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Basic Orthopaedic Biomechanics
Reviews biomechanical laws governing natural human locomotion and the movement of prosthetic joints. Provides a synthesis of clinical and research data on muscle and joint loads; biomechanical forces; stress-strain behaviours; biomechanics of the spine and of artificial joint fixation and more.
Basic Orthopaedic Biomechanics & Mechano-biology
Biomaterials / Ahmed El-Ghannam and Paul Ducheyne -- Biomechanics of the spine / Ian A. F. Stokes and James C. Iatridis -- Biomechanics of fracture fixation and fracture healing / Lutz E. Claes and Keita Ito -- Biomechanics and preclinical testing of artificial joints: the hip / Rik Huiskes and Jan Stolk -- Biomechanics of total knee replacement designs / Peter S. Walker.
Basic Orthopaedic Biomechanics and Mechano-Biology
Completely revised and updated, the Third Edition of this classic text reflects the latest advances in research on orthopaedic biomechanics and the successful applications of biomechanical principles in fracture fixation, prosthetic implant design, and hip and knee arthroplasty. For this Third Edition, Dr. Mow is joined by new co-editor Rik Huiskes, PhD, an Editor-in-Chief of the Journal of Biomechanics and an internationally renowned authority in the field. New chapters cover biomaterials, biomechanical principles of cartilage and bone tissue engineering, and biomechanics of fracture fixation and fracture healing.
Biomechanics of Diarthrodial Joints
Historical folklore indicates that Asklepios (circa 900 BC), the fir~t western doctor of ancient Greece, treated many patients with rheumatic diseases of 1 joints ,2. Later, Hippocrates (circa 400 BC), who claimed to have learned from Asklepios, used the term arthritis in reference to joint diseases: "When the disease of arthritis strikes, acute inflammation and pain attacks the joints of the body ... ". Indeed, arthritic joint disease dates much farther back into antiquity than Asklepios. Many modern anthropologists have noted degenerative joint disease in the fossils of Neanderthal man (archanthropus europeus petraloniensis) and even in those of dinosaurs. More recent scientific studies on...
Cell Mechanics and Cellular Engineering
Cell mechanics and cellular engineering may be defined as the application of principles and methods of engineering and life sciences toward fundamental understanding of structure-function relationships in normal and pathological cells and the development of biological substitutes to restore cellular functions. This definition is derived from one developed for tissue engineering at a 1988 NSF workshop. The reader of this volume will see the definition being applied and stretched to study cell and tissue structure-function relationships. The best way to define a field is really to let the investigators describe their areas of study. Perhaps cell mechanics could be compartmentalized by remember...
Frontiers in Biomedical Engineering
New Frontiers in Biomedical Engineering will be an edited work taken from the 1st Annual World Congress of Chinese Biomedical Engineers - Taipei, Taiwan 2002. As the economy develops rapidly in China and the Asian-Pacific population merges into the global healthcare system, many researchers in the West are trying to make contact with the Chinese BME scientists. At WCCBME 2002, invited leaders, materials scientists, bioengineers, molecular and cellular biologists, orthopaedic surgeons, and manufacturers from P.R. of China, Taiwan, Singapore and Hong Kong covered all five major BME domains: biomechanics, biomaterials and tissue engineering, medical imaging, biophotonics and instrumentation, and rehabilitation. This edited work taken from the World Congress proceedings will capture worldwide readership.
Structural Interfaces and Attachments in Biology
Attachment of dissimilar materials in engineering and surgical practice is a perennial challenge. Bimaterial attachment sites are common locations for injury, repeated injury, and mechanical failure. Nature presents several highly effective solutions to the challenge of bimaterial attachment that differ from those found in engineering practice. Structural Interfaces and Attachments in Biology describes the attachment of dissimilar materials from multiple perspectives. The text will simultaneously elucidate natural bimaterial attachments and outline engineering principles underlying successful attachments to the communities of tissue engineers and surgeons. Included an in-depth analysis of the biology of attachments in the body and mechanisms by which robust attachments are formed, a review of current concepts of attaching dissimilar materials in surgical practice and a discussion of bioengineering approaches that are currently being developed.
Biomechanics
Thoroughly revised and updated for the second edition, this comprehensive textbook integrates basic and advanced concepts of mechanics with numerical methods and biomedical applications. Coverage is expanded to include a complete introduction to vector and tensor calculus, and new or fully updated chapters on biological materials and continuum mechanics, motion, deformation and rotation, and constitutive modelling of solids and fluids. Topics such as kinematics, equilibrium, and stresses and strains are also included, as well as the mechanical behaviour of fibres and the analysis of one-dimensional continuous elastic media. Numerical solution procedures based on the Finite Element Method are presented, with accompanying MATLAB-based software and dozens of new biomedical engineering examples and exercises allowing readers to practise and improve their skills. Solutions for instructors are also available online. This is the definitive guide for both undergraduate and graduate students taking courses in biomechanics.
