Ia presynaptic inhibition in human wrist extensor muscles: Effects of motor task and cutaneous afferent activity

The task-dependence of the presynaptic inhibition of the muscle spindle primary afferents in human forearm muscles was studied, focusing in particular on the modulation associated with the co-contraction of antagonist muscles and the activation of cutaneous afferents. The changes known to affect the...

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Veröffentlicht in:	Journal of physiology, Paris Paris, 1999-09, Vol.93 (4), p.395-401
Hauptverfasser:	Aimonetti, Jean Marc, Schmied, Annie, Vedel, Jean-Pierre, Pagni, Simone
Format:	Artikel
Sprache:	eng
Schlagworte:	Hand - innervation Hand - physiology Humans motor control motor unit Movement - physiology Muscle Contraction Muscle, Skeletal - innervation Muscle, Skeletal - physiology Neurons, Afferent - physiology presynaptic inhibition Psychomotor Performance - physiology Receptors, Presynaptic - physiology Skin - innervation Space life sciences Wrist - innervation Wrist - physiology wrist muscles
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container_title	Journal of physiology, Paris
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creator	Aimonetti, Jean Marc Schmied, Annie Vedel, Jean-Pierre Pagni, Simone
description	The task-dependence of the presynaptic inhibition of the muscle spindle primary afferents in human forearm muscles was studied, focusing in particular on the modulation associated with the co-contraction of antagonist muscles and the activation of cutaneous afferents. The changes known to affect the motoneuron proprioceptive assistance during antagonist muscle co-activation in human leg and arm muscles were compared. The evidence available so far that these changes might reflect changes in the presynaptic inhibition of the muscle spindle afferent is briefly reviewed. The possible reasons for changes in presynaptic inhibition during the antagonist muscle co-contraction are discussed. Some new experiments on the wrist extensor muscles are briefly described. The results showed that the changes in the Ia presynaptic inhibition occurring during the co-contraction of the wrist flexor and extensor muscles while the hand cutaneous receptors were being activated (the subject's hand was clenched around a manipulandum) could be mimicked by contracting the wrist extensor muscles alone while applying extraneous stimulation to the hand cutaneous receptors. It is concluded that besides the possible contribution of inputs generated by the co-contraction of antagonist muscles and by supraspinal pathways, cutaneous inputs may play a major role in modulating the proprioceptive assistance during manipulatory movements.
doi_str_mv	10.1016/S0928-4257(00)80067-4
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The changes known to affect the motoneuron proprioceptive assistance during antagonist muscle co-activation in human leg and arm muscles were compared. The evidence available so far that these changes might reflect changes in the presynaptic inhibition of the muscle spindle afferent is briefly reviewed. The possible reasons for changes in presynaptic inhibition during the antagonist muscle co-contraction are discussed. Some new experiments on the wrist extensor muscles are briefly described. The results showed that the changes in the Ia presynaptic inhibition occurring during the co-contraction of the wrist flexor and extensor muscles while the hand cutaneous receptors were being activated (the subject's hand was clenched around a manipulandum) could be mimicked by contracting the wrist extensor muscles alone while applying extraneous stimulation to the hand cutaneous receptors. 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subjects	Hand - innervation Hand - physiology Humans motor control motor unit Movement - physiology Muscle Contraction Muscle, Skeletal - innervation Muscle, Skeletal - physiology Neurons, Afferent - physiology presynaptic inhibition Psychomotor Performance - physiology Receptors, Presynaptic - physiology Skin - innervation Space life sciences Wrist - innervation Wrist - physiology wrist muscles
title	Ia presynaptic inhibition in human wrist extensor muscles: Effects of motor task and cutaneous afferent activity
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