Functional near-infrared spectroscopy-based computer-aided diagnosis of major depressive disorder using explainable artificial intelligence: Comparison with conventional machine learning.

Journal: Journal of affective disorders
Published Date: Dec 19, 2025

Abstract

BACKGROUND AND OBJECTIVE: Only a limited number of explainable artificial intelligence (XAI) models have been developed for the functional near-infrared spectroscopy (fNIRS)-based computer-aided diagnosis (CAD) of major depressive disorder (MDD). In this study, we implemented an XAI model based on a convolutional neural network (CNN) specifically designed to highlight the differences in interhemispheric asymmetry between patients with MDD and healthy controls (HCs). METHODS: The proposed XAI model was applied to the fNIRS data acquired from 48 patients with MDD and 68 HCs during a verbal fluency task. Layer-wise relevance propagation (LRP), a well-known XAI technique that identifies the contribution of individual input data to the model prediction, was employed. RESULTS: The performance of the proposed model was validated using ten-fold cross-validation, which reported an average accuracy of 81.17 %, a sensitivity of 79.5 %, and a specificity of 82.38 %. The LRP provided additional insights into the model's decision-making process, revealing that channels within both the right and left dorsolateral prefrontal cortices (DLPFC) were critical for classification. Notably, the relevance score distribution in the right DLPFC closely aligned with the Fisher score distribution observed in conventional machine learning models using handcrafted features. Furthermore, the analysis of symmetrical channel pairs with high relevance scores revealed distinct interhemispheric asymmetry in the waveforms of patients with MDD. CONCLUSION: In summary, we developed an XAI model tailored for fNIRS-based CAD of MDD that not only demonstrated high diagnostic performance but also effectively visualized the decision-making processes of the deep learning model.

Authors

  • Kyeonggu Lee
    Department of Electronic Engineering, Hanyang University, Seoul, Republic of Korea.
  • Minyoung Chun
    Department of Electronic Engineering, Hanyang University, Seoul, Republic of Korea.
  • Jinuk Kwon
    Department of Electronic Engineering, Hanyang University, Seoul, Republic of Korea.
  • JongKwan Choi
    OBELAB Inc., Seoul, Republic of Korea.
  • Seung-Hwan Lee
    Department of Psychiatry, Clinical Emotion and Cognition Research Laboratory, Inje University, Goyang, Republic of Korea.
  • Chang-Hwan Im
    Department of Electronic Engineering, Hanyang University, Seoul, Republic of Korea.

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