Department of Neurological Surgery, Keck School of Medicine of USC, University of Southern California, Los Angeles, CA, United States of America.
Department of Neurology, Keck School of Medicine of USC, University of Southern California, Los Angeles, CA, United States of America.
J Neural Eng. 2020 Nov 11;17(6). doi: 10.1088/1741-2552/abc1b8.
. Identify the role of beta-band (13-30 Hz) power modulation in the human hippocampus during conflict processing.. We investigated changes in the spectral power of the beta band (13-30 Hz) as measured by depth electrode leads in the hippocampus during a modified Stroop task in six patients with medically refractory epilepsy. Previous work done with direct electrophysiological recordings in humans has shown hippocampal theta-band (3-8 Hz) modulation during conflict processing. Local field potentials sampled at 2 k Hz were used for analysis and a non-parametric cluster-permutation-test was used to identify the time period and frequency ranges of significant power change during cue processing (i.e. post-stimulus, pre-response).. In five of the six patients, we observe a statistically significant increase in hippocampal beta-band power during successful conflict processing in the incongruent trial condition (cluster-based correction for multiple comparisons,< 0.05). There was no significant beta-band power change observed during the cue-processing period of the congruent condition in the hippocampus of these patients.. The beta-power changes during conflict processing represented here are consistent with previous studies suggesting that the hippocampus plays a role in conflict processing, but it is the first time that the beta band has been shown to be involved in humans with direct electrophysiological evidence. We propose that beta-band modulation plays a role in successful conflict detection and automatic response inhibition in the human hippocampus as studied during a conflict response task.
. 确定人类海马体在冲突处理过程中β波段(13-30Hz)功率调制的作用。. 我们在 6 名患有药物难治性癫痫的患者中,通过修改后的 Stroop 任务,使用深度电极在海马体中测量了β波段(13-30Hz)的频谱功率变化,研究了β波段(13-30Hz)功率的变化。以前的人类直接电生理记录工作表明,在冲突处理过程中海马theta 波段(3-8Hz)的调制。以 2kHz 的采样率采集的局部场电位用于分析,并使用非参数聚类置换检验来识别线索处理期间(即刺激后、反应前)显著功率变化的时间范围和频率范围。在这 6 名患者中的 5 名中,我们观察到在不一致试验条件下成功的冲突处理过程中海马体β波段功率的统计学显著增加(基于聚类的多重比较校正,<0.05)。在这些患者的海马体中,在线索处理期间,没有观察到一致条件下的β波段功率变化。这里所观察到的冲突处理过程中的β 功率变化与之前的研究一致,表明海马体在冲突处理中起作用,但这是第一次在具有直接电生理证据的人类中显示β 波段参与其中。我们提出,β 波段调制在人类海马体中成功的冲突检测和自动反应抑制中起作用,正如在冲突反应任务中所研究的那样。
