.6 mmollL)

3 hours after glucose load'

140 mgidL (7.8 mmol/L)

"'Some use

,\

cUloff of > I JO mg/LIL (7.2 mmollL) bccau..c that identitic!; 901H of women with ge�w.lional diuOOlc.... compureel to SOIk idcmilicd using the

lhreshold or >140 mgldL (7.8 mmoIlL). If two or more val ue...

:u-c

ubove the criteria. gestutionul diabetes is diagnosed.

A 75-gr:lI11 glucose load may be used. although thh method is not as v.cll validated as the IOO-gram OGTI: the 3-hour ..ample b not dr:lV.n iPS gram... is

u�cll.

cyanide.

f1 uoride,

iron,

lead,

magnesium,

manganese.

mercury, molybdenum, phosphorus, potassium, selenium.

Below-normal hemoglobin levels may lead to anemia that can be the result of: Iron deficiency or deficiencies in essential vitamins of

sodium, and zinc.

other elements such as vitamin B 1 2, folate. vitamin

Hematocrit Decreased hematocrit indicates anemia, such as that caused

B6 •

lnherited hemoglobin defects. such as sickle cell anemia or thalassemias

by iron deficiency or other deficiencies. Further testing Illay be necessary to detennine the exact cause of the

Other inherited derects arfecting the RBCs

anemia.

CilThosis of the liver (during which the liver becomes scarred)

Other conditions that can result in a low hematocrit include vitamin or mineral deficiencies, recent bleeding, cir­

Excessive bleeding

rhosis of the liver, and malignancies.

Excessive destruction of RBCs Kidney disease

The 1l10�t common cause of increased hematocrit is dehy­ dration, and with adequate fluid intake, the hematocrit

•

Other chronic illnesses

returns to normal. However, increased levels may reflect a

Bone marrow failure or aplastic anemia

condition called pol.\'cythemia \Iera-thm is, when a peniOll

Cancers lhat afrect the bone marrow

ha, more than the normal number of RBCs. Increa,ed hema­ tocrit can be caused by a problem with the bone marrow or.

Human Leukocyte Antigen-B27

more commonly. as compensation for inadequate lung func­

Human leukocyte antigen ( H LA)-B27 will be present or

tion (the bone marrow manufacLUres more RBCs to carry

absent. I f it is present. then the HLA-B27 antigen ( protein

enough oxygen throughout the body).

structure) exists on the surface or the body's while blood cell> (WBCs) ,uld nucleated cells. I f a patient has HLA-B27

Hemoglobin

and has symptoms such as chronic pain. innammalion. and

Normal values in an adult nre 1 2 to 1 8 gJdL ( 1 00 mm/dL)

degenerative changes to his bones (as seen on X-ray exam­

of blood. Above-nonnal hemoglobin levels may be the result

ination), then it supports a diagnosis of ankylosing spondy­

or:

litis (AS), Reiter syndrome. or another autoimmune disorder Dehydration

thal is a'Sociated with the presence or HLA-B27. This cir­

Excessive production of RBCs in the bone marrow

cumstance is especially true ir the patient is young. male

Severe lung disease

gender. and ir the patient experienced the first symptoms

Several other conditions

before the age of -10.

19

CHAPTER I Principles in Assessing Musculoskeletal Disorders The presence o f HLA-B27 may also seen w i t h other autoimmune conditions huch as:

and unjaundiced patients. Values under 1 000 units arc of no help in the differential diagnosis of jaundice, but values

Isolated acute anterior uveitis

above 1000 units are highly indicative of b i liary ob;truction.

•

Undifferentiated spondyloarthropathies

The differentiation of intra- from extrahepatic obstruction,

•

Entcropathic synovitis

as well as of malignant from benign jaundice. cannot gener­

I f HLA-B27 is not present. then the symptoms arc likely the result of an HLA-B27-associated autoimmune disorder. ( Exceptions to this rule, however. arc approxi mately 10% of

a l l y be e;tablished by this single tesl.

Lipase

patients with AS and 40% to 50% of those with Reiter syn­

In acute pancreatitis, l i pase levels are freq uently very high,

drome w i l l be negative for HLA-B27.)

often 5 to 1 0 times higher than the highest reference value

At this time. identifying the presence of HLA-B27 does not predict the likel ihood of developing an autoimmune disease.

If a patient does have an associated disorder. the

(often cal led the upper limit of normal). In acute pancreati­ tis. l i pase concentrations rise within 24 to 48 hours of an acute pancremic atlack and may remain elevated for approx­

presence of HLA-B27 cannot be used to tell which disease

imately 5 to 7 days. Concentrations may also be increased

is present, how quickly it will progress, its severity. prog­

with pancreatic duct obstruction. pancreatic cancer. and

nosis. or the degree of organ involvement.

other pancreatic diseases.

Lactic Dehydrogenase Compression Test n

conditions such as kidney disease (caused by decreased

Elevated levels of lactic dehydrogenase (LDH) and changes

clearance from the blood), salivary gland infl ammation, a

Moderately increased l ipa;e values may occur in other

in the ratio of the LDH isocl1tymcs usually indicalc some

bowel obstruction, or peptic ulcer dise,,-,e, although the

type of tissue damage. LDH levels w i l l usually rise as the

l ipase test is not nOnllally lIsed to monitor these conditions.

cellular destruction begins. peak after some time period. and

Decreased li pase levels may indicate pennanent damage to

then begin to fal l . For instance. when someone has a heart

the l i pase-producing cells in the pancreas.

allack, blood levels of total LDH will rise within 24 to 48 hour;, peak in 2 to 3 days, and return to normal in 1 0 to 1 4

lipidS

days.

The lipid profile includes IOtal cholesterol, high-density l ipoprotein ( H D L ) cholesterol (often called good choles­

Elevated levels of LDI-I may be seen with: Cerebrovascular accident (CVA. stroke)

terol). low-density l ipoprotein (LDL) cholesterol (often

Drugs (c.g .. anesthetics, aspirin, narcotics. procain­

called bad cholesterol). and triglycerides. The report w i l l

amide_ alcohol)

sometimes includc additional calcu lated valucs such a'\

Hemolytic anemia

H DULDL ratio or a risk score based on lipid profile results,

Pernicious anemias ( megaloblastic anemias)

age. sex, and other risk factors.

I nfectiolls mononucleosis

A normal level for fasting triglycerides is less than

I ntestinal and pul monary infarction (tissue deat h )

1 50 mgldL

Kidney disease

without also having high cholesterol is unusual. Most treat­

( 1 .70 mmoI/L).

Having

high

triglycerides

Liver disease

ments for heart disease risk will be aimed at lowering LDL

Muscular dystrophy

cholesterol. However, the type of treatment used to lower

Pancreatitis

LDL cholesterol may differ depending on whether triglyc­

Some cancers

erides are high or normal.

With .!tome chronic and progressive conditions. and ;ol11e

drugs.

moderately

elevated

LDH

levels

may

per�isl. Low and normal levels of LDH do not usually indicate a problem. Low levels are sometimes seen when a patient

Triglycerides that arc very high (greater than 1 000 mgldl 1 1 1 .30 mmol/L]) increases the risk of developing pancreati­ tis. Treatment to lower trig lycerides should be started a; soon as possible.

ingests large amounts of ascorbic acid (vitamin C).

Lupus Erythematosus Cell Prep

Latex Agglutination

diagnosis of SLE for nearly 50 years. having a sensitivity of

The lupus erythematosus (LE) cell prep was the primary

Various rapid tests identifying bacterial antigen from body

nearly 50%. This test has been replaced by a more sensitive

nuids are becoming increasingly avail able. One of these

test. ANA. which measures the binding of a patient's serum

technique;. latex agglutination. is frequently used 10 test

antibodies to HEp-2 cell nuclei.

cerebrospinal fluid in chi ldren being eval uated for possible

The results of each of the lupus anticoagulant te", lead

meningitis. Early diagnosis of meningitis can lead to prompt

either toward or away from the likeli hood of having a lupus

treatment.

anticoagulant. Although the tests performed may vary. they

Leucine Aminopeptidase

( PTT ) .

u,u,lIly begin with a prolonged panial thromboplastin time

Serum leucine aminopeptidase determination is a useful

If the PTT or lupus anticoagulant (LA)-PTT is prolonged,

screening procedure for hepatobi l iary disease in jaundiced

and mixing it with normal pooled plasma does not correct

20

C HAPTER I Principles in Assessing Musculoskeletal Disorders Chronic antacid use

the result, then an inhibitor is likely present. If the pro­ longed test corrects when phospholipid is added, then a

Rickets

lupus anticoagulant is likely present. (After heparin con­

deficiencies)

tamination. a lupus 3micoagulalll is the most common reason for a prolonged PTr.)

Kidney failure Hypoparathyroidism (underactive parathyroid gland) •

to pick up the lupus anticoagulant. The LA-sensitive PTr If a dilute Russell viper venom time or modified Russell

vitamin-D

H igher-than-normal levels of phosphorus ( hyperphos­

If the PTr is not prolonged, a lupus anticoagulant may

may need to be performed.

by

phatemia) may be caused by or associated with:

not be present, the test reagents may contain too much

phospholipid. or the test may not be sufficiently sensitive

and osteomalacia (caused

Diabetic ketoacidosis (when first seen) Phosphate supplementation

Potassium

viper venom time test is prolonged and does not correct

Increased potassium levels indicate hyperkalemia. Increased

when mixed with normal pooled plasma but does corrCCl

levels may also indicate the following health conditions:

with Ihe addition of phospholipids, then a phospholipid

Excessive dietary potassium intake ( Fruits are par­

antibody is likely present.

ticularly

If a thrombin time lest is nonnal, then heparin contamina­

intake of fruits or juices may contribute to high

tion is excluded.

potassium.)

high

in

potassium;

therefore,

If a fibrinogen test is nonnal. then fibrinogen is likely

Excessive imrdvenous potassium intake

sufficient for normal clot formation.

Acute or chronic kidney failure

Other tests that may be performed 10 help confinn the

Addison disease Hypoaldosteronism

diagnosis of a lupus anticoagulant include:

Injury to tissue

Platelet neutralization (This test uses platelets as a source of phospholipids.)

Infection

Hexagonal ( I I ) phase phospholipid assay (Staclot-LA

Diabetes Dehydration

test) Kaolin clotting time Tissue thromboplastin inhibition lest Venereal Disease Research Laboratory (VORL) or

excessive

Cenain drugs can also cause hyperkalemia in a small percentage of patients. Among these drugs are nonsteroidal "' untiinnammatory drugs (e.g., Advil"'. MOlIin , Nuprin- ).

rapid plasma reagin (RPR) (These tests are used to

beta-blockers

detect syphilis. Their reagents arc made of cardiolipin

converting enzyme inhibitors (e.g .. captopril. enulapril.

(e.g..

propranolol

atenolol).

angiotensin­

and they may give a false positive result for both

lisinopril). and potassium-sparing diuretics (e.g

anlicardiolipin antibodies and for lupus anticoagu­

terene. amiloride. spironolactone).

lant.)

.•

triam­

Decreased levels of potassium indicate hypokalemia.

Coagulation factors (These tests may be ordered to

Decreased levels may occur in several conditions. particu­

rule out factor deficiencies that may cause a prolonged

larly: Dehydration

PTr and bleeding episodes.) Prothrombin lime Other tests that may be performed in addition to lupus anticoagulant testing include: Anticardiolipin and anti-beta2-glycoprotein I antibod­ ies to check for anti phospholipid syndrome

•

Vomiting Diarrhea Deficient potassium intake ( rare)

Protein-Bound Iodine

Platelet count (Mild to moderate thrombocytopenia is

Iodine binds to protein. mainly thyroxin. in the plasma. The

often seen a10ng with the lupus anticoagulant and may

thyroid

be caused by anticoagulant I heparinl therapy.)

agents. and the amount of iodine in a protein precipitate

Phosphorus Dietary deficiencies in phosphorus are rare but may be seen

honnone

is precipitated

by

protein-denaturing

generally indicates the amount of thyroid hormone present and is thus an index of thyroid activity. Various values are given for thyroid function: hypothyroidism. 0 to 3.5 mcg!

with alcoholism and malnutrition. Low levels of phosphorus

mL of protein-bound iodine: euthyroidism. 3.5 to 8.0 g!mL:

(hypophosphatemia) may also be caused by or associated

hyperthyroidism, values higher than 8 mcg!mL.

with:

Red Blood Cell Count

•

Hypercalcemia (high levels of calcium) especially as a result of hyperparathyroidism

A high RBC count may indicate congenital heart disease.

•

Overu�e of diuretics (drugs that encourage urination)

dehydration. obstructive lung disease. or bone marrow

Severe bUnls

overproduction. A high RBC count is also seen in bela­

Diabetic ketoacidosis (after treatment)

thalassemia trait, a benign condition with little or no anemia.

Hypothyroidism

A low RBC count may indicate anemia. bleeding. kidney

Hypokalemia (low levels of potassium)

disease. bone marrow failure (for instance. from radiation or

CHAPTER I Principles in Assessing Musculoskeletal Disorders a tumor). malnutrition. o r other call�es. A l o w count may

2\

mine whether other deficiencies or excesses exiM. Frequently

abo indicate nutritional deficiencies of iron. foJ:.uc. vitamin

the balance among thcsc different substances. and the

B 12, and vitamin 86.

changes in them. arc just as important as the concemratiolls.

Rheumatoid A rthritis Factor (RA Latex) Test

ents wilh symptoms thai suggest:

Calcium can be used as a diagnostic test jf the patient pres­ Kidney stones

A mpid latex .Iide agglutination te,t ror the qualitative and semi-quantitative

determ ination

of rheumatoid

arthritis

•

Bone disease eurologic disorders

factor in human serum. The presence of these aUlOalllibodies to human immunoglobu l i n G (IgG ) is a userul diagnostic

The lotal calcium lesl is Ihe leS( mo;! rrequenlly ordered

tool ror aClive rheumHloid arthrilis ( R A J becau,e high li tres

to cvaluatc calcium status. I n most cases. it is a good rencc­

indicate severe disease.

Serum Glutamate Oxaloacetale Transaminase

tion of the amount of free calcium involved in Il1cLabolism since the balance between free and bound is usually �lable and predictable. However. in !'tome patients. the balance

Very high levels or aspanate aminOlransremse (AST) ( more

between bound and free cnlciull1 is disturbed and total

than 10 Lime!' the highcM nOfmal lcvel) are usually the result

calcium is not a good reflection of calcium status. In thoo,e

of acute hepatitis. oflen caw.,cd by a virus infection. In acute

circumstances. measurement of ioniL.cd calcium i!\ neces­

hepat ili,. AST level> u,ually stay high ror approx imately I

sary. Some conditions where ionized calciull1 should be the

to 2 months but can take as long as 3 to 6 l110lllhs to return

test of choice include: critically i l l patients who are receiv­

to normal. I n chronic hepatitis. AST levels are usually not

ing transfusions or I V fluids. patients undergoing major

a:-. high as they arc in acute hepat itis. often les� than four

surgery, and paticnts with blood protein abnormalities like

time� the highe�t normal level. I n chronic hepatitis. AST

low albumin. Large fluctuations in ionized calcium can

onen varies between nonnal and slightly increased: there­

cau!\c the hean to slow down or to beat too rapidly. can cause

fore. examiner.!> w i l l typically order the test frequently to

muscles to go into spasm (tetany). and can causc confusion

determ ine the pattem.

or even coma. In critically i l l patients, it is extremely im por­

In '!'ol1le di seases of the liver. especially when the bile

tant to know the ionized calcium levcl to be able to i ntervene

duct� are blocked. or with cirrhosis and cenain cancers of

and prevent serious cOll1p l i cations. These include the fol­

the liver. AST may be close to normal. but it i l1crease� more

lowing:

often than alanine aminotnll1,remse (ALT). When liver damage is the result of alcohol, AST often increases much more than A LT. (This pattem is seen with a few Olher liver

I . Kidney di scase. becausc low calcium is especially common i n those wilh kidney failure:

2. Symptoms of too much calcium. such a!\ fatigue.

dise,,,es.) AST i, also increased arter heart anacks and wilh

weakness. loss of appetite. nausea. VOITIltlllg. con­

mu�cle injury. usually to a much greater degree than is

stipation. abdominal

A LT.

increased thirM:

Serum Ionized Calcium Blood calcium is tested to screen for. di agnose. and monitor

pain. urinary frequency. and

3. Symptoms of low calcium. such as cramp� i n your abdomen. muscle cramps. or tingling fi ngers: or

4. Olher diseases that have been associaled with abnor­

a range of conditions relating to the bones. hean, nerves.

mal blood calcium. such as thyroid d isease. inteMinal

kidneys. and leelh. Blood calcium level> do not directly lell

disease. cancer. or poor nutrition.

how much calcium i s in the bones. but ralher, how much calcium is circulating i n lhe blood.

An ion ized calcium test b, ordered when the patient ha� numbness around the mouth and i n the hands and feet and

A total calcium level is often measured as pan of health

muscle spasms in the same areas. These can be symptoms

screen ing. It is incl uded in the comprehensive metabolic

of low levels of ionized calcium. However. when calcium

panel (CMP) and the basic metabolic panel ( B M P)-groups

levels rail slowly. many people have no symploms at a l l . The

of tests that are performed together to di agnose or monitor

patient may need calcium moniLOring when they have cenain

a variety of conditions. When an abnormal total calcium

kinds or cancer (particularly breast. lung. head and neck,

result is obtai ned. it i s viewed as an indicator or some kind

kidney. and multiple myeloma), have kidney disease, or

of underlying problem. To help diagnose the underlying

have had a kidney transplant. Monitoring may also be neces­

problem. additional tests are often done to measure ionized

sary when the patient is being treated for abnormal calcium

calcium. urine calcium, phosphorous, magnesium. vitamin

levels to evaluate the effecti veness of treatment� such as

D. and paralhyroid hormone (PTH). Parathyroid hormone

calcium or vitamin D supplements.

and vitamin D arc responsible for maintaining calcium con­ centrations in the blood within a narrow range of values.

Calcium absorpLion. usc. and excretion are regulated and Slabil iLed by a reedback loop involving PTH and vitamin D.

Measuring calcium and PTH together can help determine

Conditions and diseases that di�rupt calcium regulation can

whether the parathyroid gland is runclioning normally. Mea­

cause inappropriate acute or chronic elevmions or decreases

suring urine calcium can hclp determinc whether the kidneys

in calcium and lead to symptoms or hypercalcemia or hypo­

are excreting the proper amount of calcium. and testing for

calcemia. In most cases. total calcium is measured because

vitamin D, phosphorus. and/or magnesium can help deler-

the test is more easily performed than the ionized calcium

22

CHAPTER I Principles in Assessing M usculoskeletal Disorders

test and requires no special handling of the blood ample.

proLein is present. The value of protein electrophoresis

TOlal calcium is usually a good reflection of free calcium

lies in the proportions of proLeins and in the pauerns Lhey

since the free and bound forms are typically each about half

creaLe on the elecLrophoresis graph. The value of immuno­

of the total. However. because about half the calcium in

fixation electrophoresis is in identifying the presence of

blood is bound to protein . lOlal calcium lest results can be

a panicular Lype of i m munoglobulin. For example. certain

affected by high or low levels of protein. In such cases. it is

conditions or diseases may be associated with decreases

morc useful to measure free calcium directly using an

or i ncreases in various serum proteins, as reflected as

ionized calcium test.

follows: Albumin

Normal Calcium

Decreased:

A normal lOla) or ionized calcium resulL together with

pregnancy. kidney disease (especially nephroLic syn­

other normal lab results generally means that calcium

drome), liver disease, inflammatory conditions, and

metabolism is normal and blood levels arc being appropri­

proLein-losing syndromes

ately regulated.

with

malnutrition and malabsorption.

II/creased: with dehydration •

Alpha, globulin

IIigil To/al Calcillm-llypercalcemia

Decreased: in congenital emphysema (CII-antitrypsin

Two of the morc common causes of hypercalcemia are:

deficiency, a rare genetic disease) or severe liver

1. Hyperparathyroidism.

an

increase

in

parathyroid

disease Increased: in acute or chronic inflammatory diseases

gland function: This condition is usually caused by a benign tumor of the parathyroid gland. This fonn of

Alpha, globulin

hypercalcemia is usually mild and can be present for

Decreased: WiLh hyperthyroidism or severe liver

many years before being noticed.

disease. hemolysis (RBC breakage)

2. Cancer: Cancer can cause hypercalcemia when iL

•

spreads to the bones, which releases calcium into the blood. or when a cancer produces a honnone similar

II/creased: with kidney disease ( nephrotic syndrome). acute or chronic inflammatory disease

BeLa globulin

to PTH, resulting in increased calcium levels.

Decreased: with malnutrition. cirrhosis

Some oLher causes of hypercalcemia include:

Increased: with hypercholesterolemia, iron deficiency

1 . Hyperthyroidism

anemia, some cases of multiple myeloma. or mono­

2. Sarcoidosis

clonal gammopaLhies of undetermined significance

3. Tuberculosis

4. Prolonged immobilizaLion

(MGUS) Gamma globulin

5. Excess Vitamin D i ntake

Decreased: variety of genetic i m mune disorders. and in secondary immune deficiency

6. Kidney LransplanL •

Low

Tolal Calciwll-Uypoca[cemia

RA, SLE. cirrhosis. chronic liver disease. aCULe and

The most common cause of low total calcium is: I. Low blood proLein levels. especially a low level of albumin. I n this condiLion. only the bound calcium is low. Ionized calcium remains normal and calcium metabolism is being regulaLed appropriaLely. Some oLher causes of hypocalcemia include: I . U nderacLive parathyroid gland (hypoparaLhyroid­ ism)

Increased: polyclonal-chronic inflammatory disease. chronic infection, recent immunization.

•

Increased: monoclonal-Waldenstrom macroglobu­ linemia. muhiple myeloma. MGUS

TOLal protein Low total protein levels can suggest a liver disorder, a kidney disorder. or a disorder i n which protein is nOL digesLed or absorbed properly. Some laboraLories also report the cal­ culated raLio of albumin LO globulins ( NG raLio). Normally,

2. InheriLed resistance LO the effecLs of parathyroid hormone 3. Extreme deficiency in dietary calcium

albumin slighLly exceeds globulins. giving a normal A/G raLio of slighLly over I . Because disease SLates affect Lhe relaLive changes i n albumin and globulins i n differenL ways.

4. Decreased levels of viLamin D

this ratio may provide a clue to the physician as to the cause

5. Magnesium deficiency

of the change in proLein levels. A low NG raLio may renect

6. Increased levels of phosphorus

overproducLion of globulins. such as seen in muhiple

7. Acute i nflammalion of the pancreas ( pancrealitis)

myeloma or autoimmune diseases, or underproduction of

8. Renal failure

albumin. such

9. MalnUlriLion

albumin from the circulaLion, as occurs with nephroLic syn­

10. Alcoholism Serum Protein Electrophoresis Protein

and

i m munofixation electrophoresis tests give

the examiner a rough eSlimate of how much of each

as

occurs with cirrhosis, or selective loss of

drome. A high NG raLio suggesLs underproducLion of immu­ noglobulins. as may be seen in some genetic deficiencies and in some leukemias. More specific tests, such as albumin. liver enzyme tests, and serum protein elecLrophoresis. must be performed to make an accurate diagnosis.

CHAPTER I Principles in Assessing M uscu.loskeletal Disorders

Sodium

23

GII/cose

Hyponatremia is rarely caused by decreased sodium intake

Normally, urine contains no glucose. A poslLJve glucose

(deficient dietary intake or deficient sodium in intravenous

occurs in diabetes. The number of people who have glucose

fluids). Most commonly. hyponatremia is caused by sodium

in their urine with normal blood glucose levels is small;

loss (Addison disease, diarrhea, excessive sweating, diuretic

however, any glucose in the urine would raise the possibility

administration, or kidney disease). In some cases. hypona­

of diabetes or glucose intolerance.

tremia is caused by increased water (drinking too much water, heart failure, cirrhosis, kidney diseases that cause

Proteiu

protein loss [ nephrotic syndrome]). In a large number of

Normally no protein is detectable on a urinalysis strip.

diseases (particularly those involving the brain and the

Protein can indicate ki dn ey damage, blood in the urine, or

lungs, many kinds of cancer, and with some drugs), the body

an i n fection. Up to 10% of children can have protein in their

makes too much 3Illidiurclic hormone, causing the patient

urine. Certain diseases require the use of a special. more

to keep too much water in the body.

sensitive (and more expensive) test for protei n called a

A high blood sodium level means the patient has hyper­

microalbumin test. A microalbum i n test is useful in screen­

natremia, almost always caused by excessive loss of water

ing for early damage to the kidneys from di abetes, for

(dehydration) withollt enough water intake. Symptoms

instance.

include dry mucous membranes. lhirsl, agitation, restless­ ness, acti ng irrationally, and coma or convulsions if levels

Illood

rise extremely high. In rare cases, hypernatremia may be

NormaJl y, urine comains no blood. Blood can indicate an

caused by increased salt intake without enough water,

i n fection, kidney stones, trauma. or bleeding from a bladder

Cushing syndrome, or insufficient antidiuretic hormone

or kidney tumor and may be hemolyzed (dissolved blood) or nonhemolyzed (intacl RBCs). R are ly, musc le inju ry can

(diabetes insipidus).

Sodium urine concentrations must be evaluated in asso­ ciation with blood levels. Concentrations may mirror blood

cause myoglobin to appear in the urine, which also causes the reagent pad to indicate blood falsely.

levels or be the opposite. The body normally excretes excess sodium; thus the concentration in the urine may be elevated

Bilirubin

because it is elevated i n the blood . .It may also be elevated

Normally, urine cOlllains no bilirubin or u rob i l inogen. These

in the urine when the body is losing excessive sodium. In

substances are pigments that arc cleared by the l iver. I n livcr

this case. the blood level would be normal to low. I f blood

or ga ll bladder disease, they may appear in the urine as

sodium levels are low as a resull of i nsufficient intake. then

well.

urine concentrations will also be low. Uric Acid

Nitrate Normally negative. nitrate i n the urine usually indicates a

Higher-than-normal uric acid levels mean that the body is

urinary tract infection.

not handling the breakdown of purines well. .Increased con­ centrations of uric acid can cause crystals to form in the

Leukocyte Esterase

joints. which leads to the joint inHammation and pain char­

Leukocyte esterase is normally negative. Leukocytes are the

acteristics of gout. Uric acid can also form crystals or kidney

WBCs (or pus cells). WBCs in the urine suggest a urinary

stones lhat can damage the kidneys.

tract infection.

Low levels of uric acid in the blood are seen much less commonl y than high levels and are seldom considered

Sediment

cause for concern. Although low values can be associated

I tems such as mucous cells and squamous cells arc com­

with some kinds of liver or kidney diseases, exposure to

monly seen. Abnormal findings would include >15 RBCsl

toxic compounds, and rarely as the result of an i nherited

hpf (hematuria)-additional i nvestigation must be donc to

metabolic defect, these conditions are typically identified by

determi n e the source of the hematuria (renal or postrenal);

other tests and symptoms and not by an isolated low uric

or >10 WBCs/hpf (pyuria)-additional investigation must

acid result.

be done to determine the source of the pyuria (renal or

Urinalysis

cells. or bacteria (bacteria can be presen t if contamination

pH

was present at the time of collection).

Acid ity of urine is measllred by the pH.

postrenal); or the presence of crystals, casts, renal tubular

White Blood Cell Count

.S'pecijil: Grat'ily

An elevated number of white blood cells ( WBCs) is called

Specific gravity (SO) measures how dilute the urine is.

leukocytosis, which can result rrom bacterial infections.

Water has a SG of 1.000 . Most urine is approximately1.0 10,

inflammation, leukemia, trauma, or stress.

but it can vary greatly depending on when the patient drank Iluids last or if the patient is dehydrated.

A decreased WBC cou n t is called leukopenia. which can result from many differen t situations, such as chemo-

24

CHAPTER I Principles i n Assessing Musculoskeletal Disorders fall below 1 0 mg/L, clinically active inflammation is no

lhcrapy, radiation therapy. or diseases of the Immune system.

longer present.

Blood and serum panels that are lIseful in the differential

•

diagno1'>is include:

RA latex

Liver Function Tests

Bone panel Alkaline phosphatase Calcium

Alkaline phosphatase

Complete blood eOllnt (CBC)

Cholesterol

B i lirubin-total and direct

Table 1 -5 explains whm increases or decreases in ench of

Gamma-giutamyl transpeptidase (GGT) or peptidase

the components of the esc may mean.

Elevated GGT levels indicate that something is going on wiLh the liver but nOI specifically what. In general, the higher

SPEClTIC PROFILES

the level is, the greater the inslI!1 will be to " liver. Elevated

Arthritis Panel

caused by congestive heart failure. alcohol consumption.

levels Illay be caused by liver disease. but they may aho be

ANA screen

and use of many prescription and nonprescription drugs.

C-reactive protein (CRP)

including

A high or increasing amount ofCRP in the blood suggests

lowering drugs. antibiotics. histamine blockers ( used to treat

an acute infection or inflammation. In a healthy person, CRP

excess slOmach acid production), antifungal agents. seizure

nonsteroidal

antiinflammatory

drugs.

lipid­

is usually less than 10 mg/L. Most infections and inflamma­

control medications. antidepressants. and hormones slich as

tions re>lilt in CRP levels above 1 00 mg/L. l f the CRP level

testosterone. Oral contraceptives (birth control pills) and

drops. it means inflammation is being reduced. When results

clofibrate can decrease GGT levels.

TAB l E 1-5 SUMMARY OF CBC COMPONENTS AND INTERP RETATIONS

Test

Name

IncreascdU1>ecrcased

WBC

White blood cell

May be increased with i nfections, inflammation, cancer. leukemia;

decre;'lscd with some medications (such as methotrexate). some autoimmune conditions, some severe infections. bone marrow fuilurc. and congenital marrow aplasia ( marrow docsn't develop normally) This is a dynamic population that varies somewhat rrom day to day

% Neutrophil

NeutrophillBandfSeg

% Lymph!'>

Lymphocyte

% Mono

Monocyte

panicu lar types are a.s�ociated with di frerent temporary/acute amVor

% Eo!'>

Eosinophi l

chronic conditions. An example or this is lhe increased number or

o/r- Ba�o

Basophil

lymphocytes seen with lymphocytic leukemia. For more informalion,

Neul rophil

Neu troph illBandfSeg

see Blood S mear and WBC.

depending on what is going on in the body. Significant increase!'> in

Lymphs

Ly mphocyte

Mono

Monocyte

Eos

Eosinophi l

Ba'io

Basophil

RBC

Red blood cell

Decreased wil.h anemia: incrcased whcn too many made and with fluid

Hgh

Hcmoglobin

Mirrors RBe resu l�

Het

Hematocri t

Mirrors RBe results

MeV

Mean corpu scular volumc

Increased with BI: and Folate deficiency: dec reased wilh iron deficiency

MCH

Mean corpuscular hemoglobin

Mirrors MCV results

MCHC

Mean corpu !'>cular hemoglobin concentration

May be del'reased when MCV is decrca!'>cd; increases limited to amount

RDW

Red blood cell distribution width

Increased ROW i ndicutc:-. mixed popu lati on of RBCs: immature RBClt

Platelet

Platelet

Decreased or increa�ed with conditions lhat affect platelet production:

loss due 10 di arrhea, dehydration. burns

and thalassemia

of Hgb that will fil in.�ide a RBe tend to be larger

decreased when greater numbers used. a.s with bleeding: decreased with some inherited disorders (such as Wiskott-Aldrich. Bernnrd·Soulicr),

with Systemic lupus erythcmatoslI:', pernicious anemia, hypersplenism (splcen takcs 100 many Olll of circuhuion), leukcmia. and chemotherapy MPV

Mean platelet volu me

Vary with platclet production; younger platelets are larger than older ones

25__

CHAPTER I Principles in Assessing Musculoskeletal Disorders LDH (See previous discussion.)

such a s temporal arteritis. polymyalgia rheumatica, and

Serum glutamate pyruvate transaminase (SGPT) (See

rheumatoid arthritis� it call also be used as a crude measure

previolls discussion.)

of response in Hodgkin disease. The use of ESR as a screening test in asymptomatic

Serum glutamate oxaloacetate transaminase (SGOT) Total protein-albumin and globulin

persons is limited by its low sensitivity and specificity. When a moderate suspicion of disease exists, the ESR may have

Parathyroid Function and Calcium Metabolism

some value as a sickness index. An elevaled ESR in Ihe absence of other findings should

Alkaline phosphatase Serum calcium

n01

Serum phosphorm.

tion.

Total protein

trigger an extensive laboratory or radiographic evalua­

Uric acid

Urine calcium

•

Pancreas function lests

Synovial fluid analysis, including culture Synovial fluid analysis is inexpen:-.ive and may be diag­

Amylase

nostic in patients with bacterial infections or crystal-induced

CBC

synovitis. According to lhe American College of Rheuma­

Glucose tolerance

lology (ACR) clinical guidelines committee, Ihis analysis

Lipase

should be performed in dle febrile patienl with an acule flare of established arthritis to rule oul superimposed seplic arthri­

Joint Pain or Swelling Tests

tis. In other situations. its main value is to permit classifica­

ANA screen

tion into an inflammatory or noninflammatory category.

CBC

Thus, synovial fluid analysis should be performed if il is

Heavy metal screen

readily obtainable and the diagnosis is uncertain after history

RA latex

interview. physical examinatioll, und standard laboratory

Scdimclllalion rate

tests (Table 1 -6).

Although it is frequently ordered. the erythrocyte sedi­

The WBC count, differential counL. cultures, Gram slain,

mentation rate (ESR) is not a useful screening (eM; it is

and polarized light microscopy are the mosl valuable sludies,

useful only for diagnosing three diseases: ( I ) myeloma, ( 2 )

Noninflammatory fluids generally have fewer than 2000 " with fewer Ihan 75% polymorphonuclear leu­

temporal arteritis, and ( 3 ) polymyalgia rheumatica (in which

WBCs/ml11

it may exceed 100 nlln/hour).

kocytes. The ACR commiltee suggests Ihal unexplained

ESR is commonly lIsed for a di fferential diagnosis for

innammutory fluid, panicularly in a febrile patient, is

Kawasaki disease. and it Illay be increased in some chronic

assumed to be inrected until proven otherwise by appropri­

infective conditions such as tuberculosis and infective endo­

ate culture.

carditis. The ESR is a componenl of the Pediatric Crohn Disease AClivily Index (PDCAI),

an

Normal joints contain a small amount of synovial fluid

index for assessmenl of

with the following characteristics:

severity of innaml11atory bowel disease in children.

Highly viscous

The clinical usefulness of ESR is limited to monitoring

Clear

the response to therapy in certain inflammatory diseases

Essentially acellular

TAB I F 1-6 CATEGORJ[S OF SYNOVIAL F LU I D BASED UPON CLIN ICAL AN D LABORATORY F I N D I NGS

Measure

Normal

Noninflammatory

Inflammatory

Septic

Hemorrhagic

Volume, IllL (knee)

<3.5

Often >3.5

Oflen >3.5

Often >3.5

Usually >3.5

Clurity

Tnmsparenl

Transparent

Translucent-opaque

Opaque

Bloody

Color

Clear

Yellow

Yellow to opalescent

Yellow to green

Red

Viscosity

H igh

High

Low

Variable

Variable

Wac. per mlll3

<200

200-2.000

2000- 1 0.000

>100.000*

200-2.000

PMN<;. percent

<25

<25

;,50

,,75

50-75

Culture

Negative

Negative

Negative

Often positive

Negative

Total protcin. gldl

1-2

1-3

3-5

3-5

4-6

LDH (comp
Vcry low

Very low

High

Variable

Similar

Nearly equal

Nearly equal to blood

>25. lower than blood

<25. much lower

Nearly equal 10 blood

level!. In blood) Glucose. mgldl

10 blood LDH, Laclic dehydrogenase: PMN, polymorphonuclear ce tl: WOc, white blood cell.

·Lower with infcctiol1\ caused by partially treated or low virulence organi!'!tns

than blood

26

CHAPTER I Principles in Assessing Musculoskeletal Disorders •

Protein conccnLration approximately one-third thaL of plasma Glucose concentration similar to that in plasma

If a synovial effu�ion is present and anhrocentesi� is indicated, joint nuid should be routinely analyzed for volume, clarity, color, viscosity, crystals cell counL differ­ ential. Gram stain. and culture. In certain circumstances. the presence and type of crystals should also be assessed. Syno­ vial fluid is subsequently categorized as either normal. non­ inflammatory. inflammatory, septic, or hemorrhagic based on the clinical and labonuory analysis. The differential diag­

TAB L E 1 -7 SUMMARY OF THYRO I D-STIMUlATING HORMONE TEST RESULTS AND INTERPRETATIONS

TSH

T4

T3

Interpretation

High

Normal

NOnllal

Mild (subclinical)

High

Low

Hypothyroidi"m

Low

Nonnal

Low or normal Normal

Low

High or normal

High or

Hyperthyroidism

Low

Low or normal

Low or normal

hypothyroidism

hypcnhyroidi!im normal

nosis of each of these specific calegories is broad and nOI necessarily exclusive:

hypothyroidism

tive joint disease (osteoarthritis). trauma. osteochondritis innammation, hypertrophic oSleoarthropathy. and pig­

Rare pilUitury (secondary)

NOllinjfallllJl(l[ory effusions may be caused by degenera­

dissecans. neuropathic arthropathy, subsiding or early

Mild ( ..ubclinical)

n. Triiodothyronine: T-I. thyroxinc� TSN. lhyroiu-\timul;lling hurmone.

mented villonodular synovitis. Illfiall/II/atory effusions may be caused by RA, acule

hormone medication in patients who are being treated for an

crystal-induced synovitis. reactive arthritis (formerly

underactive (or removed) thyroid gland. In rare cases. a low

Reiler

TSH resuh may indicale damage 10 the piluilary gland that

syndrome),

ankylosing

spondylilis,

psoriatic

arlhriti�. arthritis associated wilh inflammatory bowel

prevents it from producing adequate amounts of TSH.

disease, rheumatic fever, SLE. hyperuophic osteoar­

Whelher high or low, an abnormal TSI I indicates an

thropathy, and scleroderma. Rheumalic fever, SLE, and

excess or deficiency in the amount of thyroid hormone avail·

scleroderma can also cause a noninflammatory effusion.

able 10 the body, bUI il does nOI indicate Ihe reason why. An

Septic effusions may be caused by bacleria. mycobacte­

abnormal TSH lest result is usually followed by additional

ria, or fungus.

testing to investigate the cause of the increase or decrease.

Hemorrhagic effusions may be caused by hemophilia or

other hemorrhagic dimhesis, scurvy, trauma with or

Table 1 -7 summarizes test results and their potelllial meaning.

withoul fraclure, neuropalhic arthropathy, pigmenled vil­ lonodular synovitis. synovioma, hemangioma. and other benign neoplnsms.

Thyroxille

In general. high free or tOlal T4 results may indicale an overaclive thyroid gland (hyperthyroidism). and low free or

Thyroid Profile

10lal T4 resulls may indicale an underactive thyroid gland

Free Thyroxine Jilt/ex

(hypothyroidism). The test resuils alone are nOI diagnoslic

The free thyroxine index ( Ff l or T7) is a mathematical

but will prompt t.he examiner to perform additional teMing

computation thm allows lhe laboratory to estimate the free

10 invesligale the cause of Ihe excess or deficiency. Both

Ihyroxine index from Ihe Ihyroxine (T4) and lriiodOlhyro­

decreased and increased T4 results are associated with a

nine (T3) uplake leSls. The resuhs lell how much thyroid

variety of temporary and chronic thyroid conditions. Low

hormone is free in the blood stream 10 work on the body.

T4 resuils in conjunction wilh a low TSH level. or high T4

Unlike Ihe T4 alone, Ffl

is not affected by estrogen

resuils along wilh a high TSH, may indicate a piluitary gland

levels.

condition.

Thyroid·Stimulating Hormoll('

meaning.

Table 1 ·8 summarizes lest results and their potential A high Ihyroid-stimulaling hormone (TSH) resuh often means an underactive thyroid gland that is not responding

T,.iiodot"yrollille

adequalely 10 the slimulalion of TSH because of some IYpe

Increased or decreased thyroid hormone results indicate an

of acute or chronic thyroid dysfunction. In rare instances, a

imbalance bel ween Ihe body's requiremenls and supply, bUI

high TSH resuh can indicate a problem wilh Ihe pituilary

they do not lell the examiner specifically whal i s cau,ing Ihe

gland. such as a tumor that produces unregulated levels

excess or deficiency.

of TSH, in what is known as secondary hyperThyroidism. A high TSH value can also occur when palienls wilh a

Table 1 -9 summarizes test results and their potential meaning.

known thyroid disorder (or those who have had their thyroid

If a patient is being treated with antithyroid medication

gland removed) are receiving inadequate thyroid hormone

for hyperthyroidism and Ihe T3 (or, morc frequeJ1lly, the T4

medicatioll.

or TSH) is normal, then the medication is likely controlling

A low TSti resull can indicate an overactive thyroid

the condition. If the T3 (or T4) is elevaled, Ihen Ihe medica­

gland (hyperthyroidism) or excessive amOUI1lS of dlyroid

lion is not sufficient to control the condition, and the palient

27

CHAPTER I Principles in Assessing Musculoskeletal Disorders

the most useful in this range. When patients in Ihe gray lone

TAB L E 1·8

have decrea\ed levels of free "SA. lhey have a higher prob­

SUMMARY OF THYROX I N E (T4) TFST RESULTS

ability of proslate cancer; when Ihey have elevated levels o f

AND I NTERPRETATIONS

free PSA. the risk is dimin ished. The ratio of free to total

T4

T8H

T3

Interpretation

Nannal

HIgh

NOnllal

Mild (�ubcJinic
Low

High

Low or nonna1

Ilypothyroidi..m

Nannal

Low

Nonnni

Mild huOclinicnl)

High or normal

Low

High or nomlal

Hypcnhyroidi"m

Low or normal

Low

Low or nonna!

Rare pituitary

hyperthyroidism

(!ooccondary ) hypothyroidi..m n. Triiuollihyronlllc; 14. thyroxine; TW/, thyroill-..llIl1ulallllg hormone.

PSA can help the examiner decide whelher a proslate biopsy should be performed. When the complexed PSA (cPSA) test is used as a screen­ ing tool. increa.\cd leyels may indicate an increased ri\k of prostate C�1J1cer. whereas lower Icvels indicate a decreu\cd risk. In addition to lhe inlroduction of the free PSA and cPSA tests. efforts have been made to increase the u"iefulnes!o. of the total PSA as a screening 100\. A l lhough none of these efforts have been widely accepted yet. researchers are study­ ing them. and some examiners are using them. These factors include: PSA velocilY. This tesl mea,ures the change In PSA con­ centrations over time. If the PSA continues 10 risc sig­ nificantly over time. such as 3 or more years. then proslatc

TABLE I ·') SUMMARY Of TRIIODOTHYRO N I N E

canccr is morc l i kely present. I f it climbs rapidly. then lhe

(D) TEST

patient may have a morc aggre...sive form of cancer.

RESULTS AND INTERPRETATIONS

T4

T3

T8H

Nannal

Nonnal

High

•

Interpretation Mild bubclimcal) hypothyroidi..m

LO\I, or nc.mnal

Lo"

High

Hypothyroidism

r\onnal

Nonnal

Low

Mild (..ubclinical) hyperthymidi..m

PSA doubling lime. This leM i!o. another version of the PSA velocity. 11 measures how rapidly Ihe PSA concen­ tration doubles. PSA densilY. This te'l is a comparison o f Ihe PSA con· centration and the volume o f the prostate (as metlsurcd by ultrasound). Paliel11S with larger prostates tend to produce morc PSA; thus. thi'i factor is an adjuslment to

High or nonnal

High or 00011al

Low

Hypcnhyroidh,m

compensate for the SilC.

Low or normal

Low or 110mlal

Lo"

Rare pituita!)

Age-specific PSA ranges. Given Ihat PSA le,e1s nalurally

7J, Triiodulh)roninc;

hccondaryl

increase as a man ages. experts have proposed thal nonnal

hypolhyroidi'im

ranges be tai lored to a man's age.

T.J, Ihyro'(illl:: TSH. Ih)roji.J-_�lillluJaling hormone.

During trealment for prostale cancer. the PSA level should begin to fall. At the end of treatment. it should be al very low or undetectable levels i n the blood. I f concentra­ tions do not fall to very low levels. Ihen lhe trcalment ha,

may be experiencing symptoms associated with hyperthy­

not been fully effective. After Ireatment. Ihe PSA lesl is perfonned at regular intervals to monitor the patient for

roidi!o.ITI.

recurrence. Because even tiny increases can be signi ficant.

Prostate Profile

patients may want to have their monitoring PSA tests per­ fonned by the same laboralory each time so Ihal testing

I'ro.\llIl(·.Sp(·ciji(' \ IIli/.:(·11

The normal value for lOWI proslale·specific anligen (PSA)

\'arialion is kept to a minimum.

has heen ScI at less Ihan 4.0 ng/mL blood. Some experls believe lhat Ihis level should be lowered to 2.5 ng/mL to

IJro.\ltItil- \cill Phmpllllla.\"l!

detect more C3SC!o. of pro"tate cancer. Other" argue that this

Pro'tatic acid phosphatase (PAP) is an enlyme produced by

change would exacerbate overdiagnosing and overtreating

the prostate. It may be found in increased amount.s in mcn

cancers that are not clinically signilicant.

who have prostate cancer or other diseases. This same

Mosl experls agree thai palients with a total PSA level grealer than 10.0 ng/mL are aI an increased risk for pros laiC

enzyme is also found in significant amounts in female ejaculate.

cancer (more than a 67CJr chance. according to the American

The highesl levels of PAP are found in melaslasized pros·

Cancer SocielY). Levels belween 4.0 and 1 0.0 ng/mL may

tate cancer. Diseases of the bone (e.g .. Pagel di,ease. hyper­

indicate pro'itatc cnncer (approx imntcly a 25% chance.

parathyroidism). diseases of blood cells (e.g

according to the Americnn Cancer Society). benign prm,tntc

disease. multiple myeloma). or lysosomal storage disease,

hyperplasia.

(e.g .. Gaucher disease) will sho\\ moderalely increased

or

pro'itutitis.

Thc'ie conditions

are more

common in older adult males. as is a general increase in

.•

sickle-cell

levels.

PSA levels. Concentrations of total PSA between 4.0 and

Certain medicmioJ1!o. can cau-,e temporary increa!o.c!o. or

10.0 ng/mL arc often called the gra\" :olle. The free PSA is

decreases ill PA P levels. Manipulation of the prostate gland

28

CHAPTER I Principles in Assessing M usculoskeletal D isorders

through massage. biopsy. or rectal examination before a tcst

lligll-Dellsity Lipoproteill Cilolesterill

can increase the level.

Hypertension ( Coronary Risk Profile) Cholesterol •

Coronary risk indicator This is a group of tests and health faclOrs have been

LDL cholesterol •

Triglycerides

Health Screen •

Albumin Low albumin levels can suggest liver di\ease. Other liver

proven to indicate a patient's chance of having a coronary

enlYme tests are ordered to detemline exactly which type of

evenl. They havc been refined to indicate the degree of risk:

liver disease. Low albumin levels can also reflect diseases

slight, moderate, or high.

in which the kidneys cannot prevent albumin from leaking

Perhap� the most important indicators for cardiac risk are

from the blood into the urine and being losl. In this case. the

those of the personal health history. Age, hereditary factors.

amount of albumin (or protein) in the urine also may be

weight. smoking. blood pre sure, exercise h istory, and dia­

measured. Low albumin levels can ;]Iso be seen in inflam­

betes arc all important in determining risk. The lipid profile

mation. shock. and malnutri tion. Low albumin levels may

is the most important blood test for risk assessmenl. Other

also suggest conditions in which the body does nOl properly

tests, bOlh invasive and noninvasive, may be used in cardiac

ab,orb and digest protein (e.g

risk assessment. Noninvasive tests may include an electro­

which large volumes of protein are 10M from the intes­

cardiographic stress lest, thallium SlrcSS lest. electrocardio­

tines.

.•

Crohn di,ea,e. 'prue) or in

gram, computed tomographic scan. and echocardiogram.

High albumin levels usually reflect dehydration.

I nva�ivc tests include an arteriogram and cardiac catheter­

NG ratio (See previous discussion.)

ization.

Alkaline phosphatase

The lipid profile measures cholesterol. triglycerides. HDL

Anion gap

(good cholesterol), and LDL (bad cholesterol). Triglycerides

Anion gap can be classified as high. normal. or. in

are the major form of fat found in the body. and their func­

rare cases, low. A high anion gap indicates a lo�s of bicar­

tion is to provide energy for the cells. The de,irable ranges

bonate without a subsequent increase in chloride. Electro­

for the components of the lipid profile include the follow­

neutrality is mail1lained by the increased production of

ing:

anions such as ketones, lactate. phosphate. and sulfate; lhese

Cholesterol <200 mg/dL (5. 1 8 mmollL)

anions are not part of the anion-gap calculation. and there­

HDL cholesterol >40 mg/dL ( 1 .04 mmollL)

fore a high anion gnp results. In patiel1l� with a normal

LDL cholesterol < 1 00 mg/dL* (2.59 mmol/L)

anion gap. the drop in bicarbonate is compensated for by

Triglycerides < 1 50 mg/dL ( 1 .70 mmollL)

an increase in chloride and hence i ... also known til., hyper­

If any or all of the results arc significantly outside these

chlorcmic acidosis.

ranges, the risk of a cardiac event is increased. If they are only slightly outside the desirable level. diet, exercise, med­ ication. or any combination of these treatments may be suf­

Higtt Illiol/ Gap

ficient to reduce the abnormal levels. thereby reducing

The bicarbonate 10M is replaced by an lInmea�ured anion.

ri�k.

and thus a high anion gap will be present in the following

Another test gaining importance is serum homocysteine.

disorders:

Homocysteine is un amino acid that comes from the normal

Lactic acido�is

breakdown of proteins in the body and appears to be a beller

Ketoacidosis

test than cholesterol testing for predicting heart disease,

Diabetic ketoacidosis

stroke. and reduced blood now to the hands and feel. Lipo­

Alcohol abuse

protein A (Lpl a J ) is a lipoprotein consisting of an LDL

Toxins:

molecule with another protein (apolipoprotein A) attached

Ethanol

to il. Lp(a) is similar to LDL but does not respond to typical

Ethylene glycol

strategies to lower LDL such as dict. exercise, or most lipid­

Lactic acid

lowering drugs. Given that the level of Lp(a) appears to be

Methanol

genetically determined and not easily altered. the presence

Paraldehyde

of a high level of Lp(a) may be used to identify individuals

Aspirin

who might benefit from more aggressive treatment of other

Cyanide. coupled with elevated venous oxygenation

risk factors. A fairly new test, high-sensitivity (hsCRP), may

Iron

be measured on apparently healthy patients to detemline if

Isoniazid

they are at risk for a coronary event. evcn if their lipid levels are normal or borderline elevated.

The mnemonic MUDPILES is used to remember the causes of a high anion gap. Methanol/metformin

*Oplim:tl le'o'cl, will depend on the number and type of ri-;k facloN prcsclll and whether testing i.. being used in primary or secondary intervention

Uremia I!iabetic ketoacidosis

CHAPTER I Principles i n Assessing Musculoskeletal Disorders faraldehyde/propylene g l yco l

29

Blood, which consists largely of the protein hemoglobin,

In reClion/ischcl11i vi .. son i azid

is broken down by digestive enzymes of the upper GI

Lactate

tract into amino acids.

Ethylene glycol/ethanol

The amino acids. which origimlte from the hemoglobin,

S.al icylate,/starvation

are reabsorbed by the lower G I tracl.

Some people. especi al ly those not in the emergency

Urea is a break-down product of amino acid catabolism;

room. find the mnemonic KILU easier to remember and also

therefore, the protein meal from an upper GI bleed shows

more useful cli ni cal ly :

lip in the blood as urea.

Ketone;

Because of decreased muscle mass. elderly patients may

Ingestion

have an e le vated B U N/creatinine ratio at baseline.

,Lactic acid

Calcium

Uremia

Calculated LDL CBC

All of lhe componeJ1ls of M UDPILES are also covered

with the KILU device. with the added imperative that these

Chloride

th ings can kill a patie nt

Cholesterol

.

Ketones: morc slraigillfofward than remembering dia­

CholeslCrol-HDL ratio

betic ketosis, starvation ketosis, and so forth.

Creatinine

Ingeslion: methanol. metfonnin. paraldehyde, propylene

GGT (Sec earlier discussion.)

glycol. i;oniazid. ethylene glycol. ethanol. and sal icy­

G lobul i n

lales are covered by i ngestion. These substances can

Globulins are roughly divided into alpha. beta. and

be considered as a single group-illgesliolls-during

gamma globulins. These values can be separtlled and mea­

the initial con�idcration. especially when nOt triaging

sured in the laboratory by techniques called electrophoresis

a patient in the emergency room.

and densitometry. The gamma fraction includes the variou�

LaclicAcid: including that caused by infection and shock

types of alllibodies ( immunoglobulins M, G, and A).

(U,ually the bicarbonate lost is replaced by a chloride

Normal values are:

anion. and thus the anion gap is normaL)

Serum globulin: 2.0 to 3.5 g/dL

Gastrointestinal loss of bicarbonate (e.g., diarrhea) (

IgM component: 75 10 300 mgldL IgG component: 650 to 1 850 mgldL

ote: Vomiting causes hypochloremic alkalosis.)

Renal loss of bicarbonate (e.g.. proximal renal tubular

IgA component: 90 to 350 mgldL

acidosis)

I ncreased gamma globu l i n proteins may i ndicate:

Uremia: Renal dysfunction (e.g .. renal failure. hypoal­

Multiple myeloma

doslcronism, distal renal tubular acidosis)

Chronic inflammatory disease (e.g., RA, SLE)

A low anion gap i� re l at ive ly rare but may occur from the

Hyperimmun ization

presence of abnormal positively charged proteins. as in mul­

Acute infection

tipl e myelom a or in the settin g of a low serum albumin

Waldenstrom macroglobulinemia

,

level.

Glucose

Bilirubin (IOtal)

HDL

BUN (See earlier discussion.)

•

BUN-creatinine ratio

The B UN/creatinine ratio is

Ionized calcium LDH

a

rmio of two laboratory test

Phosphorus

values: the BUN and serum creatinine. It is used in the United States. Elsewhere (Canada. Europe). urea is used

Potas� i U 111 •

Serum glutamate ox aloaccta te transaminase

instead of BUN; thus. it is the urea-lo-creatinine ratio, also

Serum glutamate pyruvate transaminase

urea-creatinine ratio. and urea/creatinine ratio.

Sod i um T4 radioimmunoassay ( R I A )

The BUN/creatinine ratio is predictive of prerenal failure, if the BUN-to-creatinine r'Jtio is greater than 20 or the

T4 b y RIA i s the most widely used thyroid test of a l l . I t

urea-Io-creatinine ratio of marc than 0. 1 0 and urea of more

i s frequently called a T7, which means that a resin T3 uptake

than 1 0. I n prerenal fai lure, urea rises out of proportion

(RT3u) has been accomplished 10 correc t for certain medica­

to the creatinine because of enhanced proximal tubular

tions such as birth control pills, other hormones. seizure

reabsorption

medication. cardiac dru gs, or even aspirin that may alter the

.

The BUN/creatinine ratio is useful for the diagnosis of

routine T4 tesl. The T4 renects the amount of T4 in

upper gastrointestinal ( G I ) bleeding in patients who do not

the blood. If the patient does not take any type of thyroid

exhibit overt vomiting of blood. In children. a B U N/cremi­

medication. this test is u su al ly a good measure of thyroid

nine ratio of 30 or above has a sens i tivity of 68.80/0 for upper

functi on

GI b leeding and a specificity of 98%.

•

The reason the urea concentration increases in upper GI bleeds is as follows:

.

Total carbon dioxide Carbon dioxide levels that arc higher or lower than

nonnal suggest that the body is having troublc mainwining

30

CHAPTER I Principles in AssessLng Musculoskeletal Disorders Normal synovial nuid is a hypocellular. avascular con­ nective tissue. In disease, the synovial Huid increases i n

SYNOVIAL FLUID For three significant aspects, analysis of synovial fluid differs from other body fluids: I . Neoplastic processes rarely arfect synovial joints.

2. Recognition of noncellular paniculate material, such microorganisms and crystals and cartilage frag­

as

ments. is essential for defining the disease process affecting the joint.

3. Diagnostic information comes not only from recogni­ tion of cell types but also from their quantification.

volume and can b e aspirated. Synovial Auld is a transudate of plasma supplemented with high molecular weight. sac­ charide-rich

1110lecules. The

1110st notable of these

is

hyal uronan (hyaluronic acid). which is produced by fibro­ blast-derived type B synoviocyte ( Box 1-3). Variation in the volume and composition of synoviai lluid reRects pathologic processes within the joint.

ORTHOPEDIC TESTS In the orthopedic physical examination, a test is positive or a sign is present when the procedure dupl icates the patient's complaint or symptom. Tests are based on joint, muscle, or

its acid-base balance or that the electrolyte balance is upset,

nerve function. If testing causes different pain or symptoms,

perhaps by losing or retaining fluid. Both of these imbal­

it may indeed be significant, but the result is nOI positive for

ances may be the result of a wide range of dysfunctions.

the findings that Ihe test was designed to elicit.

•

Total protein

During an examination, the examiner must use techniques

Triglycerides

that defeat the human tendency of exaggeration. The exam­

Uric acid

iner must conduct several tests and multiples of similar tests

Synovial fluid

so that the patient is not aware of which specific tissue func­ tion is being examined. Wilh lime and exposure to a myriad of orthopedic disorders. examiners develop the skill and

IIOX

accuracy necessary to reach diagnoses efficiently. However.

1-3

interpreting the results of examination processes in a clini­

N O RMAL SYNOVIAL F L U I D

caJly meaningful way requires the examiner to consider the reliability of the clinical measurements and tests.

OsmOlarity

296 mO,mIL

pH

7.44

Carbon dioxide pressure

6.0 kPa (range 4.7-7.3)

Oxygen prc�surt!

<4.0 kPa

sures, bUI also on the sensitivity and specificity of the signs

Potassium

4.0 mmoJIL

Sodium

136 mmoUL

elicited by the test procedures.

Calcium

1 .8 mmollL

Urea

2.5 mmoUL

Uric acid

0.23 mmollL

Glucose

tOO mmollL

Chondroitin sulfate

40 "'gIL

Hyaluronate

2. t 4 gIL

Interpretation and analysis of examination procedures depend not only on Ule reliability and validity of such mea­

DIAGNOSTIC IMAGING MODALITIES IN ORTHOPEDICS I maging procedures are important to the diagnosis and man­ agement of an orthopedic condition. The decision to use any

Cholesterol

Small amounts

diagnostic imaging procedure, especially ionizing imaging

TOl..lI prolein

procedures, should be based on a demonstrated need and

Albumin

-25 gIL -8 gIL

(Xt-antitrypsin

0.78 mcglL

CcnllopJasmin

obtained and a physical examination is conducted. The deci­

Haptoglobin

-43 I1lgIL -90 mgIL

(X.:z-macroglobin

0.31 gIL

Laclofcrrill

0.44 mglL

IgG

2.62 gIL

IgA

0.85 gIL

IgM

0. 1 4 gIL

lL-I�

20 pglmL

IL-2

1 5 . t U/mL

TNF-ct

1 .38 hglmL

INF-ct

350 U/mL

INI'-o

13.7 U/mL

IgA. Imml.lll/)gfo/JII/ifl A; IgG. imfllllllog/oi>u/ifl G; IgM. imlllllllog!obllUn M: IL. imerle"k;lI: INF. illft:ljI!l"Ofl: TNF. tulllor-necrosis/aclor:

Adapted from Klippel lH. Dieppe PA: RlwulI/lIw/agy. \'0/ /·2. ed 2. London. 1998. Mosby.

should be used only after an adequate medical history is sion to use any imaging procedure must also be based on the assumption lhat the results of the eXIDllination. even if negative, will significantly affect the treatment of the patient. The value of the information gained from the imaging exam­ ination must be worth the possible detrimental effects of the procedure. In imaging modalities tJlat use ionizing radiation (plain-film radiography, fluoroscopy, and

CT), the possible

effect of radiation on the patient or future offspring must be considered (Fig. 1 - 1 7 ).

Plain-Film Radiography (Conventional Radiography) Plain-film radiography. or conventional radiography. pro­ vides a wide and di verse array of diagnostic data about musculoskeletal problems. such as soft-tissue injury. bony

31

CHAPTER I Principles in Assessing Musculoskeletal Disorders malalignment, loss of integrity of the osseous structures. and

The patienl's history and clinical evaluation are guides that help determine which portion or portions of the body

joint space abnormality. Plain-film X-ray examination is an efficient way to dis­ cover dislocations, fracLUres, the static component of ana­

requires plain-film imaging and how many different views should be produced (Fig. 1 - 1 8 ) .

tomic subluxations. certain types of stress injuries. metastatic

Radiography i s a useful tool in the initial assessment

disease, some types of primary tumors, metabolic disease,

of rheumatologic disorders because it may providc specific

degenerative arthropathic diseases (Table 1 - 10). and abnor­

infomlalion thaI contributes to establishing a diagnosis.

malities in the growth plate.

Various rhcumatologic disorders have unique fealUres that

Soft-tissue structures require careful scrutiny on film

can be easily detcclCd with plain-film radiographs. Abnor­

because they may offer subtle clues to serious or underlying

malities on plain-film radiographs can be detected with a

pathologic abnormalities.

high degree of sensitivity. Serial radiography is useful in

A radiologic evaluation of the traumatized sites should

measuring structural damage, and features such as erosions.

include films of the adjacent joints. If a need exists for

joint space narrowing. and disease-specific findings can hclp

special projections, other radiologic investigation may be

gauge response to therapy (Dry. 2003).

necessary (Table I - I I ). Care must be taken to investigate the possibility of asso­ ciated injuries in trauma victims (Table 1 - 1 2). Patients may not realize that such injuries have occurred.

Tomography Conventional tomography is also known as thill-section radiography, planigraphy, and linear tomography. Conven­

tional tomography is largely replaced by CT. However, some circumstances. such as evaluating sublle alteralions of bone density and ruling out fracture, necessitate conventional

lA I\ L E 1 · 1 0

tomography. CT scans are used for more detailed apprecia­

PLAtN- F t LM EVALUATION t N DEGENERATIVE

tion of skeletal pathologic processes, which can help evalu­

ARTH ROPATHIC DISORDERS

ate suspected intervertebral disc protrusions or herniations,

Diagnosis

Site of Plain-Film findings

Psoriatic anhritis

Hand. sacroiliac joints (common): pubis symphysis, hip, knee (less common)

Rheumatoid arthritis

Wrist and hand, shoulder. knee. cervical spine. hip

Spondyloarthropathy

Sacroiliac joints. thoracolumbar spine

Osteoarthritis

Lumbosacral spine, hip, knee. foot and ankle, hand

facet disease. or central canal and lateral recess stenosis. I f spinal disease is suspected and is not well idenlified o n plain films and the patient is not responding to care, a CT scan is indicated. A CT scan is especially useful for the appreciation of bone and caJcifications and surpasses magnetic resonance imaging ( M R I ) in this regard. CT has been useful in a wide variely of musculoskeletal disorders, including those related 10 trauma (Fig. 1 - 1 9), back pain (e.g., herniated nucleus pulposus) (Fig. 1 -20), and met­ abolic bone disease (e.g .. osteoporosis, tumor and soft-tissue masses). Two thirds of patients with multiple injuries suffer from blunt chest trauma. and severe thoracic trauma is associated with multiple injuries in 70% lO 90% of cases (LoCicero J 3rd. MallO •. 1989; Pinilla. 1982).

f i G . 1 - 1 7 From left to right and top 10 bottom, An arias of I/ormal roelllgell variants fhat may simulate disease (by

Theodore E. Keats). gonadal shielding, sandbag, DuPont

F I G . 1-18 Displacemenl of fat pads in the elbow by joint

Quanta Delail Rare Earth X-ray casselle screens, and com­

effusion. (From Klippel JH. Dieppe

patible film.

London. 1 998. Mosby.)

PA: RheumatOlogy. vol 1-2.

ed 2.

32

C HAPTER I Principles in Assessing Musculoskeletal Disorders

O R1 1101'1 \l I L GAMli r I 2\

ARTHRITIDES: D IAGNOSIS AND CLINICAL PROGRESSION ASS.ESSMENT STEPS IN RHEUMATOID ARTHRITIS, PSORIATlC ARTHRITlS, ANKYLOSIS SPONDYLITlS, AND OSTEOARTHRITIS radiographs of pelvis, sacroiliac joints, and axial spine

Rheumatoid arthritis Serial radiographs (posteroanterior [PAl view) of hands,

•

annually or every other year

wrists, and feet at baseline and at 6-month intervals for

Serial radiographs ( l ateral and AP views) of cervical,

a minimum of 2 years after onset

thoracic, and lumbar spine annually or every other year

Monitoring frequency decreased after 2 years in patients

Radiographs (PA view) of hands and feet at baseline;

without erosions at 2 years

fol low-up radiographs based on clinical features

Distinguishing radiographic features: bilateral symmetri­

Distinguishing radiographic features: cervical lesions not

cal involvement of the small joints ( hands, wrists, and

typically associated with instability and subluxations of

feel),juxtaanicular osteopenia, lack of proliferative bone

the lower five vertebrae as in rheumatoid arthritis, less­

response, marginal erosions. joint space narrowing.

severe hip lesions than in rheumatoid arthritis without protrusions, osteophytcs along the margin of articular

Psoriatic arthritis •

•

(and spine and other joints if symptoms are present) at

in consecutive vertebrae. sacroiliilis. 'bamboo spine,'

baseline and at 6-month intervals for a minimum of 2

smaller and more localized erosions, and less frequent

years after onsel

joint space narrowing and osteopenia compared with rheumatoid arthritis

Distinguishing radiographic features: asymmetric and possibly oligoarticular joint involvement, initially mar­

Osteoarthritis

ginal erosions lhat become irregular and ill defined, distal

•

interphalangeal joint involvement, abnormalities in pha­

•

Radiographs (PA view) of the hrulds and fect annually Radiographs of the hips (AP pelvic in supine position)

langeal tufts and at sites of uuachmcnts of tendons and

and knees (standing, weight-bearing AP with full knee

ligaments to the bone, possible spondylitis, paramarginal

extension) annually

syndesmophytes in nonconsecutive vertebrae, sausage

Distinguishing radiographic features of osteoanhritis:

digits, proliferative bone changes, and ankylosis

osteophytes, subchondral sclerosis Distinguishing radiographic features of erosive osteoar­

Ankylosing spondylitis

•

canilage of the femoral head, marginal syndesmophytes

Serial radiographs (PA view) of hands, wrists. and feet

Serial radiographs (anteroposterior IAPI view) of pelvis.

thritis: distribution in distal joints of fingers similar to

sacroiliac joints. and axial spine

that of psoriatic anhritis; centrally located erosions; ero­

If early ankylosing spondylitis is suspected, repeat pelvic

sions typically absent i n metacarpophalrulgeal joints

radiographs 6 months from baseline; otherwise, serial Adapted from Ory PA: Radiography in the aSSCS\IllC'llt of mu,>culoskeletal condj(ion�, Ik�/ Prtlc/ R('\ Clin Rlll'lflll 17(�1:495·5 1 2 . 2003.

Among hlum injuril!!oi 10 the chest. lung contllsion is con!'lidcred one of the mo�t important factors contrihuting to

Discography Although effective, discography has been a controversial

the incre"lsed morbidity and mortality of patients with mlll�

imaging modality for spinal disc disease. Clinicians use

riple injuries (Johnson. Cogbi ll. Winga, 1986: Schild el al.

discography for specific cases of spinal pain that arc recal­

1 986).

citrant to conventional therapy. emergency

Discography is an important diagno�tic procedure in which

department for blunt injuries to the chest includes a routine

disc pressure comrolled by need le injection is correlated

chest x-ray taken in the supine position m ; d an ultrasound.

with degree of lumbar pain rcp<Jrred by the patient. Although

Despite this approach. significam injuries such as pneumo­

imaging studic'i. such MRI. call be used to document paLho­

The

usual

diagnostic

work-up

in

rhe

thoraces. hemothoraces. and lung contusions can be missed

logic changes in the disc. some studies have 'ihown a poor

during the initial trauma assessmem (W:'lgner, Jamieson,

con'e1ation between MRI findings and clinical symptoms

(989).

because di!'lc degeneration and hernimion incrc<'lsc wil.h

CT scanning is accurate in visualizing intrathoracic inju­

normal aging (Boden el at. 1990).

ries. In addilion, the availabil i ty, reliability, and low com­

The high incidence of asymptollliltic findings on MRI

plication rate of CT scans has led to its widespread use in

makes imcrprelalion of patienl ,,(udies morc difficult becau\c

the evaluation of blunt trauma.

each imaging finding must be closely correlated 10 symp­

Clinicians often use the noninvasive technique of quan­ litatjvc CT to mea�ure bone mineral density.

LOIllS Ihat can be relatively nonspecific in mallY palicllls.

MRI alone is not able 10 differentiate \ymplOmatic from

33

CHAPTER I Princi ples in Assess ing Musculoskeletal Disorders

TA B l E I- I I PREFFRR£D RADIOGRAP HIC VI EWS I N SKE LETAL TRAUMA

Arca

Specific Views

Area

Specific Views

Skull

POSlCroanlerior or anteroposterior Caldwell

Sternum.

Posteroanterior

Townes Uilcral (one lateral should be upright)

sternoclavicular joinLS

Right and left anterior obliques with cephalad angle of lube Lateral

Facial bones

Waters

Elbow

Anteroposterior

Modified Waters

Lateral

Caldwell

Capitellum

Lateml Cervical spi nc

Anteroposterior Coned odontoid or oflhopanlogram

Radioulnar joims (forearm)

A meroposlerior or posteroanterior Lateral

Odontoid Lateral (cross�table or upright) Swimmer latem! (cross-table) BOlh obliques, when possible Thomcic spine

Anteroposterior

Wrist and hand

Posteroanterior

Lateral (cross-table or routine)

Oblique imerna!. ex.temal. or both

Swimmer (coned to upper thoracic spine)

Lateral Navicular views. if needed

Lumbar spine

Anteroposterior

Pelvis, acetabulum

Anl.eroposterior Obliques (Judet)

L
Anteroposterior (tube-angled cephalad) Lateral

Hip. proximal part of femur

Anteroposterior pelvis Frog·leg or cross-table lateral Obliques

Chest

Posteroanterior or anteroposterior

Femur

Anterol>osterior (to include hip and knee) Lateral (to include hip and knee)

Left lateral (may not be possible in Lrauma) Lateral decubitus (pneumothorax.. pleur'c11 Ouid) Ribs

Anteroposterior or posteroanterior Oblique

Distal part of femur and knee

Anteroposterior Latcml Tunncl Internal oblique

Shoulder

Anteroposterior (internal rOlation)

Tibia. fibula

Antcroposterior (to include ankle and knec) Lateral (to include both joints)

Anteroposterior (ncutml) Transscapular lat.eral (NeeI') Axi llary Humerus

Anteroposterior (to include elbow and shoulder)

Ankle

Latcml (10 include both joints)

Anteroposterior Oblique (mortise) Lateral

Clavicle

Anteroposterior or posteroanterior (to include

Calcancus

Tangential Lateral

both joints with and without weight bearing) FOOl

Laternl Anteroposterior Oblique Lateral

From Gu:;tilo RB. Kyle RF. Templeman DC: Fr(lCfU"e� ami (/islocmio//'\', 1'01 I. 51 Louis. 1993. Mosby,

asymptOmatic degenerative disc Changes (Scuderi et al. in

Lhe sagittal, coronal, o r axial planes, a s well a s a n y other

pres:;).

oblique plane desired. The MRI can i mage neuro logi c struc­

Magnetic Resonance Imaging M R I is a computerized, thin-section imaging proced ure that

tures and other soft tissues and can reveal disc degeneration before any other imagi ng method. Indications for MRI are similar 10 those for CT. M R I is superior to CT for the

uses a magnetic field and radio·frequency waves rather than

evaluation of suspected spinal cord tumors or damage intra­

ionizing radiation. M R I can produce thin-section images in

cranial disease. and various types of central nervous system

.

34

CHAPTER I Principles in A"essing Musculoskelelal Disorders

" IZI II"I' I I) l l (,\\\1 1 1 ' j

ASSESSMENT ABILITIES AND LIMITATIONS OF PLAIN-FILM RADIOGRAPHY

r------

I . Plain- if lm radiography is Ihe leasl expensive and mosl widely ..vailable imaging lechnique.

2. Radiography offers higher spalial resolulion than any other modalily, providing exlremely high contrast for cortical and trabecular bone. 3. Radiography affords only a projectional viewing per­ spective.

4. Projeclion of three-dimensional anatomy onlo a 1\\'0dimensional film results in morphologic distortion and superimposilion of overlapping struclures.

5. The sensitivily for trabecular bone los> is relalively poor.

6. As much as 30% 10 50% of lrabecular bone must be removed before Ihe change becomes perceplible on convenlional radiographs.

7. The contrast for soft lissues Ihal are not calcified or fauy is relatively poor.

8. Radiography cannOI directly visual ize Ihe articular cartilage, inflamed synovial lissue, joint effusion, bone marrow edema, or intraanicular fat pads.

(1IZIII " I' I I) I (

(,\\\1 I I "

ASSESSMENT A B I LITIES AND LIMITATIONS OF COMPUTED TOMOGRAPHY I . The grealeS! advantage of CT over convenlional radi­ ography is its lomographic nalure.

2. CT provides high contrast belween bone and adjacem

F I G.

1-19 Complex acetabular fraclure. A, Anlcropo,lerior

tissues and is excellent for evaluating osseous struc­

plain film. B, Axial computed tomography scan. (hum GU'lilo

lures.

R H . Kyle RF. T�mplcman DC· rraC"lIln.'\ mul di,hlnllimu. \01 I Sl l.oui,

3. CT offers slightly grealer SOh-lissue contra>! than

1993. M
radiography.

4. Image contrasl is insufficienl lo visual ile the articular canilage or synovial tissue or to discrimjnate between lendonilis and tendon ruplure.

5. CT reveals only Ihe surfaces of these struclures; il does nOI disclose intra substance changes that may precede gross morphologic disruption.

cilha diagnmm. or operative planning. A "'OfHiv..ue rna..... In the hand may be a manifc..tallon of ncopla...m. congenital malformation. infection. other inOammalory proce ...... or trauma. Infcctiou... and traumallc cau ..c... arc more prc\alcOi

111 pediatric palicllI!'I than ncopla,ia or congcmtal malfonnalion. The evaluation of the...e ma,...c!'l ...hould IIlclude an a....e . .... menl

di «asc (e.g .. multiple sclerosis). M R I is especially lIseful in

of the extent of the ...oft-u......ue.

m...cou....

and

ncurova,cular II1volvement. Of all Ihe lIunging ImxJalllle"

identifying small di fferences among similar soft tissues and

MRI i ... he..., ..uiled for ,hi... role (Jimene/. Jaramillo. Con­

surpa"es CT in Ihis regard.

nolly. 2(05 ).

The evaluation of a child with a \uspccted ..oft ti"..uc mass

In Ihe management of low back pain and lumbar degen­

III the hand i.., . 1 chal lenge. Imagmg evaluation ... houkl t>egin

erative kyphosis disorder!'!, paraspinal muscles are subjected

with radiograph... that l11a) reveal the diagno..i!'!. Further

to many slUdies using ultrasound, CT. needle eleclromyog­

· ith uhra...ound. CT. or MRI is often required for imaging ....

raphy (EMG). and histopalhologic analysis. MRI can evalu-

35

CHAPTER I Principles in Assessing Musculoskeletal Disorders fA 1l 1 E 1- 1 2 I N I U RI ES ASSOCIATW WITH SKELETAL TRAUMA

Fracture

Associated Injury

Bone and bone

Remote additional spinal fracture

Spine

Scapula fracture

Chest wall

Sacrum fracture or dislocated

Anterior pelvic arch Femoral shaft

sacroiliac joint Fracture or fraclUrc-dislocation of hip

Tibia (severe) Calcaneus

Dislocated hip Fractured thoracolumbar spine

Bone and viscera

Ruptured mcscnlcry or small bowel

Chance fracture of spine

Laceration of liver. spleen. kidney. or diaphragm

Lower ribs Pelvis

Ruptured bladder or urethra

Pelvis

Ruptured diaphmgm

Bone and vascular

Ruptured aona

Ribs I . 2. or 3

Myocardial contusion

Sternum

Laceration of pelvic arterial lree

Pelvis

Laceration of femoral artery

Obtai third femur

Popliteal ancl)' laceration

F I G . 1-20 Axial image showing a right paracentral hernia­

lion of the nucleus pulposus.

(From Brier SR: Prim(lr" {"(Ire orOw­

/u'lJicl. 51 Lou i )l. 1 999. Mo�by.)

Knee dislocation Adapted from Roger� IF. Hendrix RW: Evaluating the multiple injured patient radiographically. Orillop CIi" Norlll Am 2 1 (3):444. 1990.

O RI II O I' I Il I ( (,,\ �1l1 1 1 '>(,

USES Of DISCOGRAPHY To rule out disc involvement. especially as a cause of postoperative pain To detennine the appropriate level for spinal fusion To test the potential effectiveness of chemonucleoly­ sis To visualize internal disc anatomy

OIU 1101'1 J) I ( (, ·\ M ll I I 2 7

fOR CERTAIN PATHOLOG [ C COND [ TlONS, MAGNETIC RESONANCE IMAG[NG [ S THE D LAGNOSTIC PROCEDURE O f CHOICE I . Spinal disc disease 2. Medullary tumor 3. Mulliple sclerosis

4. Cerebral edema 5. Spinal stenosis 6. Metastatic disease 7. Hemiated disc 8. Discilis (or infection)

9. Meniscal lear ( fibrocartilage abnormalities) 10. Central nervous system tumor

I I . Soft-tissue tumor ate fatly infiltration in the muscles and the fascia status overlying the muscles. The MRI enables the examiner to distinguish between muscle and fibrous tissue. The ratigue or the lumbar muscles is probably one or the

(l JU II () I' I J) I (

mO!
a

cause. of low back pain. whereby pain limits

(, \\\11 I I .> H

ASSESSMENT A B [ L 1 T 1 ES NO L 1 M [ TATIONS O F MAGNETIC RESONANCE [ MAG[NG

movement and muscle atrophy OCCUf!
I . Diarthrodial joints are panicularly suitable for MRI.

1984).

2. MRI is unparalleled in its ability to depict soft-tissue

For patients who have sustained head trauma with skull fractures. MRI is an efficient way to identify the early signs of cerebral edema. The test procedure of choice for diagnos­ ing metaslalic disease is an M R I scan (Table 1 - 1 3 ).

detail. 3. MRI is the only modality lhat can examine all com­

ponents of the joint simultaneously.

36

CHAPTER I Principles in Assessing Musculoskeletal Disorders

TA l\! [:

1 - 13

MAGNETIC RESONANCE IMAGING VERSUS COMPUTED TOMOGRAPHY

Anatomic Area Brain (including brainslcm)

Ear, nose. throat, and eye

Musculoskeletal spine

Indications

Recommended Procedure

Inilial evaluation (e.g., demyelination disease seizures)

MRt

Previous normal cr

MRI

Previous abnormal CT

CT or MRI*

Unchanged abnormal CT with increase in symptoms

MRI

Contrast aJ lergy

MRI

Acute trauma

CT

Pituitary tumors

MRI

Neurosensory hearing loss (e.g., \0 rule out acoustic neuroma)

CT

Conductive hearing loss

CT

Cancer staging (including laryngeal cancer)

CT or MRI'"

CholeMealOTna of temporal bone

CT

Fractures of facial bones

CT

Thyroid or parathyroid dysfunction (artcr US)

MRI

Sinus conditions

CTor MRI*

Orbital disease

MRl or CT*

Disease of optic t:racLS and chiasm

MRI

Internal derangement of lemporonmndibu,lar joint

MRt

Lower back or radicular pain in younger person

MRI

Lower back or radicular pain in older person

MRI or CT*

Cervical disk disease

MRt

Spinal stenosis

MRt

Cervical

CTor MRI*

Lumbar

MRI

Tumors

MRt

Metaslalic disease Hips Extremities Chest

Abdomen and pelvis

Early detection or aseptic necrosis

MRt

Congenital hip dislocation or reduction

US

Tumors, disease. or injury to muscle. ligaments. or c
MRI

Confirmation or calcificution or rracture

CT

Diseases or the hi la

MRI

Diseases or the mediastinum

MRI or CT*

Lung disease

CT

General survey (e.g., to rule oul !Ulnar)

CT

Li\'er disease

CTor MRI*

Renal cell cancer staging

MRI

Prostate disease

MRI. CT. or US

B ladder disease

MRl orCT

Abdominal aortic aneurysm

MRJ*

Other

cr. Computed tomography: MRI. mugnctlc resonunce imaging: US. ultrasonography. *Consult r.ldiologiSi for imaging options. From Brier SR: Primary eMf! ortlwpedicx. 51 Loui!l. 1 999, Mosby; originally councsy of Roben Goodman. MD. Soulh Sun·olk MRI. Pc. Bayshore. New York.

The guideline ror using the imaging modalities 10 best advaIHagc can be summaril.cd as follows: Using slate

of IIle

Contrast A rthrography

art M R techniques with high resolulion, at lcasi lwo plancs,

The conventional usc of arthrography in musculoskeletal

fast sequences, phaSed-array coils, and established technical

disease involves the use of air to distend a synovial joint and

parameters. M R I can answer all clillical questions. This

a radiopaque contrast agent to outline anatomic structures,

guidelinc applies 10 conditions treated conservatively or sur­

The injection of contrast material into the joint space results

gically, as well as to all manifestations of degenerative spine

in a radiographic outline of the cartilage. menisci, ligaments.

disense. In particul;u. only MRI can identiry abnormalities

or synovium. Conventional arthrography is used in diagnos­

within the spinal cord as syringomyelia or myelopathy

ing the scope and magnitude of orthopedic trauma to the

(Krcu :schmar, 1 998),

shoulder, wrist. knee. and ankle (Table 1 - 1 4).

37

CHAPTER I Principles in Assessing Musculoskeletal Disorders

TA B l

E 1-14

JOI NTS TYPICALLY STUDIED WITH COMPUTED TOMOG RAPHIC ARTHROGRAPHY FOLLOWING TRAUMA

Joint

To Observe

Knee

Meniscus. cruciate and colhlleral ligaments. hYlilinc cartilage tears, osteochondral delects

Shoulder

ROlator cuff, glenoid labrum disruption

Hip

Hyaline cartilage integrity and teurs.

Wrist

Triangular fibrocartilage, intercarpal

Elbow

Hyaline cartilage integrity.

A n kle

LigamenLous lears. osteochondral

Temporomandibular

Disc and condylar integrity

pro!!lhctic joint loosening ligament imcgrilY osteochondral defects defects

Adapted from GUl>lil(} RB. Kyle RF. Templeman DC: FraclI!res allli (Ii:.!oCll/iol1:'i, 1'01 I. 5t Loui .... 1993. Mosby.

0 1( 1 1 1 0 1' 1 Il l l

A

l,,\MIII I 2<)

ASSESSMENT ABILITlES AND LIMITATlONS OF RADlONUCLIDE SCANNING

•

I , The principal advantage of scintigraphy over oLher imaging modalities is its ability to help in identifying tissues or organs with abnormal physiologic Or bio­ chemica.l properties. 2, Increased skeletal uptake can be seen at sites of ele­ vated blood flow or increased bone metabolism, 3, Scintigraphy is a convenient way of surveying the enlire skeleton for multifocal processes,

COl1lra�l-cnhanccd cartilage imaging can visualize early degenerative cartilage lesions before substantial morpho­ lugic changes occur. The application or contrast agent can

he performed a� either direct or indirect M R arthrography. Despite the advantages of indirect MR arthrography using intravenolllo. contrast material. direct M R arthrography has gained increasing popularity

il:-;

B F I G.

1-2 1 Normal bone scans.

(From Earl), PJ, Sodcl DB: Prin­

dples (lml practice of mtl.·lea,. IIU!tiicifll!. Sl Louis. 1 995. Mosby.)

a safe diagnmaic 1001 in

assessing subtle illlraanicuiar derangements. including the evalu�lIion of articular cartilage especially in the shoulder, the hip, the ankle. ilnd the postoperative knee (Guntern

lomography ( SPECT) scans, are valuable in diagnostic

C\ a1. 2003: Kassarjian CI al. 2005: McCauley. 2005: Schmid

imaging because of their highly sensitive and noninvasive

CI ul. 2003),

nature. Whole-body scanning for metastatic and infectious

Radionuclide Scanning

di seases, as well as in flammatory and ischemic processes. is possible with scintigraphy (Fig. 1 -2 1 ),

Examinations conducLed wiLh the use of nuclear medicine

Highly active individuals (e.g.. competitive athletes) are

techniques, including bone scans. posiLron emission LOmog­

prime candidates for bone scanning when the diagnosis

raphy (PET) scans. and single-photon emission computed

is uncertain. A bone scan may show increased uptake or

38

CHAPTER I Principles in Assessing Musculoskeletal Disorders

the radioactive isotope consistent with a Slfess fracture (Fig. 1 -22). Because of the high incidence of falsc-ncgalivc radiographs early in the course of stress fractures, additional diagnostic imaging is oftcn indicted. Radionuclide bone scanning has traditionally been the Lest of choice in this situation but is being supplanted by M R I . An increased uptake observed on a bone scan correlates with increased bone activity caused by fatigue failure and confinns the diagnosis of stress frac­ ture (Sehils et al . 1 992). Despite being sen�itivc. bone scanning is nOI specific and can yield false-positive rates between 1 3% and 24%. Additionally. localiJ.ing the precise anatomic location of injury can be difficult (Steinbronn. Bennet!. Kay. 1994).

Bone scanning has become common in the evaluation of child abuse. Very young chi ldren typically do not develop stress fractures of multiple fracture sites in normal living situations (Fig. 1 -23).

Video Fluoroscopy Video fluoroscopy is used when a function study of the joint is warranted. Video fluoroscopy should be used when a biomechanical abnormality is present but is not adequately demonstrated by plain-film stress surveys or other examina­ tion methods. Three-dimensional mOlion visualization in the context of clinical and biomechanical analyses of the musculoskeletal �ystcl1l is becoming a key instrument for investigating its complex mechani�rnJ, and the

awkward

characteristics

(Lcardini cl al. 2006). Conventional

inslrumented

gait

analysis

with

skin­

mounted markers has the disadvantage of measuring arte­ facts because of skin movement relative to the underlying bones. Video fiuoro!'ocoPY i!'o a well-established mcthod of marc accurately mca\uring knee joint kinematics by avoid­ ing the usc of skin markers. The small field of view of the image intensifier and thc ability only to gain kinematic data are lhe two main dbadvantagcs of this system (Zihlmann ct .1. 2006).

Diagnostic Ultrasound Diagnostic ultra ound, a sound wave echo study. is particu­ larly useful for evalualing soft tissues. The diagnostic ultra­ sound does not provide the same quality of image as CT or MRI. Diagnostic ultrasound requires high-resolution equip­

B

ment. including a high-frequency transducer. Diagnostic ultrasound perfomls well in the detection of rotator cuff tears and other tendon abnormalities, as well as in identifying some metabolic disease. In cases of suspected pediatric hip disease. diagnostic u ltrasound is the recommended primary imaging technique. Preoperative ultrasound-guided marking of calcium dcposits significa11lly enhances the clinical re�ults of arthroscopic removul of calciulll deposits. The success of this type of surgery is largely dependcnl on the exact localil.ation and removal of calcium deposits. Complete removal of calcium

FIG. 1-22 Radiographic film (A) and bone scan (B) dem­ onstrating Slress fracture. (From Nichola... JA, Hen-hm:!n EB: lower exm'mity mul .fpillt' in

Mosby.)

.�/}()rtf

The

meliil'illt!, cd 4. St Louis, 1995.

CHAPTER I Principles in Assessing Musculoskeletal Disorder.

39 _ _ .....

___

IIOX 1·4 STRENGTHS AN D L IM ITATIONS O F MYElOGRAPH I C ST U D I E S

Strengths Studies 01" the subarachnoid space arc poss.ible. Inlraarachnoid lesions are shown. Demarcation of multi-disc levels is shown. Information on surgical scars is provided. AS'icssment of ftexion and extension dynamic

•

arc

possihle,

Limitations Lesions removed from outside of the thecal sac can be missed. Study variations are problematic. Detail shown in the dorsal spine is poor.

•

Postoperative studies arc impossihle to read with accur.J.cy. Testing. procedure is invasive. From Brier SR: Primlln- cart' onho/H·t!in. St Loui�, 1999. Mosh)'.

A FI G

Myelography

B

Traditional myelographic techniques involve Ihe inlroduc­

1-23 A, Whole-body scintigraphy. B, Normal bone

scan is shown for comparison. (Fmm Klippel JH. Dieppc

PA

Rht'lIInuw!og\', "01 1·2. eel 2. London. 1 998. Mo�by.)

lion of 'imall amounts of water-soluble contrast medium into the subarachnoid space, either through a lumbar approach below the level of the conus medullaris or at the level of C I -C2 through a posterolateral approach. Standard films of the spinal canal are made to determine the presence or

1l1�l l l ll l' I I) 1 1 (,\\\1 I 1 ,(I

ASSESSMENT A BILIT I ES AND L I MITATIONS OF ULTRASONOGR APHY I . U ltrJsonography offers direct multiplanar tomogra­

phy without any need for image reformatting. 2. U ltrasonography can also provide i mages in real time, without any exposure to ionizing radiation. 3. The modality is inexpensive and widely available.

absence of a filling defect. In cases of acute spinal trauma, myelography may be used in conjunction with CT (Fig. 1 -24). Myelography remains valuable in evaluating intrinsic spinal cord lesions, nerve root lesiom and dural tear!) asso­ • .

ciated with severe trauma ( Box 1-4). Depending on patient selcction and therapeutic strategy. the role of plain CT and MRI. as well as myelography comhlncd with myclo-CT. in the diagnmtic evaluation of dcgenerative change\ of the ,;pinc is judged diffcrently ( Krcl.t\chmar.

1 998).

4. Ultrasonography offers relatively good soft-tissue

In paticnt, with di\k dlsca\c. plain-film cr for initial

contrast and is panicularly effective at helping

diagnmtic examination is rccommcnded. if the complaints

to identify fluid collections such as bursitis and

are non\pccific (Thornbury ct al. 1 99 1 . 1 993).

abscesses. 5. Ultrasound waves cannot penetrate bone.

If the clinical finding:o, \uggest a herniated dis�. MRI should he given prcfcrence ovcr myclog.raphy comhined with myclo-CT. Thc U\C of non ionic contrast media without meningeal irritation or neurotoxicity ha� reduced the mor­ bidity of myelography < Krett...chmar. 199K).

dcro�lt... correlatc!'! with good or excellent clinical rcsult\ c Porccllini cl ::II. 2()().l: Rupp. Scil. Kohn. 2(00 ).

Thermography

Identlrying the COUI"\C of the calcium dCPQI;it i\ therefore

Using temperature differentials of the body. Ihermography

extremely importanl. The prescnce of a calcium dcpo\lI with

illustrates neurovascular changes in injury or dh�ease. Ther­

an atypical cour\c and location more proximal 10 the joint

mograms do not provide speci ic f information regarding the

complicates the opcmlion c\'cn further Failure to locate the

cause of nerve fiber irritation (e.g .. herniated disc. scar

calcium dcpo.. 11 can make the ...urgical process extremely

tissue_ myospasm).

fnlslratmg and may rcsult in a vcry long operativc time ( Kayscr ct al. :W(7).

Reflex sympathetic dywophy is pan of a spectrum of sympathetically mediated pain syndromes that usually occur

40

CHAPTER I Principle> in As;essing Musculoskeletal D i sorders

(\1(l 11(l1' 1 1) 1 ( (,\\\ 1 ' 1 I ; )

I-

ASSESSMENT A BILITIES AND LIMITATIONS OF T RMOG RA!'.H_ Y_ --= ....:. H .:...: .E ::..:. ..:

_ _

I . The thermographic examination

is conducted with the

use of contact liquid cl)'slal detectors or electronic infrared sensors. 2. Thennography is extremely scnsiti\'c to

Ill

icro\'ascu­

lar changes in the skin. 3 . ThemlOgraphy IS excellent f"r differentiati ng between

a neurologic and vascular abnormality. 4. Thennography has a greater degree of 'cns l l l \ lIy in

documenling neurovascular abnormality than any other imaging sy\lcm.

5. Thermography has a greater degree of spec i ficity of image than mdionuclide hone scan.

6. Thermography has a lesser degree of speci licity of Image resolution than CT or ,\1RI.

Motor and trophic \ymptom.... ho\\c\cr. characlcri/c mmplex regional pam ,yndromc, hut arc not found after acute trauma. Thc\c latter 'ymptom, ob\iou,l) need time to de\cJop. and the durallon of d .. ,ea,e clear!} "::panuc" complex regional pam ,,)ndrome' (\\ccb) ,\Ild trJlllna (da)" (811-)"'lell1 ct al. 2000 ).

Electrodiagnostic Testing Although electrodiagnostic testing provides valuahle infor­ mation. it docs not stand alone as a diagnostic entity (Table

I - I S). The data obtained must be correlated

w

i lh the phySi­

cal examination findings and case hi\lory. Electrodiagnostic testing can potentially dliTerent i ate asymptomatic dh , k hcmialions rrom symptomatic ones. A minimal amount of dencn'aLion can occur in asymptomat ic ..,pines. With �urface measurement of motor nerve conduction. velocity provides a "aluable anci llary procedure In the diag­ no�is of various pcriphcral nerve lesions in both thc upper and lowcr extrcmities. This form of testing involves stimu­ F I G . 1-24 Lumbar myelogram ( A ). with computed tomog­ raphy aX1i.I1 imuge (8) through the T 1 2 body. (hom GU... lilo RB. Kyle RF Fm('tllrt'\' rllld d/\lowtfOlI\, vol 1. SI l.oui ... 1�J3. �10,hy. )

lating a peripheral ncrve at two ...eparatc po...itions along it ... COUfl)C and recording the action potentials obscrved on an

oscilloscopic scrcen. Slow conduction time'> indicate nCf\'C entrapment syndromes across the poi III HI whir h thc il11puhc� are delayed. Thc electrical rcsponses of nCf\OllS system sensory trad"

in an extremity after a \ccm i ngly minor injury or

\

urgical

are SOIl1l11o.\ellsory-e\'okl'l1 potentials (SSEPs). SSEPs evalu­ atc varioul) pathologic variation!) from the peripheral nene

procedure . Even Lhough certain ...imilarilic... cxi--I helwccn aculccomplcx

through the spinal cord to the \omatoscll..,ory region of the

regional pmn \yndromc\ (n:tlcx \yrnpathclic dy\lrophyJ and

brain. SSEPs assess discascs of thc "'pinal cord. trauma

patient...

to thc spine. ncuromuscular diseasc. and demyelinating

\\ IIh

acule trauma. detailed illvc\tigauol1 or the.....:

...ign ... n!\ic.lh ...lriking di fference... . The dinical ... imi lnril)­ compn ...c\ pam. hypcralgc...ia. and ..,ome prc... umahly auto· nomic di,turhancc\ (edema and ,kill tcmpcnllurc change..,),

disorders. U,ing needle electrodes, needle EMG is

\\

idely u,ed to

diagnosc nCf\'C root le... ions at the level of the 'pille. EMG

4,... 1 _----'

CHAPTER I Principles in Assessing Musculoskeletal Disorders

lAll L I I 1 5 STRENGTHS A N D liMITATIONS O F ELECfRODIAGNOSTIC TESTING

Testing Modality

Strengths

Limitations

Nerve conduction velocity

Helpful in ruling OUI peripheral cntrapmcni neuropathic

Provides imperfect sensitivity; limiled locali/..alion

conditions (c.g., prolonged latencies exhibited in

and determination of injury severity; Liming of

carpal tunnel syndrome, tarsal tunnel syndrome) lind

study an imponant factor

ulnar neuropathic variations F waves

Evaluates motor reflex only: possibly evailimes

Provides screening for lale mOlor response with distal sweeps staning at the fool

abnonnal findings only in lhe presence of multiple-level injury

l-I reflex

Provides assessment of S I nerve root only

Equivalent of ankle join! reflex: evaluates monosynaptic reflex with sensory and mOlor S I function Helpful in documenting sensory pathway dislUrbances

SSEP,

Offers imperfect localization: findings arc rarely

in proximal neural injury and central conduction

abnonnal if results of other electrodiagnostic

delays, as in myopathies and multiple sclerosis Needle EMG

tests within nomlal limits

Useful in assessing conductivity of ncuntl tissues:

Unable to detect denervation potentiab for 14 to 28 days aftcr injury: provides imperfect

helpful in determining sile and severity of lesion; may be helpful in carly assessment of recovery.

5.Cnsitivity: study timing an imponant factor:

screening for fibrillation potentiab. and signs of

proxinu11 lesions sometimes inaccessible

denervation from nerve rOOI compre�sion disorders

anatomically: effectiveness reduced after surgery

EMG. Eh..'Ctmmyography: SSEPs. .;omutoscmory-c\lokcd potential!..

Adapted from Brier 5R: Priman' ('lirt' ortl/Of1l'dic.�, 5t Loui!., 1 999. Mo<,hy.

llltl l llll'l nil l,,\'\\ ll l I \2

ASSESSMENT A BILlTlES AND LIMITATIONS OF NERVE CONDUCTlON VELOCITY I . Studies of nerve conduction velocity (NCV) can rule out peripheral neuropathic conditions. 2. Routine NCV tests are not specific for conditions

such as radiculopathy, but they may be helpful i n cases o f chronic pain that have a questionable spinal origin.

F I G . 1-25 The IMEX portable Doppler

(righl).

audibly

lllU IIll l' l llIl t, " I ll I I II

monitors pulses in noisy environments when palpation is

ASSESSMENT A BILITIES AND L1 MlTATlONS OF ELECTROMYOGRAPHY

queslionable or not possible or when the pulse is especially

I. Electromyography (EM G) shows fibrillation poten­

weak or rapid. The Doppler also aids in the assessment of circulation distal to fractures, burns. and other injuries Lo quickly determine the extent of injury. Transmission gel

(Iefl)

is used to couple the Doppler head to the skin

tials and possible motor unit changes in denervated

surface and eliminate air gaps that can degrade sound

muscles.

transmission.

2. Denervation of paraspinal muscle, indicates that the

patient has a lesion at the nerve root level. 3. The usual finding of needle EMG in a palient who has dorsal root disease is normal.

4. It does not provide any information with respect to the locus of injury (e.g., root, nerve, muscle) and, in fact, often rcneclS associated tissue injury rather than neurovascular dysfunction.

42

CHAPTER I Principles in Assessing Musculoskeletal Disorders

differentiates a central spinal lesion from a peripheral neu­

Laser Doppler flowmetry is a valuable noninvasive method

ropathic condition. Resuhs of the procedure are accurate i n

for investigation of the very early skin vcnoartcriolar dys­

differentiating disease o f a neuromuscular origin.

Doppler Ultrasonic Vascular Testing

functions. for evaluation of focal autonomic dysrcgulation and skin vasomotor abnormalities in patients with Raynaud phenomenon. Laser Doppler-recorded vcnoartcriolar reflex

Doppler vascular testing allows the assessment of pulses in

testing i� a simple procedure and an adequatc addilional

noisy environments or when pulses are weak. This lest is

diagnostic 1001. which contribute� to diagno�c Raynaud phe·

efticient when palpation of a pulse is questionable or not

nomcnon and differentiate primary frolll secondary Raynaud

possible. The Doppler instrument aids in the assessment of

phenomenon (Stoyncva.

circulation distal to fracture sites. burns, and other injuries lhal potentially compromise vascular tissue, quickly deter­ mining the extent of injury (Fig. 1 -25).

200�).

CHAPTER I Principles in Assessing Musculoskeletal Disorders

43

C R I I I CA L 1 11 1 N 1\.1 N (; I . In the complaint history of a musculoskeletal condi-

lion, what essential points

hould be included for

proper history taking by an experienced examiner?

2. Name the five essential steps in drawing a working diagnosis for your patient.

3. Name the Cr;t;cal 5 questions in orthopedics.

S. How are the two tests penormed?

9. How would you describe the presentation of a patient with scleralogenous pain?

10. Why is serial radiography useful i n a patient with rheumatoid arthritis? I I . What area or areas would you monitor?

4. Describe lendrassik maneuver.

1 2. How Frequent should radiography be used?

5. You have a patient who is complaining of unrelenting

1 3. You have just diagnosed a case of AS. How frequent

spinal pain who demonstrates full and pain-free range

should you penorm serial studies of this patient?

of motion. What two problems should you consider

14. What areas should be monitored? 1 5. A question of causation arises in a child with multiple

with this presentation? 6. Describe the difference and what information can be obtained from the five rung test and the max;mal stalic grip when using a Jamar dynamometer.

7. What are the significances of the clinical findings of the static grip test and the REG test?

complaints. What imaging procedure would you recom mend for this child? 1 6. SSEPs are useful in the evaluation of various pathologic conditions. What part of the nervous system is evaluated with this process?

44

CHAPTER I Principles in Assessing Musculoskeletal Disorders

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C H A PTER 2 Assess ing Cardi nal Musculoske letal Sym ptoms and S ig n s

69

TA B U 2- 1 2 TREMOR C LAS S I F I CAT I O N

Cause

Type and Rate of Movement

Anxiety

Fine, rapid. I () to 12/scl' Fine, regular. or coarse. 2 t o 5/sec

Parkinsonism

Description I rregular, variahle I ncreased by attempts to move part; decreased by relaxation of part Occurs at rest May be i n h i bited by mov e me nt

Involves flexion of fi nger and thumb pill rollillg

Accompanied by rigidity. cogwheel phe n ome n a , brady k i nesia

Cen:hcllar tremor

Variable rate

Evident o n l y

on

mo ve m c n t (most prom i nent on linger-to-nose test)

Dysmetria (seen when patient i s asked to pat rapi d l y ; pats are of unequal force Essential

or

Coarse. 3 to 7/sec

seni Ie

Metabolil'

and do not all arri ve at same point)

I n volves the jaw. sometimes the lOngue, and sometimes the entire head Disappears on complete relaxation

or

in re s pon se to a lcoho l

Yariahle Patient is obv iously i l l ; if i l l ness i s a res u l t of hepatic fai' l u rc, patiel1l w i l l have other signs, such as palpable l i ver, spider nevi

From Barkauskas YH et al: Health & physical assessmefl/. ed 2 , St Louis.

1 998. M osby.

Cramps and Spasm Muscu lar spasm, or tremor (Table 2- 1 2), may occur at rest or with movement. S pasms and tremors occur in the normal ind i vidual with metabo l ic and electrolyte a l terations. Cramp­ ing is a common complaint after excessive sweati ng and subsequent hyponatremia, hypocalcemia, hypomagnese­ mia, or hyperuricemia. Exercise-associ ated muscle c ram pin g is a pai n fu l . involun­ tary contraction of skeletal muscle that occurs i mmed i a tel y

after e x e rc i se . Any athlete who e x h i bi t s repeated epi sodes of muscle spas ms should u n d ergo a comprehensive h is lOry

and p h y s ic al e x a m i n ation and. in most cases, l aborato ry

studies to evaluate e l ectro l y te s . Athl etes should a l so have a

O RI H O P I D l l' ( ; ;\ , \HJ r 2 I I

GAIT Gait impairments of predominant neurologic origin include the following (in descending order of frequency): I . Di sorders of the corticospinal pathways (spasticity ) 2. Basal gangl ia ( parki nsonism) 3 . Cerebel l u m and connections ( ataxia) 4. Cerebral cortex (gai t aprax ia) 5 . Neuromuscul ar system ( weakness) 6. Sensation (atax ia)

u r i n a l y s i s to c h ec k for blood or myoglob i n . The i n i ti a l

history shou l d i ncl ude questions pertai n i ng t o h ydra t io n status, frequency of s t ret ch i n g . and the use of ergogenic

s upp l eme n t s s uc h

as

stero id s

or

creat i ne . Questions to define

the athlete's me d i c a l h i story should i n q u i re about how the

muscle crampi ng relates to temperature, d iet. fa m i l y history,

u r i ne color changes (myog l o b i nuria), and how l o ng the symptom� last

( Nad l er et

ai,

2004).

Tetany Hypocalcemia and hypomagnesemia often cause the invo l untary spasms of s keletal m uscle, which resemble cramping. Tetan ic cramps can be el icited by repeatedly per­ c u ss i ng the motor nerve, which leads to a muscle gro u p contraction-cramp-spasm at frequenc ies o f 1 5 t o 20 per second. Chvostek s ign is the spasm of fac ial muscles pro­ duced by tapping over the facial nerve near i t s foraminal ex it. Chvostek s ign may also occur w i th normocalcemia, as wel l as w i th h y pocalcem ia. Patients w i th hypocalcemic seizures demonstrate marked Chvostek sign, positive Trousseau sign, sweaty hands, and hyperreflexia (Ahmed et ai, 2004).

Trousseau sign i s demonstrated by i nflating a sphygmo­ manometer around the wrist area of the left hand to above systolic blood pressure for 3 mi n u tes while observ i ng the hand. Typ ical carpal spasm, which relaxes approxi mately 5 seconds after the cuff is released, is considered a positive Trousseau sign. Tetany i s m o s t c ommo n l y caused by h ypoca l c e m i a . Low levels of free or ion ized e x trace l l u lar c a l c i u m reduce the normal transmembrane pote n t i a l of the nerve by i ncreasing

so d i u m conductance, thus red u c i n g the threshold req u ired to cause depolarization. Normal serum ion ized c a l c i u m l evels range from

5.9

to

6.5

mg/d l . Levels fa l l i n g be l o w 4.3 mgldl

can cause tetany. H y poca l cem ia i s observed in h y poparathy­ roid i s m , v i ta m i n - D deficiency, m a l ab s orpt i o n s y n dromes. acute pancrea t i t i s .

m a l i g n ancy,

sep s i s .

and

drug effect.

Hyper venti lat i o n lead i n g to respiratory a l k a l o s i s and sec­ ondary reduction of ionized c a l c i u m may prec i p i tate tetany

(Freeman, M ichae l . R ob e rt .

2003).

70

CHAPTER 2 Assessing Cardinal Muscu loskeletal Symptoms and S i gns

Impairment of Gait Finding a spinal or lower ex tremity orthopedic or neurologic

O RI I I O I' I D I C l,A,\\ lJl 1- 1 -1-

di sorder that does not produce abnormal i ties of gait a t some

IMPAIRED MICTURIT I ON

time during i ts course i s d ifficult. Gait disturbances a fter a stroke a r e multifaceted a n d hence

Localization of impaired micturition depends on the

must be studied from multiple perspectives. B iomechanical

following:

measurements such as temporal distance parameters, kine­ matics, kinetics, mechanical energy, and energy costs, as

1 . Loss of bladder sensation

2. Perineal sensory loss

well as electromyography, can evaluate the behavioral

3. Patulous anal sph i ncter

profile of gait and reflect CNS adaptation with respect to

4. Absence of the bulbocavernous and anocutaneous

internal and external demands. Electrophysiologic measure­ ments such as stretch reflex, H-reflex, and cutaneous reflexes can evaluate the integrity of spinal cord functions during gait

reflexes

5 . Sensory, motor, and reflex changes in the lower extrem ities

and indirectly assess the integrity of the descending control system (Lamontagne, Stephen son, Fung, 2007).

B1adder Control Incontinence and other disturbances of urinary bladder fu nc­

bilateral-needle

tion are occasion al l y the fi rst man ifestation of d isease of the

externaI anal sphincter and sometimes of the bulbocaverno­

e1ectromyographic

examination

of

the

spinal cord, as well as the rest of the nervous system. The

sus muscle needs to be considered first. Detection of spon­

physiologic mechanism of micturition is complex. The terms

taneous denervation activity, most appropriately in the bul­

atonic bladder and spastic bladder are no longer useful i n

bocavernosus muscle, is common in the interval from 3

descri bing

different

levels

of

neurologic

i n v olvement

because they are related mainly to l ocal factors i n the bladder wall.

weeks to several months after a lower motor neuron i njury ( Podnar, in press).

A n associated history of erectile dysfunction or rectal

Compressive lesions to the cauda equina or conus medullaris

incontinence should c learly

are a common cause of neurogenic lower urinary tract dys­

common neurogenic cause for urinary i n continence. The

suggest the presence of a

function, although more peripheral lesions may also cause

additional presence of sacral pain should suggest tumor in

sacral disease. [n patients with suspected focal sacral disease,

the sacral region.

71

CHAPTER 2 Assessing Cardinal Musculoskeletal Symptoms and S igns

CRt n e A L T H t N Kt N C I . What are the five groups of signs and symptoms dif­ ferentiating muscu loskeletal complaints?

2. Why can articular or periarticular pain radiate widely

9. What are the two most common tumors of the dig its of the hand and on the dorsum of the foot? 1 0 . A hel iotropic rash and Gottron papules are character­

and be fe lt in a spot di stant from its originating

istic and possibly pathognomonic cutaneous feature

tissue?

of what condition?

3 . What typical sensations differentiate pain with nerve

I I . Where

entrapment, vascular compromise, and articular or

found?

joint involvement? 4 . In listening to a patient's description of pai n , i . e . , when present, what relieves i t , what makes i t worse, and what improves it, pain at rest, night, or with u se suggests what kinds of problems? 5 . What is the leading cause of accidental death in older adults? 6. What subgroup of patients is at high risk of develop­ ing chronic lower back pain ? 7. What four issues are important in assessing a patient's disability? 8. After thoroughly examining the patient's painful part, you have doubt of the source of the symptoms. What would your next step be?

can

Gottron

papules

most commonly

be

1 2 . The Leeds Assessment of Neuropathic Symptoms and S igns i s used in the assessment of what type of conditions? 1 3 . You have a very athletic patient with reoccurring episodes of muscle cramping with exercise . What would be your immed iate action steps for this case presentation? 1 4 . Gait impairments from d isorders of the corticosp inal pathways are mani fested by what? 1 5 . Gait

i m pairments

from

the

cerebe l l u m

connections are c haracterized by what?

and

its

I

CHAPTER 2 Assessing Cardinal Musculoskeletal S),mptoms and Signs

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