1949
DOI: 10.1085/jgp.33.2.147
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Post-Tetanic Potentiation of Response in Monosynaptic Reflex Pathways of the Spinal Cord

Abstract: Following tetanic afferent stimulation of a monosynaptic reflex pathway, the transmission through that pathway of isolated reflex volleys is enhanced for some minutes. Post-tetanic potentiation is comparable in the monosynaptic reflex arcs of flexor and extensor muscles. The facilitator and inhibitor actions of monosynaptic reflex afferent fibers, as well as the transmitter action, are potentiated following tetanization. Little post-tetanic change attends reflex transmission through plurisynaptic reflex arcs. … Show more

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Cited by 336 publications
(170 citation statements)
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“…However, the data available at present are still not enough to fully explain the phenomenon of motoneuronal firing interval shortening corresponding to the varied frequencies of vibratory stimulation. Forced stimulation of group Ia muscle afferent might well cause facilitation of the stretch reflex through posttetanic potentiation (LLOYD, 1949;GRANIT, 1956;HOMMA and KANO, 1962). Therefore, motoneuronal PTP which is caused by strong afferent bombardment during vibration can be considered as a probable support for the explanation of"vibratory facilitation.…”
Section: Discussionmentioning
confidence: 99%
“…However, the data available at present are still not enough to fully explain the phenomenon of motoneuronal firing interval shortening corresponding to the varied frequencies of vibratory stimulation. Forced stimulation of group Ia muscle afferent might well cause facilitation of the stretch reflex through posttetanic potentiation (LLOYD, 1949;GRANIT, 1956;HOMMA and KANO, 1962). Therefore, motoneuronal PTP which is caused by strong afferent bombardment during vibration can be considered as a probable support for the explanation of"vibratory facilitation.…”
Section: Discussionmentioning
confidence: 99%
“…3 h long form and a later process, many hours long, the latter requiring new protein synthesis. Lloyd (1949) reported that PTP of monosynaptic spinal reflexes could last up to 7 min. Eccles (1953) proposed that spinal cord synapses could be 'capable of "learning" to operate more effectively' through PTP, in particular if they were in a disused state before the activation.…”
Section: Facilitated Synaptic Transmissionmentioning
confidence: 99%
“…The increased amplitude of the soleus nerve action potential, which was accompanied by an increase in the threshold stimulus necessary for excitation, may have been the result of hyperpolarization of the nerve fibre membranes. Hyperpolarization and an increase in the presynaptic spike amplitude have been demonstrated following repetitive activity in several pathways in the spinal cord (Lloyd, 1949;Eccles & Rall, 1951 ;Wall & Johnson, 1958;Eccles & Krnjevic, 1959a, b;Curtis & Eccles, 1960), and in slow-conducting non-myelinated fibres (Brown & Holmes, 1956). Eccles, Eccles & Lundberg (1958) showed that the hyperpolarization occurring after a single impulse in soleus motoneurones is long-lasting (more than 140 msec), and summation of the positive after potentials after a prolonged high frequency tetanus would therefore probably give rise to a prolonged hyperpolarization of the nerve endings.…”
Section: Rabbitmentioning
confidence: 99%