Mapping PTSD-Related Brain Dysregulation With Connectome Gradient Analysis.

IF 3.3 2区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Journal of Magnetic Resonance Imaging Pub Date : 2025-05-24 DOI:10.1002/jmri.29829

Meirong He, Hongru Zhu, Xiaoyan Wang, Lijun Zhou, Junran Zhang

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引用次数: 0

Abstract

Background: Hierarchical architecture is a fundamental organizational principle of the human brain. Previous studies have suggested that posttraumatic stress disorder (PTSD) may be characterized as disorders in the cerebral hierarchical organization. However, the specific abnormalities and underlying mechanisms are unclear.

Purpose: To investigate whether there are disorders of cerebral hierarchical organization in patients with PTSD and their underlying mechanisms of alteration.

Study type: Prospective, case control.

Filed strength/sequence: 3.0T, gradient echo echo-planar imaging sequence.

Subjects: Forty-nine patients with PTSD (11 males and 38 females; Clinician-Administered PTSD Scale (CAPS) score > 40) and 38 trauma-exposed controls (TEC) (13 males and 25 females; CAPS score < 40).

Assessment: Connectome gradient analysis was used to systematically examine disorders of cerebral hierarchical organization. Gradient metrics included range and variance of gradient scores. Graph theory analysis was also employed to explore underlying mechanisms of gradient abnormalities, and system segregation (quantifying the degree of separation between functional networks) and participation coefficients (PC) (quantifying the degree of connectivity that a given node has to other networks) were calculated.

Statistical tests: Two-sample t-tests were used to compare differences in gradient and graph theory metrics between groups. The association between gradient scores and CAPS scores was assessed using partial correlation analysis. p < 0.05 was set as the statistical significance threshold, with false discovery rate (FDR) correction.

Results: Compared with TEC, patients with PTSD showed significantly increased global gradient variance and altered gradient indicators in networks. At global and network levels, patients with PTSD exhibited significantly increased system segregation and significantly reduced PC, which were significantly associated with gradient variance (global system segregation: r = 0.84, global PC: r = 0.93, system segregation in SMN: r = 0.59, PC in DAN: r = -0.62 and PC in FPN: r = -0.53). Moreover, gradient scores in DAN (r = 0.319) and some regions of DMN (ANG.L: r = 0.294), SMN (PreCG.L: r = 0.319), and LIM (HIP.R: r = 0.319) were significantly correlated with CAPS score.

Data conclusion: This study, integrating connectome gradient analysis with graph theory, showed hierarchical disruptions across multilevel brain networks in PTSD, potentially explaining clinical symptoms such as hypervigilance and dissociation.

Evidence level: 2.

Technical efficacy: Stage 1.

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用连接组梯度分析映射ptsd相关的脑失调。

背景：层次结构是人类大脑的基本组织原则。以往的研究表明，创伤后应激障碍（PTSD）可能以大脑等级组织紊乱为特征。然而，具体的异常和潜在的机制尚不清楚。目的：探讨创伤后应激障碍患者是否存在大脑等级组织障碍及其改变的潜在机制。研究类型：前瞻性，病例对照。场强/序列：3.0T，梯度回波回波平面成像序列。研究对象：49例PTSD患者(男11例，女38例；临床创伤后应激障碍量表（CAPS）得分为bbb40)和38名创伤暴露对照组（TEC）(13名男性和25名女性；CAPS评分评估：采用连接组梯度分析系统检查大脑分层组织障碍。梯度指标包括梯度评分的极差和方差。图论分析还用于探索梯度异常的潜在机制，并计算系统隔离（量化功能网络之间的分离程度）和参与系数（PC）（量化给定节点与其他网络的连通性程度）。统计检验：采用双样本t检验比较组间梯度和图论指标的差异。采用偏相关分析评估梯度评分与CAPS评分之间的相关性。p结果：与TEC相比，PTSD患者整体梯度方差显著增加，网络梯度指标显著改变。在整体和网络水平上，PTSD患者系统隔离显著增加，PC显著降低，且与梯度方差显著相关（整体系统隔离：r = 0.84，整体PC: r = 0.93， SMN系统隔离：r = 0.59， DAN系统隔离：r = -0.62， FPN系统隔离：r = -0.53）。此外，DAN （r = 0.319）和DMN部分区域（ANG）的梯度得分。L: r = 0.294), SMN (PreCG。L: r = 0.319)；R: R = 0.319)与CAPS评分显著相关。数据结论：本研究将连接组梯度分析与图论相结合，显示了创伤后应激障碍患者多层次大脑网络的分层中断，可能解释了诸如高警惕性和分离等临床症状。证据等级：2。技术功效：第一阶段。

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

Journal of Magnetic Resonance Imaging 医学-核医学

CiteScore

9.70

自引率

6.80%

发文量

494

审稿时长

2 months

期刊介绍： The Journal of Magnetic Resonance Imaging (JMRI) is an international journal devoted to the timely publication of basic and clinical research, educational and review articles, and other information related to the diagnostic applications of magnetic resonance.