Physiology: Difference between revisions
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'''Physiology''' is the study of how living things function, and is therefore, part of of [[biology]]. Just ''which'' part has changed focus over the years. Historically, physiology has embraced subjects, like [[biochemistry]], [[pharmacology]] and [[immunology]] that then developed sufficiently to be regarded as | '''Physiology''' is the study of how living things function, and is therefore, part of of [[biology]]. Just ''which'' part has changed focus over the years. Historically, physiology has embraced subjects, like [[biochemistry]], [[pharmacology]] and [[immunology]] that were found to be important in understanding life processes, and then split off into distinct areas of study as the fields developed sufficiently to be regarded as separate disciplines. Despite that, aspects of each of these disciplines still remain at the heart of physiology as the science of life functions. What still distinguishes topics that are squarely within the field of physiology from other, related fields, is the concept of ''physiological relevance'' - if the intrinsic importance of an observed mechanism or phenomenon is vital in the normal function of the organism involved, then that counts as physiology. | ||
When a drug is absorbed by Thus a pharmacological response merely demonstrates the presence of functional receptors, a physiological response entails showing the involvement of an endogenous ligand in an effect that has demonstrably adaptive consequences. | When a drug is absorbed by Thus a pharmacological response merely demonstrates the presence of functional receptors, a physiological response entails showing the involvement of an endogenous ligand in an effect that has demonstrably adaptive consequences. | ||
A relatively recent offshoot of physiology is the field of [[Biophysics|biophysics]]. | A relatively recent offshoot of physiology is the field of [[Biophysics|biophysics]]. | ||
Within physiology, there has been a traditional divide between the study of plants ([[Botany]]) and the study of animals ([[Zoology]]). | |||
=Scale: molecules to systems= | =Scale: molecules to systems= |
Revision as of 12:44, 2 February 2007
(Latin or Greek: physiologia; Greek: physis- nature, + logos- study)
Physiology is the study of how living things function, and is therefore, part of of biology. Just which part has changed focus over the years. Historically, physiology has embraced subjects, like biochemistry, pharmacology and immunology that were found to be important in understanding life processes, and then split off into distinct areas of study as the fields developed sufficiently to be regarded as separate disciplines. Despite that, aspects of each of these disciplines still remain at the heart of physiology as the science of life functions. What still distinguishes topics that are squarely within the field of physiology from other, related fields, is the concept of physiological relevance - if the intrinsic importance of an observed mechanism or phenomenon is vital in the normal function of the organism involved, then that counts as physiology.
When a drug is absorbed by Thus a pharmacological response merely demonstrates the presence of functional receptors, a physiological response entails showing the involvement of an endogenous ligand in an effect that has demonstrably adaptive consequences.
A relatively recent offshoot of physiology is the field of biophysics.
Within physiology, there has been a traditional divide between the study of plants (Botany) and the study of animals (Zoology).
Scale: molecules to systems
Integrative Physiology
Important physiologists of the Twentieth Century
Major names in the history of physiology in the first half of the 20th century might include Hodgkin and Huxley (physiology of the nervous impulse), Starling (endocrine scretions), Ringer (frog heart), Katz (neuromuscular junction), Adrian (nerve impulses), Sharpey-Shafer (adrenals and other endocrine systems), Sherrington (spinal reflexes), Dale (transmitter release), Eccles (synapses), Geoffrey Harris (neuroendocrine systems) (a very UK-centric list of our glory days), but also Nernst, Cajal, Banting and Best, Howard Florey. All living thing ( by most definitions) are composed of cells, and so the life functions that are present in every cell, like metabolism are an important part of physiology. Specialized functions of cells and organs are also included in this branch of biology. So, in the heart, for example, the electrical conducting system for the co-ordination of the beat of muscle cells is an important part of cardiac physiology. In Medicine, normal healthy functioning of tissues is called physiologic, and pathophysiology describes the specific mechanisms of disease processes.
Some fields within physiology focus on certain kinds of living things, such as microbial physiology.