Proprioceptive feedback is reduced during adaptation to a visuomotor transformation: preliminary findings
- 1 December 2001
- journal article
- Published by Wolters Kluwer Health in NeuroReport
- Vol. 12 (18) , 4029-4033
- https://doi.org/10.1097/00001756-200112210-00035
Abstract
Adapting movements in relation to visual feedback is a ubiquitous characteristic of sensorimotor control and involves the integration of multiple sources of sensory information. We recorded sensory feedback from muscle spindle afferents during visuomotor adaptation while subjects performed an aiming task to investigate whether the activity of the muscle spindles was modulated by the fusimotor system under these learning conditions. None of the muscle spindles showed an increase in activity, rather in 83% of the trials the firing rates were decreased. These preliminary results suggest that the CNS reduces the sensory signals arising from muscle spindles perhaps as a means of resolving the conflict between visual and proprioceptive feedback during the task.Keywords
This publication has 19 references indexed in Scilit:
- Learning of Visuomotor Transformations for Vectorial Planning of Reaching TrajectoriesJournal of Neuroscience, 2000
- Aspects of body self-calibrationTrends in Cognitive Sciences, 2000
- Independent learning of internal models for kinematic and dynamic control of reachingNature Neuroscience, 1999
- Multiple paired forward and inverse models for motor controlNeural Networks, 1998
- Internal models in the cerebellumPublished by Elsevier ,1998
- Modular decomposition in visuomotor learningNature, 1997
- Learning a new visuomotor transformation: error correction and generalizationCognitive Brain Research, 1995
- Invited review: Microneurography and applications to issues of motor control: Fifth annual stuart reiner memorial lectureMuscle & Nerve, 1993
- Sensorimotor gain control: A basic strategy of motor systems?Progress in Neurobiology, 1989
- ‘Fusimotor set’: new evidence for α-independent control of γ-motoneurones during movement in the awake catBrain Research, 1985