Hierarchical graph learning with convolutional network for brain disease prediction
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Date
2024-10-23
Open Access Location
Journal Title
Journal ISSN
Volume Title
Publisher
Springer Nature
Rights
(c) 2023 The Author/s
CC BY 4.0
CC BY 4.0
Abstract
In computer-aided diagnostic systems, the functional connectome approach has become a common method for detecting neurological disorders. However, the existing methods either ignore the uniqueness of different subjects across the functional connectivities or neglect the commonality of the same disease for the functional connectivity of each subject, resulting in a lack of capacity of capturing a comprehensive functional model. To solve the issues, we develop a hierarchical graph learning with convolutional network that not only considers the unique information of each subject, but also takes the common information across subjects into account. Specifically, the proposed method consists of two structures, one is the individual graph model which selects the representative brain regions by combining each subject feature and its related brain region-based graph. The other is the population graph model to directly conduct classification performance by updating the information of each subject which considers both the subject itself and the nearest neighbours. Experimental results indicate that the proposed method on four real datasets outperforms the state-of-the-art approaches.
Description
Keywords
Functional connectivity, Graph neural network, Neurological disorders diagnosis, Graph learning
Citation
Liu T, Liu F, Wan Y, Hu R, Zhu Y, Li L. (2024). Hierarchical graph learning with convolutional network for brain disease prediction. Multimedia Tools and Applications. 83. 15. (pp. 46161-46179).