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This authoritative book provides state-of-the-art practices and new developments in the imaging of cartilage, associated pathologies, and repair procedures. With a main focus on MRI, major advances in cartilage imaging are put into clinical context relevant for radiologists, rheumatologists, and orthopedic surgeons. International experts provide their insights on cartilage pathologies associated with such conditions as osteoarthritis, osteochondral trauma, and cartilage repair. Morphological MRI techniques are outlined, including new sequences and high field imaging. Molecular imaging techniques able to characterize the biochemical composition of the cartilage matrix are discussed, such as T2 relaxation time, T1rho, and dGEMRIC methods. The first book of its kind, Cartilage Imaging: Significance, Techniques, and New Developments encompasses the full scope of knowledge in this rapidly evolving field. Identifying key techniques for characterizing disease processes as well as objectively and quantitatively evaluating the results of therapy, this outstanding resource is of benefit to all physicians interested in assessing cartilage disease and repair.
This issue reviews the latest advances in imaging of cartilage using MRI. A basis for understanding cartilage is provided in articles on normal anatomic appearance, morphology, and physiology. MR imaging of cartilage in specific joints such as knees and ankles, hip, and upper extremity are reviewed in separate articles, and assessment of rheumatoid conditions and cartilage repair are also covered.
This unique book describes the latest information in the fundamental understanding of the biophysics and biochemistry of articular cartilage using the state-of-the-art practices in NMR and MRI. This is the first book of its kind, written by physicists and chemists on this important tissue, whose degradation contributes to osteoarthritis and related joint diseases. Connecting the fundamental science with the clinical imaging applications, the experts Editors provide an authoritative addition to the literature. Ideal for practising physical scientists and radiologists with an interest in the fundamental science as well as instrument manufacturers and clinical researchers working with articular cartilage.
Over the last two decades, there have been numerous exciting developments in the surgical field of articular cartilage repair. Magnetic resonance imaging plays a critical role in pre-operative surgical planning, through its ability to identify the extent and severity of cartilage lesions. It also plays an important role in post-operative management, by allowing surgeons to noninvasively monitor the morphological status of repaired cartilage tissue.This book covers recent advances in ultra high field MRI and biochemical MRI techniques such as T2 mapping, delayed gadolinium enhanced MRI of cartilage (dGEMRIC), gagCEST and sodium MRI. It is written by a multidisciplinary team including basic scientists, radiologists, orthopaedic surgeons and biomedical engineers. The volume is an ideal reference guide for musculoskeletal radiologists, basic research scientists, orthopedic surgeons and biomedical engineers etc.
Attempting to bridge the gap between the science and art of cartilage restoration, Cartilage Restoration: Practical Clinical Applications combines an overview of clinical research and methodologies with clinical cases to help guide the orthopedic treatment and care of patients presenting with cartilage issues. With chapters written by internationally-renowned orthopedic surgeons, topics include an overview of current surgical options, debridement and marrow stimulation, autograft plug transfer, allografts, cell therapy, and meniscal issues. Cartilage Restoration is a valuable resource for orthopedic surgeons, residents, and fellows.
This issue reviews the latest advances in imaging of cartilage using MRI. A basis for understanding cartilage is provided in articles on normal anatomic appearance, morphology, and physiology. MR imaging of cartilage in specific joints such as knees and ankles, hip, and upper extremity are reviewed in separate articles, and assessment of rheumatoid conditions and cartilage repair are also covered.
Osteoarthritis is a condition in which low-grade inflammation results in joint pain, and it is the most common joint disease. Interactions between all of the major joint tissues, including the articular cartilage, synovium, bone marrow, subchondral bone, trabecular bone, and muscle, have been implicated in osteoarthritis. Magnetic resonance images have been used to quantify the cartilage morphology, volume and thickness, and focal defects, and may reflect changes in the biochemical composition of articular cartilage. This book brings together contributions from key investigators in the area of magnetic resonance imaging (MRI) for osteoarthritis of the knee. Written by a multidisciplinary group of scientists, engineers, and clinicians, this book is the first to cover MRI as a new emerging modality for the diagnosis of osteoarthritis, and presents new findings in both basic and clinical science research.
Osteoarthritis (OA) of the knee is a chronic disease that is characterized by degeneration of articular cartilage. Magnetic resonance imaging (MRI) allows the visualization and quantification of this degeneration in vivo. In this dissertation the development of new image processing techniques and application of existing ones to perform inter-subject comparison of knee cartilage thickness are presented. The main characteristic of the proposed method is the registration of cartilage surfaces based on the registration of the corresponding bones. The process is semi-automatic since steps involving segmentation require interaction. Cartilage is segmented using Bezier splines and edge detection, and its shape is then interpolated using a morphing technique to create isotropic voxels. The bones corresponding to the segmented cartilage are segmented with a similar approach and registered based on landmarks. The registration can be rigid-body for intra-subject or elastic for inter-subject comparisons. Landmarks are automatically selected based on shape matching using 3D shape-contexts. Visualization of cartilage thickness maps in three dimensions or overlaid on the MR images is also demonstrated. The cartilage segmentation and the morphing technique were validated visually and based on volumetric measurements of images of porcine knees which cartilage volumes were directly measured using a water displacement method. The registration techniques were validated visually and using manual landmark registration. Results showed a good agreement between the digital volumetric measurement from the morphed cartilage and the water displacement method with correlation values of 8.3 (p
Cartilage injuries of the knee are common, and diagnosis and treatment options have continued to evolve. This book focuses on current non-operative and surgical treatment strategies for articular cartilage injuries, highlighting the controversies and different approaches from an international perspective. This book includes information on the basic science of cartilage structure and function, expert perspectives on imaging and diagnosing, as well as work-up of athletes and patients presenting with acute or chronic cartilage injury. It also provides an evidence base for current cutting-edge cartilage repair and restoration. Written by leading experts in the field, the book, published in collaboration with ISAKOS and ICRS, is vital reading for orthopaedic and sports medicine surgeons, fellows and residents. It is also of interest to sports trainers, physiotherapists, medical students, postgraduate students, and physical medicine and rehabilitation specialists.
This issue, edited by Dr. Kirkland Davis, will comprehensively review imaging of the knee. Articles will include: Magnetic Resonance Imaging of the Meniscus; MRI of Cruciate Ligaments; Magnetic Resonance Imaging of the Extensor Mechanism; Quantitative Magnetic Resonance Imaging of the Articular Cartilage of the Knee Joint; Magnetic Resonance Imaging of the Pediatric Knee; MRI of Extra-Synovial Inflammation and Impingement about the Knee; A Biomechanical Approach to Interpreting MRI of Knee Injuries; MRI Assessment of Arthritis of the Knee; MRI of the Post-Operative Meniscus; MR Imaging of Cartilage Repair Procedures; Imaging the Knee in the Setting of Metal Hardware, and more!