Biomechanics of the Musculo-skeletal SystemWiley, 12 de mar. de 2007 - 672 páginas The latest edition of this well organised and authoritative book provides a comprehensive account of the mechanics of the neuro-musculo-skeletal system. Covering the key areas including the properties of biomaterials, common measuring techniques and modelling, Biomechanics of the Musculo-skeletal System, Third Edition also integrates historical aspects thus building a bridge between old and familiar knowledge and the latest developments in biomechanics. As with the previous edition there are numerous applications and extensive questions and answers at the end of sections. Specific changes for this edition include:
Biomechanics of the Musculo-skeletal System, Third Edition is an invaluable resource for all students, professionals and researchers concerned with biomechanical aspects of the human or animal body. |
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BIOLOGICAL MATERIALS | 49 |
MEASURING TECHNIQUES | 293 |
MODELLING | 501 |
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acceleration accelerometers ACL transection actin action potential active analysis anterior cruciate ligament applied articular cartilage axis Biomech biomechanics bone cells centre changes chondrocytes collagen collagen fibres components compression contraction coordinate cross-bridge cross-sectional decreased deformation density determined developed dynamic elastic EMG signal equations experimental femur fibrils Figure fluid force plate force-length force-velocity free body diagram frequency function gastrocnemius ground reaction force Herzog human Huxley increase inertia isometric knee linear loading locomotion markers mass mathematical matrix maximal medial medial collateral ligament methods moment of inertia motion motor unit movement muscle fibre muscle force muscular myofilaments myosin Nigg normal osteoarthritis phase Physiology potential pressure distribution proteoglycan quantify remodelling rigid body rotation sarcomere sarcomere length Schematic segment sensors shortening skeletal muscle soft tissue soleus stiffness strain gauge stress structure surface tendon tensile thick filament tibia tion transducers typically vector velocity viscoelastic wavelet zone