Synopses & Reviews
Traditionally, applications of biomechanics will model system-level aspects of the human body. As a result, the majority of technological progress to date appears in system-level device development. More recently, biomechanical initiatives are investigating biological sub-systems such as tissues, cells, and molecules. Fueled by advances in experimental methods and instrumentation, these initiatives, in turn, directly drive the development of biological nano- and microtechnologies.
A complete, concise reference, Biomechanics integrates coverage of system and sub-system models, to enhance overall understanding of human function and performance and open the way for new discoveries. Drawn from the third edition of the widely acclaimed and bestselling The Biomedical Engineering Handbook, this is a comprehensive, state-of-the-science resource concerning the principles and applications of biomechanics at every level. The book presents substantial updates and revisions from the Handbook's previous editions, as well as an entirely new chapter introducing current methods and strategies for modeling cellular mechanics. Organized in a systematic manner, the book begins with coverage of musculoskeletal mechanics including hard- and soft tissue and joint mechanics and their applications to human function. Contributions explore several aspects of biofluid mechanics and cover a wide range of circulatory dynamics such as blood vessel and blood cell mechanics and transport.
Other topics include the mechanical functions and significance of the human ear and the performance characteristics of the human body during exercise and exertion. The book contains more than 140 illustrations, 60 tables, and a variety of useful equations to assist in modeling biomechanical behaviors. Incorporating material across the breadth of the field, Biomechanics is a complete, concise reference for the skilled professional as well as an introduction to the novice or student of biomedical engineering.
Synopsis
As our understanding of biomechanics continues to grow, research is increasingly aimed at fine-grained biological subsystems, such as tissues, cells, and even molecules. Featuring chapters drawn from the third edition of the best-selling Handbook of Biomedical Engineering as well as new contributions not found in the Handbook, Biomechanics offers focused, authoritative coverage on this highly interdisciplinary area of biomedical engineering. Starting with musculoskeletal mechanics and working to biofluid dynamics, cellular mechanics, mechanics of the human ear, and finally human performance characteristics, this book surveys the latest developments and modern viewpoints in the field.