Effects of brain network segregation and integration on motor imagery sensorimotor rhythm

Diverse cognitive processes place different demands on locally segregated and globally integrated brain activities. Motor imagery (MI) is a complex mental operation characterized by sensorimotor rhythms. However, how the brain network acts on MI rhythms is not well-known. The present work aimed to e...

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Bibliographic Details
Published in:Brain-apparatus communication 2023-12, Vol.2 (1)
Main Authors: Peng, Maoqin, Lai, Danwei, Li, Sipei, Liu, Zhihong, Gao, Dongrui, Qin, Yun, Liu, Tiejun
Format: Article
Language:English
Subjects:
integration
motor imagery
segregation
sensorimotor rhythm
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Summary:Diverse cognitive processes place different demands on locally segregated and globally integrated brain activities. Motor imagery (MI) is a complex mental operation characterized by sensorimotor rhythms. However, how the brain network acts on MI rhythms is not well-known. The present work aimed to explore the effects of brain integration and segregation on brain rhythmic oscillations. The power spectrum dynamics, topography distribution, and brain network metrics in the alpha and beta bands were calculated. And the correlations were investigated with the network metrics and sensorimotor rhythm. The results showed that the degree of event-related desynchronization/synchronization (ERD/ERS) was higher in alpha band than in beta band during [−1, 1 s] (p 
ISSN:2770-6710
2770-6710
DOI:10.1080/27706710.2022.2147404