Topography and morphology of heart action-related EEG potentials

G Dirlich, T Dietl, L Vogl, F Strian
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引用次数: 47

Abstract

Joint ECG and EEG measurements were performed in 22 healthy subjects under standardized laboratory conditions. Averaged EEG potentials were computed using the R-peaks in the ECG as reference events. Spatio-temporal potential patterns of heart action-related EEG activity were obtained from 26 scalp channels. A heart action-related positive potential was found, peaking over the parietal scalp regions. Its independence from the cardiac electrical field, the source of an EEG artifact that may be confounded with heart action-related brain potentials, is demonstrated. The potential reaches its maximum amplitude of about 0.5 μV at a latency of about 500 ms after the R-peak. Its topography, with peak amplitudes at the parietal electrode locations, is different from the topography of potentials observed in the few comparable experimental studies published so far. This suggests the presence of somatosensory-evoked components in heart action-related potentials and indicates that a renewed discussion of the underlying neuronal processes is necessary.

心脏动作相关脑电图电位的形貌和形态
在标准化的实验室条件下,对22名健康受试者进行了联合心电图和脑电图测量。以心电图r峰作为参考事件,计算平均脑电图电位。从26个头皮通道获得心脏动作相关脑电活动的时空电位模式。发现与心脏动作相关的正电位,在顶叶头皮区域达到峰值。它独立于心脏电场,可能与心脏动作相关的脑电位相混淆的脑电图伪影的来源,证明。在r峰后约500 ms时,电位达到最大振幅约0.5 μV。它的地形,在顶叶电极位置有峰值振幅,不同于迄今为止发表的少数类似实验研究中观察到的电位地形。这表明在心脏动作相关电位中存在体感诱发成分,并表明对潜在神经元过程的重新讨论是必要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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