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Featuring over 4,000 large-size illustrations and unique, effective pedagogy, the Fifth Edition of Dr. Greenspan's best-seller is the ideal teaching text on musculoskeletal imaging for radiologists and orthopedists at every level of training. Orthopedic Imaging: A Practical Approach covers all orthopedic problems and imaging modalities and offers indispensable guidance on selecting cost-effective imaging techniques. The Fifth Edition has a new full-color design, with colorized tables and schematics and full-color illustrations including PET-CT. All conventional tomography has been replaced by CT. Coverage of MRI—the scan of choice for more clinical situations than ever—has been greatly expanded, especially in areas related to arthritis. More three-dimensional CT scans have been added, particularly to areas covering trauma. Musculoskeletal ultrasound coverage has been increased. Practical Points to Remember appear at the end of each chapter to outline salient points. A companion website will offer the fully searchable text and images.
A comprehensive reference on radiologic appearance, uses and complications of orthopedic devices, for radiologists, orthopedists, physicians, and students.
This uniquely interdisciplinary book is a practical resource on orthopedic MR imaging that bridges the backgrounds of radiologists and orthopedic surgeons. Radiologists learn why surgeons order imaging studies. They also learn terminology that will help them tailor reports to the specialty. Orthopedic surgeons gain insight on when to order an MRI, how MRI affects decision making, and how to interpret images. Case studies also depict key clinical and exam points, supplemented by MR images and illustrations. Shorter sections highlight other anatomical areas, and additional chapters address diagnostic accuracy and imaging pitfalls.
Now in two volumes, the Third Edition of this standard-setting work is a state-of-the-art pictorial reference on orthopaedic magnetic resonance imaging. It combines 9,750 images and full-color illustrations, including gross anatomic dissections, line art, arthroscopic photographs, and three-dimensional imaging techniques and final renderings. Many MR images have been replaced in the Third Edition, and have even greater clarity, contrast, and precision.
This book is an indispensable reference for pediatric and musculoskeletal radiologists, as well as orthopedic surgeons. It offers in depth analysis of pediatric orthopedic imaging, covering normal and aberrant development as well as both common and unusual pediatric disorders. Chapters on the spine, shoulder, elbow, hand and wrist, hip and pelvis, lower extremity, and foot and ankle address site-specific congenital and acquired lesions. Subsequent chapters cover generalized orthopedic diseases such as neurofibromatosis and osteogenesis imperfecta, infectious processes, neuromuscular diseases, musculoskeletal tumors, trauma, and orthopedic procedures. The chapters review associated epidemiology, clinical presentation and evolution, treatment, and differential diagnoses, with in-depht analysis of imaging characteristics. With more than 1800 images, high-quality MRI, CT, and US examples complement the radiographs of a broad variety of musculoskeletal disorders.
This book covers recent results in the analysis, identification and control of systems described by Volterra models. Topics covered include: qualitative behavior of finite Volterra models compared and contrasted with other nonlinear model classes, structural restrictions and extensions to Volterra model class, least squares and stochastic identification approaches, model inversion issues, and direct synthesis and model predictive control design, guidelines for practical applications. Examples are drawn from Chemical, Biological and Electrical Engineering. The book is suitable as a text for a graduate control course, or as a reference for both research and practice.
Designed specifically for orthopedic surgeons involved in the review of musculoskeletal MRIs, this book enables clinicians to develop a systematic approach to the interpretation of MRI studies. It opens by providing clinicians with a solid understanding of essential concepts, including the physics of MRI, various pulse sequences available for obtaining an MRI, and normal MRI anatomy. The authors then present an overview of core concepts of image interpretation and step-by-step guidance on how to determine which pulse sequences have been utilized, how to evaluate images, and how to correlate imaging findings with patient history and clinical presentation. The remaining sections of the book present protocols for acquiring and interpreting MRIs of the upper extremity, lower extremity, and spine. Additional chapters cover special considerations for imaging articular cartilage and soft-tissue and bone tumors, as well as advanced techniques such as MR arthrography and MR angiography, correlation with other imaging modalities, and safety issues.Features: More than 700 MRIs and instructive illustrations to highlight key concepts related to normal anatomy and pathologic processes Practical discussion of how other imaging modalities correlate with MRI Clinical insights from leading orthopedic surgeons and radiologists An ideal resource for orthopedic surgeons, residents, and fellows, this book provides essential instruction on how to approach MRI studies in everyday practice. With its practical coverage of clinical concepts, this book will also serve as a valuable reference for radiologists, rheumatologists, primary care physicians, and other specialists who care for patients with musculoskeletal conditions.
Revised edition of Imaging of orthopedic trauma and surgery. A comprehensive text for radiologists, orthopedic surgeons and other clinicians, and residents in training who deal with trauma, updated to integrate new developments in orthopedic radiology. As in the first edition, the initial chapters discuss basic concepts in diagnostic imaging techniques, fracture healing, and soft tissue injury. The main body of the text addresses imaging in adult trauma, including evaluation of post-reduction treatment techniques. The chapters are anatomically oriented with a review of essential musculoskeletal anatomy followed by a discussion of routine radiographic techniques and special techniques as they relate to the specific anatomic region. The final chapters discuss stress fractures and infection related to post-traumatic injury, emphasizing imaging of these specific problems. Annotation copyrighted by Book News, Inc., Portland, OR
Lavishly illustrated, comprehensive in scope, and easy to use, the second edition of Operative Techniques in Orthopaedic Surgery guides you to mastery of every surgical procedure you’re likely to perform – while also providing a thorough understanding of how to select the best procedure, how to avoid complications, and what outcomes to expect. More than 800 global experts take you step by step through each procedure, and 13,000 full-color intraoperative photographs and drawings clearly demonstrate how to perform the techniques. Extensive use of bulleted points and a highly templated format allow for quick and easy reference across each of the four volumes.
Get a quick, expert overview of the role of emerging 3D printing technology in orthopaedic surgery, devices, and implants. This concise resource by Drs. Matthew DiPaola and Felasfa Wodajo provides orthopaedic surgeons and residents with need-to-know information on the clinical applications of 3D printing, including current technological capabilities, guidance for practice, and future outlooks for this fast-growing area. - Covers basic principles such as engineering aspects, software, economics, legal considerations, and applications for education and surgery planning. - Discusses 3D printing in arthroplasty, trauma and deformity, the adult and pediatric spine, oncology, and more. - Includes information on setting up a home 3D printing "plant" and 3D printing biologics. - Consolidates today's available information on this burgeoning topic into a single convenient resource