两个空间分离的人类受试者大脑电活动之间的相关性。

Correlations between brain electrical activities of two spatially separated human subjects.

作者信息

Wackermann Jirí, Seiter Christian, Keibel Holger, Walach Harald

机构信息

Department of Empirical and Analytical Psychophysics, Institute for Frontier Areas of Psychology, Wilhelmstrasse 3a, D-79098 Freiburg i.Br., Germany.

出版信息

Neurosci Lett. 2003 Jan 9;336(1):60-4. doi: 10.1016/s0304-3940(02)01248-x.

DOI:10.1016/s0304-3940(02)01248-x

PMID:12493602

Abstract

Six channels electroencephalogram (EEG) were recorded simultaneously from pairs of separated human subjects in two acoustically and electromagnetically shielded rooms. While brain electric responses to visual pattern-reversal stimuli were elicited in one subject, the other subject relaxed without stimulation. EEGs of both subjects were averaged at times of stimulus onset, effective voltage of the averaged signals was computed within a running window, and expressed as ratio (Q) to the effective voltage of averaged EEG signal from non-stimulation periods. These ratios in non-stimulated subjects at the latency of the maximum response in stimulated subjects were analysed. Significant departures of Q ratios from reference distributions, based on baseline EEG in non-stimulation periods, were found in most non-stimulated subjects. The results indicate that correlations between brain activities of two separated subjects may occur, although no biophysical mechanism is known.

摘要

在两个隔音和电磁屏蔽的房间里，同时从两对分开的人类受试者身上记录了六通道脑电图（EEG）。当在一名受试者身上引发对视觉模式反转刺激的脑电反应时，另一名受试者在无刺激的情况下放松。在刺激开始时对两名受试者的脑电图进行平均，在一个移动窗口内计算平均信号的有效电压，并表示为与非刺激期平均脑电图信号有效电压的比值（Q）。分析了在受刺激受试者最大反应潜伏期时非受刺激受试者的这些比值。在大多数非受刺激受试者中发现，基于非刺激期基线脑电图的Q比值与参考分布存在显著差异。结果表明，尽管尚不清楚生物物理机制，但两个分开的受试者的脑活动之间可能存在相关性。

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两个空间分离的人类受试者大脑电活动之间的相关性。

Correlations between brain electrical activities of two spatially separated human subjects.

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