Skeletal Muscle: Form and Function
Skeletal Muscle: Form and Function is an excellent reference for exercise physiologists, physical therapists, athletic trainers, sports physicians, and strength and conditioning specialists. More than 1,000 references and 300 detailed illustrations also make it an ideal text for graduate-level muscle physiology courses. Dr. Alan McComas, a professor of Biomedical Sciences and Medicine (neurology), is known worldwide for his lifetime contributions to research in muscle physiology. In Skeletal Muscle: Form and Function, he examines the structure of muscle and nerve and shows how structure is intimately related to function. He also discusses the cellular processes that take place when muscles work and how certain clinical disorders result from specific defects in muscle and nerve.
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Structure and Development
Putting Muscles to Work
The Adaptable Neuromuscular System
11 other sections not shown
acetylcholine AChRs acid actin actin filaments action potential activity Adapted with permission animals Applied Physiology atrophy axon terminal axoplasmic basement membrane central changes channel chapter concentration contractile contraction Copyright cross-bridges cytoplasm cytosol degeneration depolarization disuse effects electrical electron embryo end-plate enzyme Experimental extensor factor fast-twitch fatigue fibres Figure force gene glycogen human muscle Huxley impulse increase innervation intracellular ions isometric Journal of Physiology limb M-wave mammalian McComas mechanism membrane potential microscope mitochondria molecular molecules motoneurons motor axons motor nerve terminals motor units muscle belly muscle fibers muscle spindles myelin sheath myoblasts myofibrils myosin myosin filaments myotubes nerve fibers neural Neurology neuromuscular junction neurons neurotrophins normal patients permeability plasmalemma protein pump receptors region reinnervation release response sarcomeres sarcoplasmic reticulum Schwann cells skeletal muscle slow soleus soleus muscles spinal cord sprouting stimulation structure studies subunits T-tubules tendon tension tetanic tion trophic twitch velocity