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Hauptverfasser: Liao, Qianqian, Cai, Wuque, Sun, Hongze, Liu, Dongze, Chen, Duo, Yao, Dezhong, Guo, Daqing
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.16096
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author Liao, Qianqian
Cai, Wuque
Sun, Hongze
Liu, Dongze
Chen, Duo
Yao, Dezhong
Guo, Daqing
author_facet Liao, Qianqian
Cai, Wuque
Sun, Hongze
Liu, Dongze
Chen, Duo
Yao, Dezhong
Guo, Daqing
contents Recent developed graph-based methods for diagnosing brain disorders using functional connectivity highly rely on predefined brain atlases, but overlook the rich information embedded within atlases and the confounding effects of site and phenotype variability. To address these challenges, we propose a two-stage Brain-to-Population Graph Learning (B2P-GL) framework that integrates the semantic similarity of brain regions and condition-based population graph modeling. In the first stage, termed brain representation learning, we leverage brain atlas knowledge from GPT-4 to enrich the graph representation and refine the brain graph through an adaptive node reassignment graph attention network. In the second stage, termed population disorder diagnosis, phenotypic data is incorporated into population graph construction and feature fusion to mitigate confounding effects and enhance diagnosis performance. Experiments on the ABIDE I, ADHD-200, and Rest-meta-MDD datasets show that B2P-GL outperforms state-of-the-art methods in prediction accuracy while enhancing interpretability. Overall, our proposed framework offers a reliable and personalized approach to brain disorder diagnosis, advancing clinical applicability.
format Preprint
id arxiv_https___arxiv_org_abs_2506_16096
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Brain-to-Population Graph Learning Framework for Diagnosing Brain Disorders
Liao, Qianqian
Cai, Wuque
Sun, Hongze
Liu, Dongze
Chen, Duo
Yao, Dezhong
Guo, Daqing
Machine Learning
Artificial Intelligence
Recent developed graph-based methods for diagnosing brain disorders using functional connectivity highly rely on predefined brain atlases, but overlook the rich information embedded within atlases and the confounding effects of site and phenotype variability. To address these challenges, we propose a two-stage Brain-to-Population Graph Learning (B2P-GL) framework that integrates the semantic similarity of brain regions and condition-based population graph modeling. In the first stage, termed brain representation learning, we leverage brain atlas knowledge from GPT-4 to enrich the graph representation and refine the brain graph through an adaptive node reassignment graph attention network. In the second stage, termed population disorder diagnosis, phenotypic data is incorporated into population graph construction and feature fusion to mitigate confounding effects and enhance diagnosis performance. Experiments on the ABIDE I, ADHD-200, and Rest-meta-MDD datasets show that B2P-GL outperforms state-of-the-art methods in prediction accuracy while enhancing interpretability. Overall, our proposed framework offers a reliable and personalized approach to brain disorder diagnosis, advancing clinical applicability.
title A Brain-to-Population Graph Learning Framework for Diagnosing Brain Disorders
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2506.16096