Classifying schizophrenia using functional MRI and investigating underlying functional phenomena

IF 3.7 3区医学 Q2 NEUROSCIENCES Brain Research Bulletin Pub Date : 2025-04-01 Epub Date: 2025-03-07 DOI:10.1016/j.brainresbull.2025.111279

Yangyang Liu , Bi Wan , Zixuan Liu , Shuaiqi Zhang , Pei Liu , Ningning Ding , Yuxin Wang , Jun Dong , Moiz Kabeer Ahmad , Haisan Zhang

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Abstract

Background

Existing studies have revealed functional abnormalities in certain brain regions of patients with schizophrenia (SZ), but the relationships between these abnormalities and their impact on disease progression remain unclear.

Methods

Fifty-six patients with SZ and 56 healthy controls were included. Based on resting-state functional magnetic resonance imaging, we analyzed fractional amplitude of low-frequency fluctuations (fALFF), regional homogeneity (ReHo), and degree centrality (DC). Statistically significant metrics were selected as features, and machine learning models were used to distinguish between patients and controls. Analyze the importance of features in the optimal model. The Louvain community detection algorithm and structural equation modeling were used to investigate community relationships and potential causal effects.

Results

The average prediction accuracy of various ML classifiers reached 0.9241 by fALFF, ReHo, and DC values. The SVM model have the highest performance with an accuracy of 0.9464. Abnormal ReHo in the right middle frontal gyrus contributed most to this optimal classifier and participated in the direct impact on SZ. All the features we analyzed ultimately constituted two functional clusters (FClus), which exhibit internal causal influences. FClus1 had a positive influence on SZ, with the cascade starting from abnormal fALFF in the right inferior temporal gyrus. FClus2 had a negative influence on SZ, with the cascade starting from abnormal fALFF in the left fusiform gyrus.Abnormal fALFF in the right caudate nucleus, degree centrality in the right angular gyrus, and ReHo in the right lentiform nucleus do not have a causal impact on the disease.

Conclusions

We identified interactions among features within FClus that potentially influence the onset and progression of schizophrenia, including epicenter phenomenon of FClus, FClus for inhibiting schizophrenia, and abnormal function of brain regions without direct impact. Additionally, we believe that the contribution of features to the disease classification model may indicate the size of their direct impact on the disease, not necessarily their importance in the disease process.

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使用功能性MRI对精神分裂症进行分类并调查潜在的功能现象

现有的研究已经揭示了精神分裂症（SZ）患者某些大脑区域的功能异常，但这些异常与其对疾病进展的影响之间的关系尚不清楚。方法选取56例SZ患者和56例健康对照。基于静息状态功能磁共振成像，我们分析了低频波动的分数幅值（fALFF）、区域均匀性（ReHo）和度中心性（DC）。选择具有统计意义的指标作为特征，并使用机器学习模型来区分患者和对照组。分析最优模型中特征的重要性。采用Louvain群落检测算法和结构方程模型研究群落关系和潜在因果效应。结果各ML分类器的fALFF、ReHo和DC的平均预测准确率达到0.9241。其中SVM模型的准确率最高，达到0.9464。右侧额叶中回的ReHo异常对该最优分类器贡献最大，并直接影响SZ。我们分析的所有特征最终构成了两个功能集群（FClus），它们表现出内在的因果关系。FClus1对SZ有正向影响，其级联起始于右侧颞下回异常的fALFF。FClus2对SZ有负向影响，其级联起始于左侧梭状回异常的fALFF。右尾状核异常的fALFF、右角回异常的度中心性和右慢状核异常的ReHo与疾病无因果关系。结论FClus的中心现象、抑制精神分裂症的FClus以及无直接影响的脑区功能异常等特征之间存在相互作用，可能影响精神分裂症的发生和发展。此外，我们认为特征对疾病分类模型的贡献可能表明它们对疾病的直接影响的大小，而不一定是它们在疾病过程中的重要性。

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

Brain Research Bulletin 医学-神经科学

CiteScore

6.90

自引率

2.60%

发文量

253

审稿时长

67 days

期刊介绍： The Brain Research Bulletin (BRB) aims to publish novel work that advances our knowledge of molecular and cellular mechanisms that underlie neural network properties associated with behavior, cognition and other brain functions during neurodevelopment and in the adult. Although clinical research is out of the Journal''s scope, the BRB also aims to publish translation research that provides insight into biological mechanisms and processes associated with neurodegeneration mechanisms, neurological diseases and neuropsychiatric disorders. The Journal is especially interested in research using novel methodologies, such as optogenetics, multielectrode array recordings and life imaging in wild-type and genetically-modified animal models, with the goal to advance our understanding of how neurons, glia and networks function in vivo.