Seeing Your Foot Move Changes Muscle Proprioceptive Feedback

Multisensory effects are found when the input from single senses combines, and this has been well researched in the brain. Presently, we examined in humans the potential impact of visuo-proprioceptive interactions at the peripheral level, using microneurography, and compared it with a similar behavi...

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Veröffentlicht in:	ENEURO 2019-03, Vol.6 (2), p.ENEURO.0341-18.2019-18
Hauptverfasser:	Ackerley, Rochelle, Chancel, Marie, Aimonetti, Jean-Marc, Ribot-Ciscar, Edith, Kavounoudias, Anne
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult afferents Cognitive science Cognitive Sciences corticospinal projections Cues Feedback, Sensory - physiology Female Foot forearm fusimotor activity fusimotor drive Fysiologi och anatomi human Humans information kinesthesia Life Sciences Male motor areas Movement - physiology movement perception multisensory integration muscle Muscle, Skeletal - physiology neural mechanisms Neurons and Cognition Neuroscience New Research Physiology and Anatomy proprioception Proprioception - physiology Psychomotor Performance - physiology sensitivity spindle vision Visual Perception - physiology Young Adult
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creator	Ackerley, Rochelle Chancel, Marie Aimonetti, Jean-Marc Ribot-Ciscar, Edith Kavounoudias, Anne
description	Multisensory effects are found when the input from single senses combines, and this has been well researched in the brain. Presently, we examined in humans the potential impact of visuo-proprioceptive interactions at the peripheral level, using microneurography, and compared it with a similar behavioral task. We used a paradigm where participants had either proprioceptive information only (no vision) or combined visual and proprioceptive signals (vision). We moved the foot to measure changes in the sensitivity of single muscle afferents, which can be altered by the descending fusimotor drive. Visual information interacted with proprioceptive information, where we found that for the same passive movement, the response of muscle afferents increased when the proprioceptive channel was the only source of information, as compared with when visual cues were added, regardless of the attentional level. Behaviorally, when participants looked at their foot moving, they more accurately judged differences between movement amplitudes, than in the absence of visual cues. These results impact our understanding of multisensory interactions throughout the nervous system, where the information from different senses can modify the sensitivity of peripheral receptors. This has clinical implications, where future strategies may modulate such visual signals during sensorimotor rehabilitation.
doi_str_mv	10.1523/ENEURO.0341-18.2019
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subjects	Adult afferents Cognitive science Cognitive Sciences corticospinal projections Cues Feedback, Sensory - physiology Female Foot forearm fusimotor activity fusimotor drive Fysiologi och anatomi human Humans information kinesthesia Life Sciences Male motor areas Movement - physiology movement perception multisensory integration muscle Muscle, Skeletal - physiology neural mechanisms Neurons and Cognition Neuroscience New Research Physiology and Anatomy proprioception Proprioception - physiology Psychomotor Performance - physiology sensitivity spindle vision Visual Perception - physiology Young Adult
title	Seeing Your Foot Move Changes Muscle Proprioceptive Feedback
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