Multiscale Contextual Mamba: Advancing Psychiatric Disorder Detection across Multisite Functional Magnetic Resonance Imaging Datasets via State Space Modeling
Shusheng Li, Yang Bo, Yuchu Chen, Jianfeng Cao, Bo Bi, Ting Ma, Chenfei Ye

TL;DR
This paper introduces a new model for detecting psychiatric disorders like depression and autism using brain scans, achieving high accuracy across different datasets.
Contribution
The novel MSC-Mamba model uses state space modeling to capture long-term dependencies in brain imaging data, improving detection accuracy.
Findings
MSC-Mamba achieved 69.91% accuracy for MDD detection and 73.08% for ASD detection.
The model shows robust generalization across diverse imaging sites.
It effectively captures brain network dynamics relevant to psychiatric disorders.
Abstract
Background: Major depressive disorder (MDD) and autism spectrum disorder (ASD) are complex and heterogeneous neuropsychiatric disorders with overlapping symptoms, presenting remarkable challenges for accurate diagnosis. Leveraging functional neuroimaging data offers an opportunity to develop more robust, data-driven approach for psychiatric disorder detection. However, existing methods often struggle to capture the long-term dependencies and dynamic patterns inherent in such data, particularly across diverse imaging sites. Methods: We propose Multiscale Contextual Mamba (MSC-Mamba), a Mamba-based model designed for capturing long-term dependencies in multivariate time-series data while maintaining linear scalability, allowing us to account for long-range interactions and subtle dynamic patterns within the brain’s functional networks. One of the main advantages of MSC-Mamba is its…
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Taxonomy
TopicsFunctional Brain Connectivity Studies · EEG and Brain-Computer Interfaces · Neural dynamics and brain function
