Effect of Proactive Mode of Processing on Event-related Oscillatory Brain Responses in Children

Q4 Agricultural and Biological Sciences

International Journal Bioautomation Pub Date : 2018-09-01 DOI:10.7546/ijba.2018.22.3.253-262

Plamenka Nanova, V. Kolev, J. Yordanova

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引用次数: 1

Abstract

Proactive cognition is characterized by the formation and active maintenance of an internal task representation. The aim of this study was to explore if the internal task representation might affect the processing of incoming stimuli. For that aim, the effects of proactive and reactive modes of processing on sensory and cognitive information processing were compared by using event-related oscillatory responses in a developmental model. Thirty six children aged 7-10 years were studied in a sensorimotor task with fixed stimulus sequences. Children were divided into two groups according to their proactive or reactive mode. Auditory event-related potentials were recorded and decomposed in the time-frequency domain to analyze amplitude and phase synchronization of oscillatory responses. Major results demonstrated that proactive mode of processing was characterized by enhanced pre-stimulus theta activity accompanied by a significant decrease of the temporal synchronization of event-related theta/alpha oscillations in the first 300 ms after stimulus. These results provide evidence that maintaining internal task representations in working memory engages oscillatory circuits, which can modulate the processing of incoming sensory information.

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主动处理模式对儿童事件相关振荡脑反应的影响

主动认知的特点是形成并积极维护内部任务表征。本研究的目的是探讨内部任务表征是否会影响传入刺激的处理。为此，通过在发育模型中使用事件相关振荡反应，比较了主动和反应处理模式对感觉和认知信息处理的影响。36名7-10岁的儿童在具有固定刺激序列的感觉运动任务中进行了研究。根据儿童的主动或被动模式，将他们分为两组。在时频域中记录和分解听觉事件相关电位，以分析振荡响应的振幅和相位同步。主要结果表明，主动处理模式的特征是在刺激后的前300ms内，刺激前θ活动增强，同时事件相关θ/α振荡的时间同步显著降低。这些结果提供了证据，证明在工作记忆中保持内部任务表征涉及振荡电路，振荡电路可以调节传入感官信息的处理。

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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