节奏学习过程中人类大脑的变化。

Changes in the human brain during rhythm learning.

作者信息

Ramnani N, Passingham R E

机构信息

University College London, UK.

出版信息

J Cogn Neurosci. 2001 Oct 1;13(7):952-66. doi: 10.1162/089892901753165863.

DOI:10.1162/089892901753165863

PMID:11595098

Abstract

Subjects were scanned with PET while they learned a complex arbitrary rhythm, paced by visual cues. In the comparison condition, the intervals were varied randomly. The behavioral results showed that the subjects decreased their response time with training, thus becoming more accurate in responding to the pacing cues at the appropriate time. There were learning-related increases in the posterior lateral cerebellum (lobule HVIIa), intraparietal and medial parietal cortex, presupplementary motor area (pre-SMA), and lateral premotor cortex. Learning-related decreases were found in the prestriate and inferior temporal cortex, suggesting that with practice the subjects increasingly came to depend on internal rather than external cues to time their responses. There were no learning-related increases in the basal ganglia. It is suggested that it is the neocortical-cerebellar loop that is involved in the timing and coordination of responses.

摘要

在受试者学习由视觉线索引导的复杂任意节奏时，对他们进行正电子发射断层扫描（PET）。在对照条件下，间隔是随机变化的。行为结果表明，受试者随着训练减少了反应时间，从而在适当时间对节奏线索的反应变得更加准确。在小脑后外侧（小叶HVIIa）、顶内和顶叶内侧皮质、辅助运动前区（pre-SMA）和外侧运动前皮质出现了与学习相关的增加。在纹前和颞下皮质发现了与学习相关的减少，这表明随着练习，受试者越来越依赖内部而非外部线索来确定反应时间。基底神经节没有与学习相关的增加。有人认为，参与反应定时和协调的是新皮质 - 小脑环路。

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节奏学习过程中人类大脑的变化。

Changes in the human brain during rhythm learning.

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