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Biomechanics of Tendons and Ligaments: Tissue Reconstruction looks at the structure and function of tendons and ligaments. Biological and synthetic biomaterials for their reconstruction and regeneration are reviewed, and their biomechanical performance is discussed. Regeneration tendons and ligaments are soft connective tissues which are essential for the biomechanical function of the skeletal system. These tissues are often prone to injuries which can range from repetition and overuse, to tears and ruptures. Understanding the biomechanical properties of ligaments and tendons is essential for their repair and regeneration. - Contains systematic coverage on how both healthy and injured tendons and ligaments work - Includes coverage of repair and regeneration strategies for tendons and ligaments - Presents an Interdisciplinary analysis on the topic
A comprehensive and authoritative review of the most important scientific and clinically relevant topics today in ligaments, tendons, and capsular biology, including their biomechanics and surgical reconstruction. The authors review the basic science of tendons in the hand and shoulder ligaments, the current clinical status of the shoulder and cruciate ligaments, and the latest advances in research on the healing of ligament and tendon to bone, artificial ligaments, and gene therapy. They also cover the major type 1 collagen soft tissues that are of particular interest to upper extremity surgeons and sports medicine specialists.
Master the very latest clinical and technical information on the full range of anterior cruciate ligament reconstruction techniques. Both inside the remarkably user-friendly printed version of this Expert Consult title and on its fully searchable web site, you'll find detailed coverage of hamstring, allograft and bone-tendon-bone (BTB) ACL reconstruction (including single versus double bundle techniques), and hamstring graft harvesting; plus fixation devices, rehabilitation, revision ACLR surgery, and much more! A "dream team" of ACL surgeons provides the advanced guidance you need to overcome the toughest challenges in this area. A comparison of the full range of graft options for ACL reconstruction makes it easier to choose the best approach for each patient. State-of-the-art information on the latest principles and technical considerations helps you avoid complications. ‘How to' principles of post-op rehabilitation and revision ACL surgery optimize patient outcome. Access to the full contents of the book online enables you to consult it from any computer and perform rapid searches. Also available in an upgradeable premium online version including fully searchable text PLUS timely updates.
In 25 years of practicing structural/osteopathic manual therapy the author has done considerable work with seriously damaged tendons and ligaments, and has achieved results that conventional medicine would rate as improbable. Over time, he has developed a therapeutic model for treating these injuries so that individuals with chronic conditions -- who have exhausted the standard physiotherapy options and are facing surgery -- can have a viable option for recovery. His techniques, based on basic principles of structural healthcare, emphasize the importance of precise anatomical focus and the capacity to work with subtle changes of structure. Of essential importance is combining detailed specific treatment of the small fibers and tissues of the local injury area with an overall approach to improving larger body patterns and tensions. Logically, the responsiveness and self-corrective capacity of body tissues when given proper conditions is also an important factor. The primary techniques used are the osteopathic methods of strain-counterstrain, cranial and visceral osteopathy, and fascial release, as well as body-mind centering, zero balancing, and acupressure. His clinical model, which represents a new approach to serious, chronic tendon and ligament injuries, is based on these techniques, their combinations and specific usage, and the skills and aptitudes necessary for applying these techniques, including certain perceptual skills and a thorough knowledge of anatomy and kinesiology. Weintraub's descriptions are vital, interesting, alive, absorbing, even dramatic. He discusses at great length the nature of the tendons and ligaments, describes his manual therapy model -- comparing it with conventional medical procedures -- and covers processes and tissue changes in tendon/ligament healing as related to manual therapy. Case studies, self-help strategies, and thoughtful words on clinical efficacy and future directions in the field make for a thorough and well-rounded presentation. (Product Description).
This book provides tabular and text data relating to normal and diseased tissue materials and materials used in medical devices. Comprehensive and practical for students, researchers, engineers, and practicing physicians who use implants, this book considers the materials aspects of both implantable materials and natural tissues and fluids. Examples of materials and topics covered include titanium, elastomers, degradable biomaterials, composites, scaffold materials for tissue engineering, dental implants, sterilization effects on material properties, metallic alloys, and much more. Each chapter author considers the intrinsic and interactive properties of biomaterials, as well as their appropriate applications and historical contexts. Now in an updated second edition, this book also contains two new chapters on the cornea and on vocal folds, as well as updated insights, data, and citations for several chapters.
The Multiple Ligament Injured Knee: A Practical Guide to Management includes the most developed knowledge needed to successfully diagnose and treat knee ligament injuries. This thorough work presents anterior and posterior cruciate and collateral ligament anatomy and biomechanics along with non-invasive methods for diagnosing the extent of injury, such as radiographic and arthroscopic evaluation. Various injuries are discussed in addition to useful treatment techniques, including arthroscopic reconstruction, posterolateral and posteromedial corner injury and treatment, assessment and treatment of vascular injuries, assessment and treatment of nerve injuries, rehabilitation, and post-operative results. Each of these clearly written chapters is accompanied by a wealth of line drawings and photographs that demonstrate both the surgical and non-surgical approaches to examination and treatment.
The specialized ligaments that connect the head to the spine have never before had a book dedicated to their anatomy and clinical relevance. Therefore, this book is unique and fills in a gap in the literature. Audiences with a strong interest in such a topic include radiologists, spine surgeons, anatomists, rehabilitation physicians and therapists. Additionally, trainees including students, residents and fellows in disciplines treating patients with diseases or trauma to the craniocervical (connection between the head and neck) junction will have a strong interest in the book. As the fine surgical anatomy involved in spine surgery has progressed greatly in recent year, knowledge of all detailed anatomical structures relevant to this field is important. Therefore, this book will satisfy the demand for a more detailed knowledge regarding this region of the body and will be welcomed and timely for all who are interested in the human spine.
Richly illustrated throughout with actual tissue images, this innovative book shows that the soft-hard tissue junction is best understood in a biomechanical context. The authors describe their pioneering experimental methods, providing an essential structure-function framework for computational modelling, and thereby encouraging the development of more realistic, predictive models of this important tissue junction. Covering the three main musculoskeletal junctions of cartilage-bone, disc-vertebra, and ligament/tendon-bone, the relevant soft tissues are examined with respect to both their own inherent structure and their mode of integration with the hard tissue. The soft-hard tissue interface is explored with a focus on structural damage resulting from overloading, and its associated pathologies. Adopting a multiscale approach, ranging in structural resolution from the macro to fibril levels, this is a must-have guide to the field and an ideal resource for researchers seeking new and creative approaches for studying the joint and spine tissues.
The varus knee has a group of bone and ligament abnormalities that must be addressed to correct the deformity. The mechanical axis of the femur is tilted medially relative to the long axis of the tibia. The distal femoral surface usually remains in valgus alignment to the long axis of the femur. Most of the varus deformity is caused by deficiency in the medial tibial plateau. The deep and superficial medial collateral ligaments are contracted and deformed by osteophytes.