支持手写的认知-运动网络的任务调节皮质-皮质同步

Timo Saarinen, J. Kujala, H. Laaksonen, A. Jalava, R. Salmelin
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引用次数: 8

摘要

行为的运动和认知方面都依赖于大规模大脑网络中动态的、精确定时的神经过程。在这里,我们研究了在人类认知-运动序列产生过程中皮质区域之间的同步相互作用。具体来说,笔迹的变体在运动变异性、语言内容和运动线索的记忆方面存在差异,以揭示皮质-皮质连接的功能敏感性。数据驱动的脑磁图(n = 10)揭示了大部分左半球皮质-皮质相互作用的调节,通过相同步的相对变化来量化。在低频率下(~ 2-13 Hz),额顶叶同步增强与常规书写有关,而运动前皮质区同步用于简单的循环生成,而颞枕区同步用于用循环模式代替正常书写任务。在β - γ波段(~ 13-45 Hz),在中央和额顶叶区域,包括感觉运动皮层和补充运动皮层之间以及顶叶和背侧运动前/中央前皮层之间的连接,观察到规则书写的同步性增强。在模块化框架内解释,这些同步的调节主要突出了手协调的中央周围子系统和调节工作记忆操作的额顶叶子系统之间的相互作用。作为皮层动力学的一部分,区域间相同步在认知-运动序列的产生过程中根据任务需求而变化。
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Task-Modulated Corticocortical Synchrony in the Cognitive-Motor Network Supporting Handwriting
Abstract Both motor and cognitive aspects of behavior depend on dynamic, accurately timed neural processes in large-scale brain networks. Here, we studied synchronous interplay between cortical regions during production of cognitive-motor sequences in humans. Specifically, variants of handwriting that differed in motor variability, linguistic content, and memorization of movement cues were contrasted to unveil functional sensitivity of corticocortical connections. Data-driven magnetoencephalography mapping (n = 10) uncovered modulation of mostly left-hemispheric corticocortical interactions, as quantified by relative changes in phase synchronization. At low frequencies (~2–13 Hz), enhanced frontoparietal synchrony was related to regular handwriting, whereas premotor cortical regions synchronized for simple loop production and temporo-occipital areas for a writing task substituting normal script with loop patterns. At the beta-to-gamma band (~13–45 Hz), enhanced synchrony was observed for regular handwriting in the central and frontoparietal regions, including connections between the sensorimotor and supplementary motor cortices and between the parietal and dorsal premotor/precentral cortices. Interpreted within a modular framework, these modulations of synchrony mainly highlighted interactions of the putative pericentral subsystem of hand coordination and the frontoparietal subsystem mediating working memory operations. As part of cortical dynamics, interregional phase synchrony varies depending on task demands in production of cognitive-motor sequences.
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