THE REFRACTORY STATE OF THE GENERATOR AND PROPAGATED POTENTIALS IN A PACINIAN CORPUSCLE

doi:10.1085/jgp.41.4.805

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ARTICLE

THE REFRACTORY STATE OF THE GENERATOR AND PROPAGATED POTENTIALS IN A PACINIAN CORPUSCLE

Werner R. Loewenstein ¹ and Rafael Altamirano-Orrego ¹

¹ From the Institute of Physiology, University of Chile, Santiago

A propagated potential produced in the Pacinian corpuscle inresponse to mechanical stimuli leaves a refractory state of7 to 10 msec. duration. The refractory state is presumably producedat the first intracorpuscular node of Ranvier. The recoveryof receptor excitability for producing an all-or-none responseto mechanical stimulation follows the same time course as thatof the electrically excited axon. Upon progressive reductionof stimulus interval (mechanical), the propagated potentialfalls progressively to 75 per cent of its resting magnitudeand becomes finally blocked within the corpuscle. A non-propagatedall-or-none potential, presumably corresponding to activityof the first node, is then detected. The critical firing levelfor all-or-none potentials increases progressively during therelative refractory period of the all-or-none potential, asthe stimulus interval is shortened. Thus generator potentialsup to 85 per cent of a propagated potential can be producedin absence of all-or-none activity. Generator potentials show:gradual over-all increase in amplitude and rate of rise as afunction of stimulus strength; constant latency; and spontaneousfluctuations in amplitude. A generator potential leaves a refractorystate (presumably at the non-myelinated ending) so that theamplitude of a second generator response which falls on itsrefractory trail is directly related to the time elapsed afterthe first generator response and inversely to its amplitude.The generator potential develops independently of any refractorystate left by a preceding all-or-none potential.

Submitted on September 9, 1957

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