通过脑磁图揭示的工作记忆需求预期期间前额叶皮层的调制。

Prefrontal Cortex Modulation during Anticipation of Working Memory Demands as Revealed by Magnetoencephalography.

作者信息

Altamura Mario, Goldberg Terry E, Elvevåg Brita, Holroyd Tom, Carver Frederick W, Weinberger Daniel R, Coppola Richard

机构信息

Clinical Brain Disorder Branch, NIMH, Bldg. 10, Rm. 4S235, Bethesda, MD 20892, USA.

出版信息

Int J Biomed Imaging. 2010;2010. doi: 10.1155/2010/840416. Epub 2010 Jun 28.

DOI:10.1155/2010/840416

PMID:20689717

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2906181/

Abstract

During the anticipation of task demands frontal control is involved in the assembly of stimulus-response mappings based on current goals. It is not clear whether prefrontal modulations occur in higher-order cortical regions, likely reflecting cognitive anticipation processes. The goal of this paper was to investigate prefrontal modulation during anticipation of upcoming working memory demands as revealed by magnetoencephalography (MEG). Twenty healthy volunteers underwent MEG while they performed a variation of the Sternberg Working Memory (WM) task. Beta band (14-30 Hz) SAM (Synthetic Aperture Magnetometry) analysis was performed. During the preparatory periods there was an increase in beta power (event-related synchronization) in dorsolateral prefrontal cortex (DLPFC) bilaterally, left inferior prefrontal gyrus, left parietal, and temporal areas. Our results provide support for the hypothesis that, during preparatory states, the prefrontal cortex is important for biasing higher order brain regions that are going to be engaged in the upcoming task.

摘要

在预期任务需求期间，前额叶控制参与基于当前目标的刺激-反应映射的组装。尚不清楚前额叶调制是否发生在高阶皮质区域，这可能反映了认知预期过程。本文的目的是通过脑磁图（MEG）研究在预期即将到来的工作记忆需求期间的前额叶调制。20名健康志愿者在执行斯特恩伯格工作记忆（WM）任务的变体时接受了MEG检查。进行了β波段（14-30Hz）合成孔径脑磁图（SAM）分析。在准备期，双侧背外侧前额叶皮质（DLPFC）、左侧前额下回、左侧顶叶和颞叶区域的β功率（事件相关同步）增加。我们的结果支持以下假设：在准备状态期间，前额叶皮质对于偏向即将参与即将到来任务的高阶脑区很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/013c/2906181/d13b24e91856/IJBI2010-840416.001.jpg

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通过脑磁图揭示的工作记忆需求预期期间前额叶皮层的调制。

Prefrontal Cortex Modulation during Anticipation of Working Memory Demands as Revealed by Magnetoencephalography.

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