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儿童重度阅读困难的动态任务特异性脑网络连接。

Dynamic task-specific brain network connectivity in children with severe reading difficulties.

机构信息

Technological Education Institute of Crete, Estavromenos, Heraklion 71004, Crete, Greece.

出版信息

Neurosci Lett. 2011 Jan 20;488(2):123-8. doi: 10.1016/j.neulet.2010.11.013. Epub 2010 Nov 10.

DOI:10.1016/j.neulet.2010.11.013
PMID:21073917
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3014432/
Abstract

We investigated patterns of sensor-level functional connectivity derived from single-trial whole-head magnetoencephalography data during a pseudoword reading and a letter-sound naming task in children with reading difficulties (RD) and children with no reading impairments (NI). The Phase Lag Index (PLI), a linear and nonlinear estimator, computed for each pair of sensors, was used to construct graphs and obtain estimates of local and global network efficiency according to graph theory. In the 8-13 Hz (alpha band) and 20-30 Hz (gamma band) range, RD students showed significantly lower global efficiency than NI children, for the entire MEG recording epoch. RD students also displayed reduced local network efficiency in the alpha band. Correlations between phonological decoding ability and graph metrics were particularly evident during the task that posed significant demands for phonological decoding, and followed distinct time courses depending on signal frequency. Results are consistent with the notion of task-dependent, aberrant long- and short-range functional connectivity in RD children.

摘要

我们研究了在阅读困难(RD)儿童和无阅读障碍(NI)儿童进行伪词阅读和字母发音命名任务期间,从单次全头脑磁图数据中得出的传感器水平功能连接模式。相位滞后指数(PLI)是一种线性和非线性估计量,针对每个传感器对进行计算,用于构建图并根据图论获得局部和全局网络效率的估计值。在 8-13 Hz(alpha 波段)和 20-30 Hz(gamma 波段)范围内,RD 学生在整个 MEG 记录期间的全局效率明显低于 NI 儿童。RD 学生在 alpha 波段也显示出局部网络效率降低。在对语音解码有重大要求的任务期间,语音解码能力与图度量之间的相关性特别明显,并且根据信号频率呈现出不同的时间过程。结果与 RD 儿童中任务相关的、异常的长程和短程功能连接的概念一致。

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