睡眠纺锤波可通过脑机接口训练进行局部调制。
Sleep spindles are locally modulated by training on a brain-computer interface.
机构信息
University of Washington, Department of Neurological Surgery, Seattle, WA 98195, USA.
出版信息
Proc Natl Acad Sci U S A. 2012 Nov 6;109(45):18583-8. doi: 10.1073/pnas.1207532109. Epub 2012 Oct 22.
Abstract
The learning of a motor task is known to be improved by sleep, and sleep spindles are thought to facilitate this learning by enabling synaptic plasticity. In this study subjects implanted with electrocorticography (ECoG) arrays for long-term epilepsy monitoring were trained to control a cursor on a computer screen by modulating either the high-gamma or mu/beta power at a single electrode located over the motor or premotor area. In all trained subjects, spindle density in posttraining sleep was increased with respect to pretraining sleep in a remarkably spatially specific manner. The pattern of increased spindle activity reflects the functionally specific regions that were involved in learning of a highly novel and salient task during wakefulness, supporting the idea that sleep spindles are involved in learning to use a motor-based brain-computer interface device.
摘要
学习一项运动任务已知可以通过睡眠得到改善,而睡眠纺锤波被认为通过促进突触可塑性来促进这种学习。在这项研究中,接受脑电皮层电图(ECoG)阵列植入以进行长期癫痫监测的受试者通过调制位于运动或运动前区域上方的单个电极处的高伽马或 mu/beta 功率来训练控制计算机屏幕上的光标。在所有接受训练的受试者中,与训练前睡眠相比,训练后睡眠中的纺锤波密度以一种非常特殊的空间方式增加。增加的纺锤波活动模式反映了在清醒时参与高度新颖和显著任务学习的功能特异性区域,支持睡眠纺锤波参与学习使用基于运动的脑机接口设备的想法。
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