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Deep reinforcement learning for fMRI prediction of Autism Spectrum Disorder

Purpose : Because functional MRI (fMRI) data sets are in general small, we sought a data efficient approach to resting state fMRI classification of autism spectrum disorder (ASD) versus neurotypical (NT) controls. We hypothesized that a Deep Reinforcement Learning (DRL) classifier could learn effectively on a small fMRI training set. Methods : We trained a Deep Reinforcement Learning (DRL) classifier on 100 graph-label pairs from the Autism Brain Imaging Data Exchange (ABIDE) database. For comparison, we trained a Supervised Deep Learning (SDL) classifier on the same training set. Results : DRL significantly outperformed SDL, with a p-value of 2.4 x 10^(-7). DRL achieved superior results for a variety of classifier performance metrics, including an F1 score of 76, versus 67 for SDL. Whereas SDL quickly overfit the training data, DRL learned in a progressive manner that generalised to the separate testing set. Conclusion : DRL can learn to classify ASD versus NT in a data efficient manner, doing so for a small training set. Future work will involve optimizing the neural network for data efficiency and applying the approach to other fMRI data sets, namely for brain cancer patients.

preprint2022arXivOpen access

Joseph Stember Danielle Stember Luca Pasquini Jenabi Merhnaz Andrei Holodny Hrithwik Shalu

eess.IV Machine Learning Artificial Intelligence Neurons and Cognition

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Joseph Stember Danielle Stember Luca Pasquini Jenabi Merhnaz Andrei Holodny Hrithwik Shalu

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Deep reinforcement learning for fMRI prediction of Autism Spectrum Disorder

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