Adaptive Plasticity in Primate Motor Cortex as a Consequence of Behavioral Experience and Neuronal Injury

Seminars in Neuroscience Pub Date : 1997-01-01 DOI:10.1006/smns.1997.0102

Randolph J. Nudo , Erik J. Plautz, Garrett W. Milliken

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引用次数: 86

Abstract

It is now clear that the motor cortex of adult mammals is capable of widespread functional reorganization. After specific types of motor skill training, the cortical representations of the movements used to perform the task expand, invading adjacent motor representations. After peripheral nerve injury, representations of unaffected muscles expand, invading those of the denervated muscles. After focal cortical injury, representations in the uninjured, adjacent cortical tissue undergo widespread alterations. Specific changes are dependent upon the use of the affected limb during the postinjury period. It now appears likely that motor map alterability results from changes in synaptic efficacy of intrinsic horizontal connections within motor cortex. Taken together, these studies suggest that the neurophysiological circuitry underlying muscle and movement maps within primary motor cortex is continually remodeled throughout an individual's life. The functional organization of motor cortex is constantly reshaped by behavioral demands for the learning of new motor skills.

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灵长类动物运动皮质的适应性可塑性是行为经验和神经元损伤的结果

现在很清楚，成年哺乳动物的运动皮层能够进行广泛的功能重组。经过特定类型的运动技能训练后，用于执行任务的运动的皮层表征扩展，侵入相邻的运动表征。周围神经损伤后，未受影响的肌肉扩张，侵入失神经支配的肌肉。局灶性皮质损伤后，未损伤的相邻皮质组织的表征发生广泛的改变。具体的变化取决于受伤后肢体的使用情况。现在看来，运动图的可变性很可能是由于运动皮层内内在水平连接的突触效能的改变。综上所述，这些研究表明，在一个人的一生中，肌肉的神经生理回路和初级运动皮层的运动地图会不断地重塑。运动皮层的功能组织不断被学习新运动技能的行为需求所重塑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seminars in Neuroscience

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