功能-结构耦合的改变可预测帕金森病人的抑郁。

IF 2.7 3区 医学 Q1 ANATOMY & MORPHOLOGY
Brain Structure & Function Pub Date : 2024-05-01 Epub Date: 2024-03-13 DOI:10.1007/s00429-024-02780-w
Min Wang, Changlian Tan, Qin Shen, Sainan Cai, Qinru Liu, Haiyan Liao
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引用次数: 0

摘要

我们旨在阐明帕金森病抑郁的神经生物学基础,并确定帕金森病患者抑郁的潜在影像标记。我们招募了 43 名正常对照组(NC)、46 名帕金森病抑郁患者(DPD)和 56 名非帕金森病抑郁患者(NDPD)。所有参与者都在本医院的同一台 3.0 T 磁共振成像(MRI)扫描仪上接受了常规 T2 加权、T2Flair 和静息状态扫描。预处理包括计算基于表面的区域同质性(2DReHo)和皮质厚度。然后,我们将 2DReHo 与皮层厚度之间的相关系数定义为功能-结构耦合指数。根据费雪 Z 变形相关系数进行组间比较。为了确定特定的解耦区域,将每个参与者的 2DReHo 除以每个顶点的皮质厚度,然后进行无阈值聚类增强(TFCE)多重比较校正。以 DPD 为因变量,以显著改变的指标为自变量,进行二元逻辑回归分析。利用R和MedCalc软件构建了接收者操作特征曲线,以比较单个预测因子和组合的诊断性能。DPD患者的全脑功能-结构耦合指数明显低于NDPD患者和NC。DPD患者的功能-结构耦合异常主要出现在左侧下顶叶和右侧初级及早期视觉皮层。接收器操作特征分析显示,皮质功能-结构耦合、基于表面的 ReHo 和厚度的组合具有最佳的诊断性能,灵敏度为 65%,特异性为 77.7%。这是第一项探索帕金森病患者功能和结构变化之间关系的研究,也是第一项评估这些相关性改变对预测帕金森病患者抑郁的诊断性能的研究。我们认为,这些功能与结构关系的变化可作为帕金森病患者抑郁的影像生物标志物,可能有助于帕金森病的分类和诊断。此外,我们的研究结果还为探索帕金森病抑郁的神经生物学基础提供了功能和结构成像证据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Altered functional-structural coupling may predict Parkinson's patient's depression.

Altered functional-structural coupling may predict Parkinson's patient's depression.

We aimed to elucidate the neurobiological basis of depression in Parkinson's disease and identify potential imaging markers for depression in patients with Parkinson's disease. We recruited 43 normal controls (NC), 46 depressed Parkinson's disease patients (DPD) and 56 non-depressed Parkinson's disease (NDPD). All participants underwent routine T2-weighted, T2Flair, and resting-state scans on the same 3.0 T magnetic resonance imaging (MRI) scanner at our hospital. Pre-processing includes calculating surface-based Regional Homogeneity (2DReHo) and cortical thickness. Then we defined the correlation coefficient between 2DReHo and cortical thickness as the functional-structural coupling index. Between-group comparisons were conducted on the Fisher's Z-transformed correlation coefficients. To identify specific regions of decoupling, the 2DReHo for each participant were divided by cortical thickness at each vertex, followed by threshold-free cluster enhancement (TFCE) multiple comparison correction. Binary logistic regression analysis was performed with DPD as the dependent variable, and significantly altered indicators as the independent variables. Receiver operating characteristic curves were constructed to compare the diagnostic performance of individual predictors and combinations using R and MedCalc software. DPD patients exhibited a significantly lower whole-brain functional-structural coupling index than NDPD patients and NC. Abnormal functional-structural coupling was primarily observed in the left inferior parietal lobule and right primary and early visual cortices in DPD patients. Receiver operating characteristic analysis revealed that the combination of cortical functional-structural coupling, surface-based ReHo, and thickness had the best diagnostic performance, achieving a sensitivity of 65% and specificity of 77.7%. This is the first study to explore the relationship between functional and structural changes in DPD patients and evaluate the diagnostic performance of these altered correlations to predict depression in Parkinson's disease patients. We posit that these changes in functional-structural relationships may serve as imaging biomarkers for depression in Parkinson's disease patients, potentially aiding in the classification and diagnosis of Parkinson's disease. Additionally, our findings provide functional and structural imaging evidence for exploring the neurobiological basis of depression in Parkinson's disease.

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来源期刊
Brain Structure & Function
Brain Structure & Function 医学-解剖学与形态学
CiteScore
6.00
自引率
6.50%
发文量
168
审稿时长
8 months
期刊介绍: Brain Structure & Function publishes research that provides insight into brain structure−function relationships. Studies published here integrate data spanning from molecular, cellular, developmental, and systems architecture to the neuroanatomy of behavior and cognitive functions. Manuscripts with focus on the spinal cord or the peripheral nervous system are not accepted for publication. Manuscripts with focus on diseases, animal models of diseases, or disease-related mechanisms are only considered for publication, if the findings provide novel insight into the organization and mechanisms of normal brain structure and function.
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