Altered brain structural covariance networks of the thalamic subfields in right chronic capsular stroke.

IF 3.2 3区医学 Q2 NEUROSCIENCES

Frontiers in Neuroscience Pub Date : 2025-09-26 eCollection Date: 2025-01-01 DOI:10.3389/fnins.2025.1650937

Jun Guo, Hongchuan Zhang, Jingchun Liu, Caihong Wang, Chen Cao, Jingliang Cheng, Chunshui Yu, Wen Qin

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引用次数: 0

Abstract

Background: The thalamus, along with its component nuclei, possesses extensive connections with various brain regions and is engaged in diverse functions. However, it is unknown whether the gray matter volume (GMV) covariance networks of thalamic subfields are selectively affected in chronic capsular stroke.

Methods: We recruited 45 patients with chronic right capsular strokes (CS) and 93 normal controls (NC) from three centers. The thalamus was segmented into 25 subfields using FreeSurfer (v7.1.1). A general linear model was applied to investigate intergroup differences in the GMV covariance network of each thalamic subfield with each voxel of the entire brain between CS and NC, correcting for confounders such as age, gender, total intracranial volume (TIV), and scanners (voxel-wise p < 0.001, cluster-wise FWE corrected p < 0.05).

Results: Our findings revealed that all 25 ipsilesional thalamic subfields in CS were atrophied (p < 0.05, FDR correction). Among these, 16 ipsilesional thalamic subfields (including AV, LD, LP, VLa, VLp, VPL, VM, CeM, CL, MDm, LGN, PuM, PuI, CM, Pf, and Pt) exhibited significantly subfield-specific increased GMV covariance connectivity with the anterior orbital gyrus, superior occipital gyrus, calcarine, anterior cingulate cortex, precentral gyrus, and other regions. Additionally, although none of the contralesional thalamic subfields demonstrated regional GMV changes, 3/25 showed subfield-specific increased GMV covariance connectivity with the ipsilesional anterior orbital gyrus and subcortex.

Conclusion: The GMV covariance networks of thalamic subfields are selectively involved in patients with chronic capsular stroke, which affect not only the ipsilesional thalamic subfields but also the contralesional ones.

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右脑慢性囊性卒中丘脑亚区结构协方差网络的改变。

背景：丘脑及其组成核与大脑各区域有着广泛的联系，并参与多种功能。然而，慢性囊性脑卒中是否选择性地影响丘脑子野的灰质体积（GMV）协方差网络尚不清楚。方法：我们从三个中心招募慢性右囊性脑卒中患者45例和正常人93例。使用FreeSurfer （v7.1.1）将丘脑分割成25个子场。采用一般线性模型来研究CS和NC之间每个丘脑子场与整个大脑每个体素的GMV协方差网络的组间差异，校正了混杂因素，如年龄、性别、总颅内容积（TIV）和扫描仪（体素方向p p ）结果：我们的发现显示CS中所有25个同位丘脑子场都萎缩（p ）。慢性囊性脑卒中患者丘脑亚野的GMV协方差网络选择性参与，不仅影响同侧丘脑亚野，也影响对侧丘脑亚野。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Neuroscience NEUROSCIENCES-

CiteScore

6.20

自引率

4.70%

发文量

2070

审稿时长

14 weeks

期刊介绍： Neural Technology is devoted to the convergence between neurobiology and quantum-, nano- and micro-sciences. In our vision, this interdisciplinary approach should go beyond the technological development of sophisticated methods and should contribute in generating a genuine change in our discipline.