儿童注意力和创造力表现时脑电图记录的功率谱和连通性分析

IF 1.6 Q3 CLINICAL NEUROLOGY
NeuroSci Pub Date : 2022-06-02 DOI:10.3390/neurosci3020025
D. Mateos, Gabriela Krumm, Vanessa Arán Filippetti, Marisela Gutiérrez
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引用次数: 3

摘要

本研究的目的是通过对正常发育儿童的d2注意力测试和CREA测试来测量注意力和创造力,研究在集中表现期间的功率谱和探索功能性大脑连接/断开性。为此,我们对15名9- 12岁儿童的脑电图信号进行了相位同步(即相位锁定指数(PLI))检测。此外,作为补充,对采集到的信号进行了功率谱分析。我们的结果表明,在d2测试期间,整体gamma相位同步增加,并且存在整体alpha和theta波段不同步。相反,在CREA任务中,功率谱分析显示δ、β、θ和γ波段显著增加。连通性分析显示,θ、α和γ有明显的同步。这些发现与其他神经科学研究一致,表明多种大脑机制确实与创造力有关。此外,这些结果对临床和研究环境中注意力功能和创造力的评估以及典型和非典型发育儿童的神经反馈干预具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Power Spectrum and Connectivity Analysis in EEG Recording during Attention and Creativity Performance in Children
The present research aims at examining the power spectrum and exploring functional brain connectivity/disconnectivity during concentration performance, as measured by the d2 test of attention and creativity as measured by the CREA test in typically developing children. To this end, we examined brain connectivity by using phase synchrony (i.e., phase locking index (PLI) over the EEG signals acquired by the Emotiv EPOC neuroheadset in 15 children aged 9- to 12-years. Besides, as a complement, a power spectrum analysis of the acquired signals was performed. Our results indicated that, during d2 Test performance there was an increase in global gamma phase synchronization and there was a global alpha and theta band desynchronization. Conversely, during CREA task, power spectrum analysis showed a significant increase in the delta, beta, theta, and gamma bands. Connectivity analysis revealed marked synchronization in theta, alpha, and gamma. These findings are consistent with other neuroscience research indicating that multiple brain mechanisms are indeed involved in creativity. In addition, these results have important implications for the assessment of attention functions and creativity in clinical and research settings, as well as for neurofeedback interventions in children with typical and atypical development.
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