Authors
Yuanyuan Li, Xinyue Shi, Yan Shen, Linlu Wu, Xirui Sun, Kang Wu, Kuangshi Li, Yi Ren, Tianjiao Xu, Muzhao Zhang, Tianzhu Chen, Mengfang Xu, Renzhao Ma, Yuqing Lin, Juwei Zhang, Zhongjian Tan, Dan Xu, Lixin Tang, Yuan Feng, Yong Zhang, Yihuai Zou
Published in
Stroke. Sep 30, 2025. Epub Sep 30, 2025.
Abstract
After a subcortical stroke, structural and functional alterations have often been observed in brain regions far from the lesion, a phenomenon suspected but not yet confirmed as diaschisis. This study investigated the existence and patterns of diaschisis following subcortical stroke.
This observational, single-center, cross-sectional study was conducted in China from August 2014 to September 2023. We recruited patients with subcortical stroke with hemiplegia and unilateral lesions in the basal ganglia and corona radiata. Healthy controls were recruited from the community using an age- and sex-matching strategy with the patients. Patients were categorized by the National Institutes of Health Stroke Scale scores: mild (<5) and moderate (5-15) deficits. Using magnetic resonance imaging techniques, we analyzed gray matter volume alterations with voxel-based morphometry and causal structural networks with the causal structural covariance network method.
Of the 566 patients initially screened, 102 were enrolled. Due to recruitment constraints, only 46 healthy controls were recruited, limiting successful matching. The final analysis included 90 patients and 44 controls. The patient group (62 males and 28 females) had a mean age of 60.64±9.93 years, while the healthy group (23 males and 21 females) had a mean age of 59.43±5.01 years. We found significant gray matter volume loss in the medial superior frontal gyrus and identified both positive and negative directional connectivity patterns between this region and other areas in the prefrontal cortex (inferior frontal gyrus), temporal regions (superior and middle temporal gyri), limbic structures (insula, cingulate gyrus, and parahippocampus), and precentral. Notably, the causal network in patients with mild deficits was more complex.
These findings support the existence of structural diaschisis following subcortical stroke, centered in the prefrontal cortex. This study underscores the importance of brain-wide imaging markers and may contribute to developing brain stimulation targets.
PMID:
41025229
Bibliographic data and abstract were imported from PubMed on 30 Sep 2025.
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