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In this book, the authors present topical research in the study of the morphology, biomechanics and clinical implications of trabecular and cortical bone. Topics discussed include trabecular bone biomechanics and morphology; cortical bone as an enduring depot of bone-seeking contaminants and the evaluation of cortical bone resportion rate on the basis of a contaminant (90SR) measurement in humans; evaluation of apparent stress and strain at fracture of human trabecular bone under quasi-static compression load using micro-CT finite elements simulation; application of computational modelling to predict the effect of exercise on whole bone strength; advancements in cortical bone imaging; morphology of the pelvis (acetabulum) and femur; the release kinetics of bone morphogenetic proteins from demineralised cortical bone grafts; and preservation of cortical bone in oral and maxillofacial surgery procedures.
The focus of this book is on mechanical aspects of skeletal fragility related to aging and osteoporosis. Topics include: Age-related changes in trabecular structure and strength; age-related changes in cortical material properties; age-related changes in whole-bone structure; predicting bone strength and fracture risk using image-based methods and finite element analysis; animal models of osteoporosis and aging; age-related changes in skeletal mechano responsiveness; exercise and physical interventions for osteoporosis.
This is a comprehensive and accessible overview of what is known about the structure and mechanics of bone, bones, and teeth. In it, John Currey incorporates critical new concepts and findings from the two decades of research since the publication of his highly regarded The Mechanical Adaptations of Bones. Crucially, Currey shows how bone structure and bone's mechanical properties are intimately bound up with each other and how the mechanical properties of the material interact with the structure of whole bones to produce an adapted structure. For bone tissue, the book discusses stiffness, strength, viscoelasticity, fatigue, and fracture mechanics properties. For whole bones, subjects dealt with include buckling, the optimum hollowness of long bones, impact fracture, and properties of cancellous bone. The effects of mineralization on stiffness and toughness and the role of microcracking in the fracture process receive particular attention. As a zoologist, Currey views bone and bones as solutions to the design problems that vertebrates have faced during their evolution and throughout the book considers what bones have been adapted to do. He covers the full range of bones and bony tissues, as well as dentin and enamel, and uses both human and non-human examples. Copiously illustrated, engagingly written, and assuming little in the way of prior knowledge or mathematical background, Bones is both an ideal introduction to the field and also a reference sure to be frequently consulted by practicing researchers.
This book provides comprehensive mechanobiological insights into bone, including the microstructure of cancellous bone and its realistic loading in the human body. This approach considers different types of loads, i.e. static and dynamic, and the response under uniaxial and multiaxial loading conditions. The book also reviews additional factors influencing biomechanical properties, e.g. fluid transport. In closing, the mechanobiological approach is discussed in the context of the finite element method.
Master simple to advanced biomaterials and structures with this essential text. Featuring topics ranging from bionanoengineered materials to bio-inspired structures for spacecraft and bio-inspired robots, and covering issues such as motility, sensing, control and morphology, this highly illustrated text walks the reader through key scientific and practical engineering principles, discussing properties, applications and design. Presenting case studies for the design of materials and structures at the nano, micro, meso and macro-scales, and written by some of the leading experts on the subject, this is the ideal introduction to this emerging field for students in engineering and science as well as researchers.
This informative volume summarizes what is known about bone mechanics. It describes the methods used to acquire that knowledge and suggests the nature of future research on this topic. This easy-to-read book keeps mathematical notation simple and minimal and presents data in summary form. Bone Mechanics is concerned with the mechanical behavior and functional stress adaptation of whole bones as structural elements, the mechanical behavior and functional adaptation of bone tissue as material, and the physiological significance of the mechanical properties of bone and the biological response of bone to applied stress. Orthopaedic surgeons, dentists, anatomists, biologists, biomedical engineers and physiologists are among those who will find this volume to be of interest.
Osteoporosis is one of the most clinically relevant disabling chronic disease encountered in clinical practice. A common cause of osteoporosis is glucocorticoid excess, as glucocorticoids may increase bone resorption, inhibit bone formation, have indirect actions on bone by decreasing intestinal calcium absorption and induce hypercalciuria. This book presents a comprehensive overview of the effects of glucocorticoids on bone metabolism and structure and on the diagnosis and treatment of glucocorticoid-induced osteoporosis. It aims at providing updated information on the pathogenesis, diagnosis and treatment of this often dramatic complication of glucocorticoid excess. Being one of the few publications completely devoted to glucocorticoid-induced osteoporosis it will heighten the awareness of specialists who prescribe glucocorticoids of the clinical relevance of this treatment complication. 'Glucocorticoid-Induced Osteoporosis' is addressed to clinical experts as well as to general practitioners who will both benefit from the comprehensive and integrative view of the management of patients exposed to glucocorticoids.
This book describes the design of the first functioning single-sided tomograph, the related measurement methods, and a number of applications in medicine, materials science, and chemical engineering. It will be the first comprehensive account of this new device and its applications. Among the key advances of this method is that images can be obtained in much shorter times than originally anticipated, and that even vector maps of flow fields can be measured although the magnetic fields are highly inhomogeneous. Furthermore, the equipment is small, mobile and affordable to small and medium enterprises and can be located in doctors’ offices.
The Aging Skeleton is a comprehensive and timely book on all aspects of the skeleton as it ages, including basic mechanisms and pathways as well as pathobiology. Chapters cover general aspects and models of aging, determinants and maintenance of peak bone mass, mechanisms of age-related bone loss, quantifiable manifestations of age-related bone loss, fractures, and therapeutics. - Covers all aspects of the aging skeleton in one comprehensive volume - Looks at the influence of genetics, nutrition, environment, hormones, and other factors on bone mass - Provides a thorough discussion of fractures, one of the major consequences of the aging skeleton - Reviews current therapeutic approaches and methods - Written by internationally renowned authors and edited by leaders in the field - Is the only book available on this subject