Ganong's Review of Medical Physiology 25th EditionThe leading text on human physiology for more than four decades For more than four decades, Ganong’s Review of Medical Physiology has been helping those in the medical field understand human and mammalian physiology. Applauded for its interesting and engagingly written style, Ganong’s concisely covers every important topic without sacrificing depth or readability and delivers more detailed, high-yield information per page than any other similar text or review. Thoroughly updated to reflect the latest research and developments in important areas. Ganong’s Review of Medical Physiology incorporates examples from clinical medicine to illustrate important physiologic concepts.
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Page 384
... bone. The compact bone is shown in horizontal section (top) and vertical section (bottom). (Reproduced with permission from Williams PLetal [editors]: Gray's Anatomy, 37th ed. Churchill Livingstone; 1989.) Bone-resorbing compartment ...
... bone. The compact bone is shown in horizontal section (top) and vertical section (bottom). (Reproduced with permission from Williams PLetal [editors]: Gray's Anatomy, 37th ed. Churchill Livingstone; 1989.) Bone-resorbing compartment ...
Page 387
... Bone loss can also occur in both men and women as a result of inactivity. In patients who are immobilized for any reason, and during space flight, bone resorption exceeds bone formation and disuse osteoporosis develops. The plasma ...
... Bone loss can also occur in both men and women as a result of inactivity. In patients who are immobilized for any reason, and during space flight, bone resorption exceeds bone formation and disuse osteoporosis develops. The plasma ...
Page 554
... bone marrow becomes destroyed or fibrosed. In children, blood cells are actively produced in the marrow cavities of all the bones. By age 20, the marrow in the cavities of the long bones, except for the upper humerus and femur, has ...
... bone marrow becomes destroyed or fibrosed. In children, blood cells are actively produced in the marrow cavities of all the bones. By age 20, the marrow in the cavities of the long bones, except for the upper humerus and femur, has ...
Contents
Cellular Molecular Basis for Medical Physiology | 1 |
Central Peripheral Neurophysiology | 157 |
Endocrine Reproductive Physiology | 297 |
Copyright | |
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abnormal acid action activity addition alveoli amino acids amount appears arterial associated axons bile binding blood blood flow body bone brain Ca2+ called capillaries cardiac cause cells changes channels Chapter circulation Clinical Box complex concentration conduction contain contraction cortex cytoplasm decrease described direct disease drugs effects enter enzyme example factor fibers Figure fluid function gene glands glucose growth heart hormone humans hypothyroidism important increase individuals inhibition initial insulin intestine involved leads liver located loss lungs mechanisms membrane molecules motor move movement muscle myosin nerve neurons normal nucleus occurs organs pain pathways patients permission Physiology placenta plasma potential pressure produced protein receptors reduced reflex regulation relatively release response result rise secretion sensory smooth spinal stimulation structure substances Table terminal thyroid tion tissues transport treatment types various vessels volume