Human Physiology: An Integrated Approach
"Human Physiology: An Integrated Approach"broke ground with its thorough coverage of molecular physiology seamlessly integrated into a traditional homeostasis-based systems approach . The newly revised Fourth Edition strengthens the coverage of the "big picture" themes in the study of physiology and helps students tie concepts together in a logical framework for learning. BASIC CELL PROCESSES: INTEGRATION AND COORDINATION, Introduction to Physiology, Molecular Interactions, Compartmentation: Cells and Tissues, Energy and Cellular Metabolism, Membrane Dynamics, Communication, Integration, Homeostasis, HOMEOSTASIS AND CONTROL, Introduction to the Endocrine System, Neurons: Cellular and Network Properties, The Central Nervous System, Sensory Physiology, Efferent Division: Autonomic and Somatic Motor Control, Muscles, Integrative Physiology I: Control of Body Movement, INTEGRATION OF FUNCTION, Cardiovascular Physiology, Blood Flow and the Control of Blood Pressure, Blood, Mechanics of Breathing, Gas Exchange and Transport, The Kidneys, Integrative Physiology II: Fluid and Electrolyte Balance, METABOLISM, GROWTH, AND AGING, Digestion, Energy Balance and Metabolism, Endocrine Control of Growth and Metabolism, The Immune System, Integrative Physiology III: Exercise, Reproduction and Development. For all readers interested in the study of human physiology.
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Human Physiology: An Integrated Approach : Books Ala Carte
Dee Unglaub Silverthorn, Ph.D.
No preview available - 2009
action potential activity alveolar alveoli amino acids arterial arterioles atom autonomic axon binding blood flow blood pressure blood vessels body brain C O N C E P T C H E C K capillaries cardiac cardiovascular cell membrane channels chemical cortex create cytoplasm decreases depolarization diffusion digestive disease efferent electrical electrons endocrine energy enters enzymes epithelial epithelium excretion extracellular fluid FIGURE filtration function glands glucose HCO3 heart hemoglobin homeostasis hormones increases insulin integrating interstitial fluid intestine kidney ligand lipids lumen lungs membrane potential metabolism molecules move movement muscle contraction muscle fiber myosin nephron nerve nervous system neural neurotransmitter normal osmolarity oxygen paracrine pathways peptide physiology plasma proteins reabsorbed reaction receptors red blood cells reflex release respiratory response secretion sensory neurons signal skeletal muscle smooth muscle solution spinal cord stimulus synapse tion tissue transport tubule types urine ventilation ventricle vesicles volume