视运动技能与睡眠相关的巩固:通过功能磁共振成像评估的脑机制
Sleep-related consolidation of a visuomotor skill: brain mechanisms as assessed by functional magnetic resonance imaging.
作者信息
Maquet Pierre, Schwartz Sophie, Passingham Richard, Frith Christopher
机构信息
Wellcome Department of Imaging Neuroscience, London WC 1N 3BG, United Kingdom.
出版信息
J Neurosci. 2003 Feb 15;23(4):1432-40. doi: 10.1523/JNEUROSCI.23-04-01432.2003.
Abstract
Subjects were trained on a pursuit task in which the target trajectory was predictable only on the horizontal axis. Half of them were sleep deprived on the first post-training night (n = 13). Three days later, functional magnetic resonance imaging revealed task-related increases in brain responses to the learned trajectory, as compared with a new trajectory. In the sleeping group (n = 12) as compared with the sleep-deprived group, subjects' performance was improved, and their brain activity was greater in the superior temporal sulcus (STS). Increased functional connectivity was observed between the STS and the cerebellum and between the supplementary eye field and the frontal eye field. These differences indicate sleep-related plastic changes during motor skill learning in areas involved in smooth pursuit eye movements.
摘要
受试者接受了一项追踪任务训练,其中目标轨迹仅在水平轴上是可预测的。他们中的一半在训练后的第一个晚上被剥夺睡眠(n = 13)。三天后,功能磁共振成像显示,与新轨迹相比,大脑对所学轨迹的反应出现了与任务相关的增加。与睡眠剥夺组相比,睡眠组(n = 12)的受试者表现有所改善,其颞上沟(STS)的大脑活动更强。在STS与小脑之间以及辅助眼区与额叶眼区之间观察到功能连接增加。这些差异表明,在涉及平稳追踪眼球运动的区域进行运动技能学习期间,存在与睡眠相关的可塑性变化。
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