通过合成孔径磁力测量法发现的人类睡眠纺锤波的电流源密度分布。

Current source density distribution of sleep spindles in humans as found by synthetic aperture magnetometry.

作者信息

Ishii Ryouhei, Dziewas Rainer, Chau Wilkin, Sörös Peter, Okamoto Hidehiko, Gunji Atsuko, Pantev Christo

机构信息

The Rotman Research Institute, Baycrest Centre for Geriatric Care, University of Toronto, 3560 Bathurst Street, Toronto, Ontario, M6A 2E1, Canada.

出版信息

Neurosci Lett. 2003 Apr 3;340(1):25-8. doi: 10.1016/s0304-3940(03)00048-x.

DOI:10.1016/s0304-3940(03)00048-x

PMID:12648750

Abstract

Previous magnetoencephalography (MEG) studies of sleep spindles have identified a complex and widespread distribution in parietal and frontal cortices by fitting a dipolar model to the data. In this study, we used a whole-head 151-channel MEG system with simultaneous electroencephalography (EEG) recording in eight normal subjects. All subjects fell asleep during stage 2 and 3; EEG spindles have been observed in all cases. The current source density distribution of sleep spindles in the 10-15 Hz frequency band was localized by means of synthetic aperture magnetometry, and statistically tested using a permutation analysis. Source locations of the sleep spindles were found primarily in the frontal cortex, including dorsolateral and medial prefrontal areas, as well as the parietal cortex, including the vicinity of the primary sensorimotor areas. These results suggest that sleep spindles are similar in frequency content and spatial location to mu rhythm, and that these two oscillatory activities might also have a common neural basis and physiological meaning.

摘要

先前对睡眠纺锤波的脑磁图（MEG）研究通过将偶极模型拟合到数据中，确定了顶叶和额叶皮质中复杂且广泛的分布。在本研究中，我们使用了一个全头151通道MEG系统，并在8名正常受试者中同时记录脑电图（EEG）。所有受试者在第2和第3阶段入睡；在所有情况下均观察到EEG纺锤波。通过合成孔径磁力测定法对10 - 15Hz频段睡眠纺锤波的电流源密度分布进行定位，并使用置换分析进行统计学检验。发现睡眠纺锤波的源位置主要在额叶皮质，包括背外侧和内侧前额叶区域，以及顶叶皮质，包括初级感觉运动区域附近。这些结果表明，睡眠纺锤波在频率成分和空间位置上与μ节律相似，并且这两种振荡活动可能也有共同的神经基础和生理意义。

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通过合成孔径磁力测量法发现的人类睡眠纺锤波的电流源密度分布。

Current source density distribution of sleep spindles in humans as found by synthetic aperture magnetometry.

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