首页|期刊导航|陆军军医大学学报|自发性脑出血亚急性期患者静息态功能脑网络小世界属性减弱与代偿性重构:基于图论的拓扑特征分析及与认知损害的关系

自发性脑出血亚急性期患者静息态功能脑网络小世界属性减弱与代偿性重构:基于图论的拓扑特征分析及与认知损害的关系OA

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目的 脑出血后认知功能损害较为常见,但传统影像学指标难以从全脑功能网络层面解释其神经机制.探讨自发性脑出血(intracerebral hemorrhage,ICH)亚急性期患者静息态功能脑网络小世界拓扑属性的异常改变,分析全局与节点层面的拓扑重构特征,并进一步明确差异拓扑指标与认知功能损害之间的关系及病灶体积的影响.方法 采用观察性横断面研究设计,纳入2024年12月至2026年1月于惠州市中心人民医院神经外科就诊的亚急性期自发性ICH患者28例(ICH组)及于同一时间段本院体检中心或普通门诊就诊的年龄、性别、受教育程度匹配的健康对照(healthy controls,HC)35例.所有受试者完成简易精神状态检查(Mini-Mental State Examination,MMSE)评估及3.0 T静息态功能磁共振成像(resting-state functional magnetic resonance imaging,rs-fMRI)扫描.对ICH患者的T1结构像采用ITK-SNAP软件进行病灶半自动勾画,基于Clinical Toolbox for SPM实施镜像标准化处理,以减少局灶病变对空间标准化的干扰.rs-fMRI数据经DPABI软件包完成预处理,包括头动校正、组织分割、标准化、去线性趋势、多参数回归、带通滤波等步骤;提取自动解剖标记(automated anatomical labeling,AAL)模板116个脑区的平均BOLD时间序列时,对病灶及血肿掩模范围内体素予以剔除.以Pearson相关系数构建功能连接矩阵并行Fisher r-to-z转换,采用GRETNA工具包在0.05~0.40稀疏度内构建无向二值功能脑网络,计算聚类系数(Cp)、特征路径长度(Lp)、归一化聚类系数(Gamma)、归一化特征路径长度(Lambda)、小世界属性(Sigma)、全局效率(Eglob)、局部效率(Eloc)等全局拓扑指标,及节点效率(Ne)、节点局部效率(NLe)等节点指标的AUC.结果 2组脑网络均保留小世界拓扑特征(Lambda≈1,Sigma>1),但ICH组Sigma、Gamma、Eloc、Eglob、Lambda均显著降低(FDR校正P<0.05),Lp升高(FDR校正P=0.001),Cp差异无统计学意义(FDR校正P=0.086).节点层面,经Bonferroni校正后,ICH组左侧苍白球、双侧杏仁核、右侧后扣带回、左侧壳核及左侧小脑CrusⅠ、小脑蚓部的节点效率降低(P<0.05),左侧内侧额上回及左侧辅助运动区节点效率升高(P<0.05);节点局部效率方面,左侧苍白球、左侧杏仁核、右侧后扣带回降低(P<0.05).相关分析显示,左侧内侧额上回节点效率与地理位置判断评分呈负相关(r=-0.452,P=0.023),左侧杏仁核节点效率与重复绕口令评分呈负相关(r=-0.433,P=0.031),右侧后扣带回节点局部效率与重复绕口令评分呈负相关(r=-0.422,P=0.036);全局拓扑指标与认知评分之间未见统计学相关性.病灶体积仅与地理位置判断评分呈负相关(r=-0.572,P=0.016),与功能网络拓扑指标无显著相关性.结论 亚急性期ICH患者存在以小世界属性减弱、整合效率下降及局部信息处理能力受损为特征的全脑功能网络重构,提示其认知损害具有广泛的脑网络学基础.

Objective Cognitive impairment is common after intracerebral hemorrhage(ICH),yet conventional imaging metrics fail to explain its neural mechanisms from the perspective of whole-brain functional networks.This study aims to investigate abnormal changes in small-world topological properties of resting-state functional brain networks in patients with spontaneous ICH during the subacute phase,to characterize the topological reorganization at both global and nodal levels,and to further elucidate the relationship between differential topological metrics and cognitive impairment as well as the influence of lesion volume.Methods An observational cross-sectional study was conducted.A total of 28 patients with subacute spontaneous ICH(ICH group)who were treated at Department of Neurosurgery of Huizhou Central People's Hospital between December 2024 and January 2026,and 35 healthy controls(HC)matched for age,sex,and years of education who were treated at Health Check-up Center or General Clinic of Huizhou Central People's Hospital during the same period were enrolled.All participants underwent Mini-Mental State Examination(MMSE)assessment and 3.0 T resting-state functional MRI(rs-fMRI)scanning.For ICH patients,T1 structural images were subjected to semi-automatic lesion delineation using ITK-SNAP software,and mirror normalization was performed based on the Clinical Toolbox for SPM to reduce interference from focal lesions on spatial normalization.rs-fMRI data were preprocessed using the DPABI software package,including head motion correction,tissue segmentation,spatial normalization,linear detrending,nuisance regression,and bandpass filtering.When extracting the mean BOLD time series from 116 brain regions of interest defined by the automated anatomical labeling(AAL)atlas,voxels falling within the lesion and hematoma masks were excluded.Functional connectivity matrices were constructed using Pearson correlation coefficients followed by Fisher r-to-z transformation.The GRETNA toolbox was used to construct binary undirected functional brain networks within a sparsity threshold range of 0.05 to 0.40,and the area under the curve(AUC)was calculated for global topological metrics including clustering coefficient(Cp),characteristic path length(Lp),normalized clustering coefficient(Gamma),normalized characteristic path length(Lambda),small-world property(Sigma),global efficiency(Eglob),and local efficiency(Eloc),as well as nodal metrics including nodal efficiency(Ne)and nodal local efficiency(NLe).Results Both groups exhibited small-world topological characteristics(Lambda≈1,Sigma>1);however,the ICH group demonstrated significant decreases in Sigma,Gamma,Eloc,Eglob,and Lambda(all FDR-corrected P<0.05),an increase in Lp(FDR-corrected P=0.001),and no statistical difference in Cp(FDR-corrected P=0.086).At the nodal level,following Bonferroni correction,the ICH group exhibited decreased nodal efficiency in the left globus pallidus,bilateral amygdala,right posterior cingulate gyrus,left putamen,left cerebellar Crus Ⅰ,and cerebellar vermis(P<0.05),and increased nodal efficiency in the left medial superior frontal gyrus and left supplementary motor area(P<0.05).Regarding nodal local efficiency,the left globus pallidus,left amygdala,and right posterior cingulate gyrus were decreased(P<0.05).Correlation analysis revealed that nodal efficiency of the left medial superior frontal gyrus was negatively correlated with spatial orientation scores(r=-0.452,P=0.023),nodal efficiency of the left amygdala was negatively correlated with tongue twister repetition scores(r=-0.433,P=0.031),and nodal local efficiency of the right posterior cingulate gyrus was negatively correlated with tongue twister repetition scores(r=-0.422,P=0.036).No significant correlations were observed between global topological metrics and cognitive scores.Lesion volume was negatively correlated only with spatial orientation scores(r=-0.572,P=0.016),and showed no significant correlation with any of the functional network topological metrics.Conclusion Patients with subacute ICH exhibit whole-brain functional network reorganization characterized by diminished small-world properties,decreased integration efficiency,and impaired local information processing,suggesting that cognitive impairment after ICH has a broad network basis.

罗然;尹怡;王龙;李文才;胡荣

陆军军医大学(第三军医大学)第一附属医院神经外科,重庆陆军军医大学(第三军医大学)第一附属医院神经外科,重庆陆军军医大学(第三军医大学)第一附属医院神经外科,重庆惠州市中心人民医院神经外科,广东惠州陆军军医大学(第三军医大学)第一附属医院神经外科,重庆

医药卫生

自发性脑出血静息态功能磁共振认知障碍图论分析小世界网络

spontaneous intracerebral hemorrhageresting-state functional magnetic resonance imagingcognitive impairmentgraph-theoretic analysissmall-world network

《陆军军医大学学报》 2026 (9)

1241-1249,9

国家自然科学基金联合基金重点支持项目(U24A20688) Supported by the Key Supporting Program of Joint Funds of National Natural Science Foundation of China(U24A20688).

10.16016/j.2097-0927.202602102

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