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本文引用的文献

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The phase of ongoing oscillations mediates the causal relation between brain excitation and visual perception.持续振荡的相位介导了大脑兴奋与视觉感知之间的因果关系。
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Coordination of high gamma activity in anterior cingulate and lateral prefrontal cortical areas during adaptation.在适应过程中,前扣带皮层和外侧前额叶皮质区域的高伽马活动的协调。
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Pulsed out of awareness: EEG alpha oscillations represent a pulsed-inhibition of ongoing cortical processing.脉冲式脱离意识:脑电 α 振荡代表对持续皮质处理的脉冲式抑制。
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Prefrontal cortex deactivation in macaques alters activity in the superior colliculus and impairs voluntary control of saccades.前额叶皮层在猕猴中的失活改变了上丘的活动,损害了扫视的自主控制。
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This is the rhythm of your eyes: the phase of ongoing electroencephalogram oscillations modulates saccadic reaction time.这是你的眼睛的节奏:持续的脑电图振荡的相位调节了眼球跳动的反应时间。
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Oscillatory synchronization in large-scale cortical networks predicts perception.大范围皮质网络中的振荡同步预测感知。
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A new look at gamma? High- (>60 Hz) γ-band activity in cortical networks: function, mechanisms and impairment.重新审视γ?皮质网络中的高(>60 Hz)γ波段活动:功能、机制和损伤。
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Occipital-parietal network prepares reflexive saccades.枕顶叶网络负责准备反射性扫视。
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Spontaneous EEG oscillations reveal periodic sampling of visual attention.自发脑电振荡揭示了视觉注意的周期性采样。
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前测额枕部α 相和分布式皮质振荡预测认知控制失败。

Pre-cue fronto-occipital alpha phase and distributed cortical oscillations predict failures of cognitive control.

机构信息

Departments of Psychology and Neuroscience, Bio-Imaging Research Center, University of Georgia, Athens, Georgia 30602, USA.

出版信息

J Neurosci. 2012 May 16;32(20):7034-41. doi: 10.1523/JNEUROSCI.5198-11.2012.

DOI:10.1523/JNEUROSCI.5198-11.2012
PMID:22593071
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3404822/
Abstract

Cognitive control is required for correct performance on antisaccade tasks, including the ability to inhibit an externally driven ocular motor response (a saccade to a peripheral stimulus) in favor of an internally driven ocular motor goal (a saccade directed away from a peripheral stimulus). Healthy humans occasionally produce errors during antisaccade tasks, but the mechanisms associated with such failures of cognitive control are uncertain. Most research on cognitive control failures focuses on poststimulus processing, although a growing body of literature highlights a role of intrinsic brain activity in perceptual and cognitive performance. The current investigation used dense array electroencephalography and distributed source analyses to examine brain oscillations across a wide frequency bandwidth in the period before antisaccade cue onset. Results highlight four important aspects of ongoing and preparatory brain activations that differentiate error from correct antisaccade trials: (1) ongoing oscillatory beta (20-30 Hz) power in anterior cingulate before trial initiation (lower for error trials); (2) instantaneous phase of ongoing alpha/theta (7 Hz) in frontal and occipital cortices immediately before trial initiation (opposite between trial types); (3) gamma power (35-60 Hz) in posterior parietal cortex 100 ms before cue onset (greater for error trials); and (4) phase locking of alpha (5-12 Hz) in parietal and occipital cortices immediately before cue onset (lower for error trials). These findings extend recently reported effects of pre-trial alpha phase on perception to cognitive control processes and help identify the cortical generators of such phase effects.

摘要

认知控制是正确执行反扫视任务所必需的,包括抑制由外部驱动的眼球运动反应(对周围刺激的扫视)以有利于内部驱动的眼球运动目标(远离周围刺激的扫视)的能力。健康的人类在反扫视任务中偶尔会出错,但与这种认知控制失败相关的机制尚不确定。大多数关于认知控制失败的研究都集中在刺激后处理上,尽管越来越多的文献强调内在大脑活动在感知和认知表现中的作用。目前的研究使用高密度阵列脑电图和分布式源分析,在反扫视线索出现之前的整个频率带宽内检查大脑振荡。结果突出了在进行中和准备阶段大脑激活的四个重要方面,这些方面可以区分错误和正确的反扫视试验:(1)在试验开始前前扣带皮层中的持续振荡β(20-30 Hz)功率(错误试验较低);(2)在试验开始前瞬间的持续α/θ(7 Hz)的相位(在试验类型之间相反);(3)在提示出现前 100 毫秒后顶叶皮层中的γ功率(35-60 Hz)(错误试验较高);(4)在提示出现前立即在顶叶和枕叶皮层中锁定α的相位(错误试验较低)。这些发现将最近报道的预试α相位对感知的影响扩展到认知控制过程,并有助于确定这种相位效应的皮质发生器。