The all-or-none law is the principle that the strength by which a nerve or muscle fiber responds to a stimulus is not dependent on the strength of the stimulus. If the stimulus is any strength above threshold, the nerve or muscle fiber will either give a complete response or no response at all.
It was first established by the American physiologist Henry P. Bowditch in 1871 for the contraction of heart muscle. According to him, describing the relation of response to stimulus,
“An induction shock produces a contraction or fails to do so according to its strength; if it does so at all, it produces the greatest contraction that can be produced by any strength of stimulus in the condition of the muscle at the time.”The individual fibers of both skeletal muscle and nerve respond to stimulation according to the all-or-none principle.
Relationship Between Stimulus and Response
The magnitude of the spike potential (impulse) set up in any single nerve fiber is independent of the strength of the exciting stimulus, provided the latter is adequate. An electrical stimulus below threshold strength fails to elicit a propagated spike potential. If it is of threshold strength or over, a spike (representing a nervous impulse) of maximum magnitude is set up. Either the single fiber does not respond with spike production, or it responds to the utmost of its ability under the conditions at the moment. This property of the single nerve fiber is termed the all-or-none relationship. It should be emphasized that this relationship applies only to the unit of tissue, as well as to skeletal muscle units (the unit being the individual muscle fiber) and to the heart(the unit being the entire auricles or the entire ventricles).
Stimuli too weak to produce a spike do, however, set up a local electrotonus, the magnitude of the electronic potential progressively increasing with the strength of the stimulus, until a spike is generated. This demonstrates the all-or-none relationship in spike production.
The above account deals with the response of a single nerve fiber. If a nerve trunk is stimulated, then as the exciting stimulus is progressively increased above threshold, a larger number of fibers respond. The minimal effective (i.e. threshold) stimulus is adequate only for fibers of high excitability, but a stronger stimulus excites all the nerve fibers. Increasing the stimulus further does increase the response of whole nerve.
Heart muscle is excitable, i.e. it responds to external stimuli by contracting. If the external stimulus is too weak, no response is obtained; if the stimulus is adequate, the heart responds to the best of its ability. Accordingly, the auricles or ventricles behave as a single unit, so that an adequate stimulus normally produces a full contraction of either the auricles or ventricles. The force of the contraction obtained depends on the state in which the muscles fibers find themselves. In the case of muscle fibers, the individual muscle fiber does not respond at all if the stimulus is too weak. However, it responds maximally when the stimulus rises to threshold. The contraction is not increased if the stimulus strength is further raise. Stronger stimuli bring more muscle fibers into action and thus the tension of a muscle increases as the strength of the stimulus applied to it rises.
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all-or-none law — n a principle in physiology: in any single nerve or muscle fiber the response to a stimulus above threshold level is maximal and independent of the intensity of the stimulus * * * see all or none … Medical dictionary
all-or-none law — /awl euhr nun /, Physiol. the principle that under given conditions the response of a nerve or muscle fiber to a stimulus at any strength above the threshold is the same: the muscle or nerve responds completely or not at all. [1895 1900] * * * ▪… … Universalium
all-or-none law — noun (neurophysiology) a nerve impulse resulting from a weak stimulus is just as strong as a nerve impulse resulting from a strong stimulus • Topics: ↑neurophysiology • Hypernyms: ↑law, ↑law of nature * * * noun : a principle in physiology … Useful english dictionary
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