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Literature DB >> 99813

Processes controlling arm movements in monkeys.

Abstract

The experiments identify some of the processes underlying arm movements in rhesus monkeys. Three monkeys were trained to point to a target with the hand and forearm and to hold that position for about 1 second to obtain a reward. Forearm movements were performed without sight of the arm before and after bilateral dorsal rhizotomy. In both intact and deafferented animals, we unexpectedly displaced the forearm prior to movement initiation and observed that the arm moved accurately to the target. These results are relevant to the question of what is being controlled by motor commands. The controlled variable appears to be an equilibrium point between agonist and antagonist muscles. The findings suggest that the feedback system plays a major role in updating and adjusting the central programs subserving the execution of learned motor patterns.

Entities: Disease Species

Mesh：

Year: 1978 PMID： 99813 DOI： 10.1126/science.99813

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

32 in total

1. The case for an internal dynamics model versus equilibrium point control in human movement.

Authors: Mark R Hinder; Theodore E Milner
Journal: J Physiol Date: 2003-04-25 Impact factor: 5.182

2. Case Studies in Neuroscience: The central and somatosensory contributions to finger interdependence and coordination: lessons from a study of a "deafferented person".

Authors: Cristian Cuadra; Ali Falaki; Robert Sainburg; Fabrice R Sarlegna; Mark L Latash
Journal: J Neurophysiol Date: 2019-04-10 Impact factor: 2.714

10. Oculo-manual tracking of visual targets in monkey: role of the arm afferent information in the control of arm and eye movements.

Authors: G M Gauthier; F Mussa Ivaldi
Journal: Exp Brain Res Date: 1988 Impact factor: 1.972

Processes controlling arm movements in monkeys.

1. The case for an internal dynamics model versus equilibrium point control in human movement.

2. Case Studies in Neuroscience: The central and somatosensory contributions to finger interdependence and coordination: lessons from a study of a "deafferented person".

3. The dominant and nondominant arms are specialized for stabilizing different features of task performance.

4. Perturbation-induced false starts as a test of the jirsa-kelso excitator model.

5. Evolution of Motor Control: From Reflexes and Motor Programs to the Equilibrium-Point Hypothesis.

6. The spatiotemporal structure of control variables during catching.

7. Proprioception in motor learning: lessons from a deafferented subject.

8. Validating the feedback control of intersegmental coordination by fluctuation analysis of disturbed walking.

9. Temporally Segmented Directionality in the Motor Cortex.

10. Oculo-manual tracking of visual targets in monkey: role of the arm afferent information in the control of arm and eye movements.