中国科学院自动化研究所机构知识库

Objective: Hemianopia after occipital stroke is believed to be mainly due to local damage at or near the lesion site. However,magnetic resonance imaging studies suggest functional connectivity network (FCN) reorganization also in distant brain regions. Because it is unclear whether reorganization is adaptive or maladaptive,compensating for,or aggravating vision loss,we characterized FCNs electrophysiologically to explore local and global brain plasticity and correlated FCN reorganization with visual performance.

Methods: Resting-state electroencephalography (EEG) was recorded in chronic,unilateral stroke patients and healthy age-matched controls (n = 24 each). This study was approved by the local ethics committee. The correlation of oscillating EEG activity was calculated with the imaginary part of coherence between pairs of regions of interest,and FCN graph theory metrics (degree,strength,clustering coefficient) were correlated with stimulus detection and reaction time.

Results: Stroke brains showed altered FCNs in the alpha- and low beta-band in numerous occipital,temporal brain structures. On a global level,FCN had a less efficient network organization whereas on the local level node networks were reorganized especially in the intact hemisphere. Here,the occipital network was 58% more rigid (with a more “regular” network structure) whereas the temporal network was 32% more efficient (showing greater “small-worldness”),both of which correlated with worse or better visual processing,respectively.

Conclusions: Occipital stroke is associated with both local and global FCN reorganization,but this can be both adaptive and maladaptive. We propose that the more “regular” FCN structure in the intact visual cortex indicates maladaptive plasticity,where less processing efficacy with reduced signal/noise ratio may cause the perceptual deficits in the intact visual field (VF). In contrast,reorganization in intact temporal brain regions is presumably adaptive,possibly supporting enhanced peripheral movement perception.