MRI of the Upper Extremity is a complete guide to MRI evaluation of shoulder, elbow, wrist, hand, and finger disorders. This highly illustrated text/atlas presents a practical approach to MRI interpretation, emphasizing the clinical correlations of imaging findings. More than 1,100 MRI scans show normal anatomy and pathologic findings, and a full-color cadaveric atlas familiarizes readers with anatomic structures seen on MR images. Coverage of each joint begins with a review of MRI anatomy with cadaveric correlation and proceeds to technical MR imaging considerations and clinical assessment. Subsequent chapters thoroughly describe and illustrate MRI findings for specific disorders, including rotator cuff disease, nerve entrapment syndromes, osteochondral bodies, and triangular fibrocartilage disorders.
This book systematically discusses the anatomy and pathology of three specific regions of the upper extremity: the elbow, wrist, and hand. Divided into three sections, by body part, chapters cover anatomy and pathology. The anatomy chapters give a comprehensive view of each body part and normal variants found there. Although the primary modality emphasized will be MRI, illustrations and other modalities, including plain radiograph and CT, will be used to comprehensively discuss the anatomy of each region. Liberally illustrated, the pathology chapters then cover both traumatic and non-traumatic causes for imaging and detail how to perform and interpret each MRI. Specific examples include: osseous trauma, soft tissue trauma, and tumor imaging. Chapters are written with the deliberate intention to be of value to all levels of radiology training while remaining a reliable resource for attending radiologists.
In the past, radiographs of the hand have been described as the “skeleton’s calling card”, showing manifestations of many different diseases. As hand and wrist imaging has become increasingly sophisticated, this observation has become more true than ever. This is a comprehensive, up-to-date textbook on imaging of the hand and wrist. In the first part of the book, the various imaging techniques are discussed in detail. Individual chapters are devoted to radiography, ultrasound, CT, MRI and nuclear medicine. The second part of the book gives an authoritative review of the various pathologies that may be encountered in the hand and wrist, encompassing congenital and developmental abnormalities, trauma, and the full range of localized and systemic disorders. Each chapter is written by an acknowledged expert in the field, and a wealth of illustrative material is included. This book will be of great value to musculoskeletal and general radiologists, orthopaedic surgeons and rheumatologists.
This open access book focuses on imaging of the musculoskeletal diseases. Over the last few years, there have been considerable advances in this area, driven by clinical as well as technological developments. The authors are all internationally renowned experts in their field. They are also excellent teachers, and provide didactically outstanding chapters. The book is disease-oriented and covers all relevant imaging modalities, with particular emphasis on magnetic resonance imaging. Important aspects of pediatric imaging are also included. IDKD books are completely re-written every four years. As a result, they offer a comprehensive review of the state of the art in imaging. The book is clearly structured with learning objectives, abstracts, subheadings, tables and take-home points, supported by design elements to help readers easily navigate through the text. As an IDKD book, it is particularly valuable for general radiologists, radiology residents, and interventional radiologists who want to update their diagnostic knowledge, and for clinicians interested in imaging as it relates to their specialty.
This superbly illustrated book offers comprehensive and systematic coverage of the pitfalls that may arise during musculoskeletal imaging, whether as a consequence of the imaging technique itself or due to anatomical variants or particular aspects of disease. The first section is devoted to technique-specific artifacts encountered when using different imaging modalities and covers the entire range of advanced methods, including high-resolution ultrasonography, computed tomography, magnetic resonance imaging and positron emission tomography. Advice is provided on correct imaging technique. In the second section, pitfalls in imaging interpretation that may occur during the imaging of trauma to various structures and of the diseases affecting these structures are described. Misleading imaging appearances in such pathologies as inflammatory arthritides, infections, metabolic bone lesions, congenital skeletal dysplasis, tumors and tumor-like conditions are highlighted, and normal variants are also identified. Pitfalls in Musculoskeletal Radiology will be an invaluable source of information for the practicing radiologist, facilitating recognition of pitfalls of all types and avoidance of diagnostic errors and misinterpretations, with their medicolegal implications.
Musculoskeletal Imaging Volume 2 summarizes the key information related to metabolic, infectious and congenital diseases; internal derangement of the joints; and arthrography and ultrasound. Succinct, structured overviews of each pathology are ideal for use by radiology residents during their musculoskeletal rotations and for residents, fellows, and practicing radiologists for board exam preparation or for daily clinical reference.
Only with the advent of computed tomography and magnetic resonance imaging have radiologists become familiar with this uncommon pathology. The emphasis here is on MRI, as it guarantees the most accurate diagnosis of soft tissue tumours. Because of their rarity, multi-centric studies are necessary to collect statistically relevant numbers of these tumours and so assess the value of new imaging techniques in their detection, staging, grading, tissue characterisation, and post-treatment follow-up. This is a reflection of the work of a prestigious European study group of more than 30 such co-investigators - including experts on medical imaging - who collected more than 800 documented and histologically proven cases of soft tissue tumours. For each tumour type, 10-12 cases are shown, supported by 3-4 photos. Unsurpassed in its collection of case studies.
The first complete textbook and atlas of the vitally important technique of bone age assessment utilizing MRI for children's hand and wrist This latest volume in the growing Wiley Current Clinical Imaging series is a must-have resource that collects, in a single volume, all that is currently known and applicable about the use of magnetic resonance imaging (MRI) for the assessment of bone age. Presented in two parts, Text-Atlas of Skeletal Age Determination: MRI of the Hand and Wrist in Children first focuses on the anatomic, social, and legal aspects of bone age, providing a concise overview of the use of bone age determination in medical, legal, and social systems.??It then covers the clinical use and application of MRI in assessing bone age. The book offers complete chapter coverage on endocrinology, puberty, and disorders of pubertal development; bone marrow maturation in healthy and diseased states; growth failure and pediatric inflammatory bowel disease; skeletal findings in neurometabolic disease, genetic disease, and pediatric oncology patients; and much more. Text-Atlas of Skeletal Age Determination provides: A comprehensive review of the medical, legal, and social aspects of bone age assessment An in-depth discussion of MRI as an alternative to the traditional ionizing radiation-based radiographic techniques for the assessment of bone age Complete guidelines for clinical application of these MRI-based techniques "Recipes" for replicating these techniques and applications for diverse patient populations Cutting-edge information prepared and presented by an international team of experts A superb collection of beautifully reproduced, high-quality images This is an ideal book for radiologists, pediatricians, family physicians, endocrinologists, and sports medicine physicians interested in skeletal development and bone age assessment.
This book teaches readers how to interpret, read, and dictate musculoskeletal (MSK) MRI studies through a series of very high yield MSK MRI cases. The amount of knowledge needed to practice radiology can be daunting. This is especially true when the radiologist has to read studies in a subspecialty outside their expertise such as MSK MRI where there are numerous disease entities, complex orthopedic anatomy, and many imaging considerations to navigate. Learning how to read MSK MRI studies is often taught during a lengthy fellowship; however, many radiologists do not have this additional training but still must read MSK studies during their routine clinical practice. This book fills that educational gap for practicing radiologists reading MSK MRI. The cases in the book focus on the conditions that radiologists encounter most frequently in their daily clinical work, making it very high yield for the amount of time needed to read it. The cases are organized by the six major joints (shoulder, elbow, wrist/hand, pelvis/hip, knee, ankle/foot). Three additional chapters discussing tumors, arthropathy, and miscellaneous conditions are also included. Each case begins with carefully selected high quality MRI images accompanied by a brief clinical vignette. Next, a concise report (as if one is dictating an official report) describing the imaging findings, impression, and recommendations for management are provided. This sample dictation offers readers direct examples of how to report their own cases. There is then a discussion section which mimics teaching sessions that would occur between specialist trainees and MSK faculty members at the workstation so as to enable the readers to think like a MSK radiologist. At the end of each case a Report Checklist is given to highlight important findings to consider and include in your final report. Lastly, we have included a section with 19 normal MSK MRI dictation templates that can be used for structured reporting. This book is an ideal guide for anyone who deals with MSK MRI on a regular basis, including general radiologists who have not completed a dedicated MSK radiology fellowship, MSK radiologists who would want to brush up on their MSK MRI reading and reporting skills, radiology fellows/residents, and orthopedic and sports medicine physicians and nurse practitioners.
