A spatially constrained independent component analysis jointly informed by structural and functional network connectivity.

IF 69.2 1区 生物学 Q1 MICROBIOLOGY Nature Reviews Microbiology Pub Date : 2024-06-01 DOI:10.1101/2023.08.13.553101
Mahshid Fouladivanda, Armin Iraji, Lei Wu, Theodorus G M van Erp, Aysenil Belger, Faris Hawamdeh, Godfrey D Pearlson, Vince D Calhoun
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Abstract

There are a growing number of neuroimaging studies motivating joint structural and functional brain connectivity. Brain connectivity of different modalities provides insight into brain functional organization by leveraging complementary information, especially for brain disorders such as schizophrenia. In this paper, we propose a multi-modal independent component analysis (ICA) model that utilizes information from both structural and functional brain connectivity guided by spatial maps to estimate intrinsic connectivity networks (ICNs). Structural connectivity is estimated through whole-brain tractography on diffusion-weighted MRI (dMRI), while functional connectivity is derived from resting-state functional MRI (rs-fMRI). The proposed structural-functional connectivity and spatially constrained ICA (sfCICA) model estimates ICNs at the subject level using a multi-objective optimization framework. We evaluated our model using synthetic and real datasets (including dMRI and rs-fMRI from 149 schizophrenia patients and 162 controls). Multi-modal ICNs revealed enhanced functional coupling between ICNs with higher structural connectivity, improved modularity, and network distinction, particularly in schizophrenia. Statistical analysis of group differences showed more significant differences in the proposed model compared to the unimodal model. In summary, the sfCICA model showed benefits from being jointly informed by structural and functional connectivity. These findings suggest advantages in simultaneously learning effectively and enhancing connectivity estimates using structural connectivity.

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由结构和功能网络连通性共同提供信息的空间约束独立成分分析。
越来越多的神经影像学研究鼓励联合进行大脑结构和功能连接。通过利用互补信息,不同模态的大脑连通性可深入了解大脑功能组织,尤其是针对精神分裂症等脑部疾病。在本文中,我们提出了一种多模态独立成分分析(ICA)模型,该模型利用空间图引导下的大脑结构和功能连通性信息来估计内在连通性网络(ICN)。结构连通性通过扩散加权核磁共振成像(dMRI)的全脑束成像进行估算,而功能连通性则来自静息态功能核磁共振成像(rs-fMRI)。所提出的结构-功能连通性和空间约束 ICA(sfCICA)模型采用多目标优化框架在受试者水平上估计 ICN。我们使用合成数据集和真实数据集(包括来自 149 名精神分裂症患者和 162 名对照者的 dMRI 和 rs-fMRI)对我们的模型进行了评估。多模态 ICNs 显示,ICNs 之间的功能耦合增强,结构连通性提高,模块化和网络区分度改善,尤其是在精神分裂症患者中。对组间差异的统计分析显示,与单模态模型相比,拟议模型的组间差异更为显著。总之,sfCICA 模型显示了结构和功能连接性共同作用的优势。这些发现表明,利用结构连通性同时进行有效学习和增强连通性估计具有优势。
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来源期刊
Nature Reviews Microbiology
Nature Reviews Microbiology 生物-微生物学
CiteScore
74.00
自引率
0.50%
发文量
149
审稿时长
6-12 weeks
期刊介绍: At Nature Reviews Microbiology, our goal is to become the leading source of reviews and commentaries for the scientific community we cater to. We are dedicated to publishing articles that are not only authoritative but also easily accessible, supplementing them with clear and concise figures, tables, and other visual aids. Our objective is to offer an unparalleled service to authors, referees, and readers, and we continuously strive to maximize the usefulness and impact of each article we publish. With a focus on Reviews, Perspectives, and Comments spanning the entire field of microbiology, our wide scope ensures that the work we feature reaches the widest possible audience.
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