Human physiology: an integrated approach
The new edition of Award-winning author and educator Dee Silverthorn'sHuman Physiology: An Integrated Approach builds upon the book's thorough coverage of integrative and molecular physiology topics to give you a solid foundation of understanding for your education, career, or general knowledge. Every piece of art has been revised so that figures and diagrams are clearer, making it easier to understand complex physiological systems. A comprehensive, integrated approach including basic cell processes, homeostasis & control, integration of function, and metabolism, growth, & aging. For college instructors, students, people in the nursing/allied health field, or anyone interested in human anatomy.
72 pages matching arterial in this book
Results 1-3 of 72
What people are saying - Write a review
We haven't found any reviews in the usual places.
Introduction to Physiology
Homeostasis and Control
78 other sections not shown
Other editions - View all
Human Physiology: An Integrated Approach : Books Ala Carte
Dee Unglaub Silverthorn, Ph.D.
No preview available - 2009
MasteringA&P with Pearson EText -- Standalone Access Card -- for Human ...
Dee Unglaub Silverthorn
No preview available - 2014
action potential active alveoli amino acids arterial arterioles atom autonomic axon binding blood flow blood pressure blood vessels body brain Ca2+ capillaries carbon cardiac cardiovascular cause cell membrane changes chapter chemical concentration CONCEPT CHECK cortex create cytoplasm decreases depolarization diabetes diffusion digestive disease efferent electrons endocrine energy enters enzymes epithelial epithelium example excretion extracellular fluid Figure filtration function glands glucose gradient heart hemoglobin homeostasis hormone increases insulin integrating interstitial fluid intestine ions kidney lipids lumen lungs membrane potential metabolism molecules move movement muscle contraction muscle fibers myosin Na+ channels nephron nerve nervous system neurotransmitter normal organs osmolarity oxygen paracrines parasympathetic pathways peptide physiology plasma proteins reaction receptors red blood cells reflex release respiratory response secretion sensory neurons skeletal muscle smooth muscle solution spinal cord stimulus substrate synapse synthesis target tion tissue transport tubule types urine ventilation ventricles vesicles volume