Beta-band power modulation in the human hippocampus during a reaching task

Roberto Martin Del Campo-Vera, Angad S. Gogia, Kuang Hsuan Chen, Rinu Sebastian, Daniel R. Kramer, Daniel R. Kramer, Morgan B. Lee, Terrance Peng, Ali Tafreshi, Michael F. Barbaro, Charles Y. Liu, Charles Y. Liu, Charles Y. Liu, Spencer Kellis, Spencer Kellis, Spencer Kellis, Spencer Kellis, Brian Lee, Brian Lee, Brian Lee

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4 引文 斯高帕斯(Scopus)

摘要

Objective. Characterize the role of the beta-band (13-30 Hz) in the human hippocampus during the execution of voluntary movement. Approach. We recorded electrophysiological activity in human hippocampus during a reach task using stereotactic electroencephalography (SEEG). SEEG has previously been utilized to study the theta band (3-8 Hz) in conflict processing and spatial navigation, but most studies of hippocampal activity during movement have used noninvasive measures such as fMRI. We analyzed modulation in the beta band (13-30 Hz), which is known to play a prominent role throughout the motor system including the cerebral cortex and basal ganglia. We conducted the classic 'center-out' direct-reach experiment with nine patients undergoing surgical treatment for medically refractory epilepsy. Main results. In seven of the nine patients, power spectral analysis showed a statistically significant decrease in power within the beta band (13-30 Hz) during the response phase, compared to the fixation phase, of the center-out direct-reach task using the Wilcoxon signed-rank hypothesis test (p < 0.05). Significance. This finding is consistent with previous literature suggesting that the hippocampus may be involved in the execution of movement, and it is the first time that changes in beta-band power have been demonstrated in the hippocampus using human electrophysiology. Our findings suggest that beta-band modulation in the human hippocampus may play a role in the execution of voluntary movement.
原文英語
文章編號036022
期刊Journal of Neural Engineering
17
發行號3
DOIs
出版狀態已發佈 - 6月 2020
對外發佈

ASJC Scopus subject areas

  • 生物醫學工程
  • 細胞與分子神經科學

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