Abstract
Most psychiatric disorders are associated with subtle alterations in brain function and are subject to large interindividual differences. Typically, the diagnosis of these disorders requires time-consuming behavioral assessments administered by a multidisciplinary team with extensive experience. While the application of Machine Learning classification methods (ML classifiers) to neuroimaging data has the potential to speed and simplify diagnosis of psychiatric disorders, the methods, assumptions, and analytical steps are currently opaque and not accessible to researchers and clinicians outside the field. In this paper, we describe potential classification pipelines for autism spectrum disorder, as an example of a psychiatric disorder. The analyses are based on resting-state fMRI data derived from a multisite data repository (ABIDE). We compare several popular ML classifiers such as support vector machines, neural networks, and regression approaches, among others. In a tutorial style, written to be equally accessible for researchers and clinicians, we explain the rationale of each classification approach, clarify the underlying assumptions, and discuss possible pitfalls and challenges. We also provide the data as well as the MATLAB code we used to achieve our results. We show that out-of-the-box ML classifiers can yield classification accuracies of about 60–70%. Finally, we discuss how classification accuracy can be further improved, and we mention methodological developments that are needed to pave the way for the use of ML classifiers in clinical practice.
Highlights
Neuroimaging has substantially advanced our understanding of the perturbed neural mechanisms underpinning psychiatric disorders
We presented several standard Machine Learning classifiers and their advantages and disadvantages for the classification of autism spectrum disorder (ASD), based on multisite neuroimaging data
Accounting for non-linear site effects might increase accuracies further
Summary
Neuroimaging has substantially advanced our understanding of the perturbed neural mechanisms underpinning psychiatric disorders. The integration of neuroimaging tools into clinical practice has so far been limited, partly because it is unclear which information revealed by these tools is relevant for diagnosis and treatment decisions. Taking autism spectrum disorder (ASD) as an example of a psychiatric disorder, its current gold standard diagnosis is based on behavioral assessment instruments such as the Autism Diagnostic InterviewRevised [ADI-R; [2]] and the Autism Diagnostic Observation Schedule [ADOS; [3]]. Applying classification methods from modern statistics and Machine Learning to neuroimaging and/or behavioral data might increase diagnostic accuracy and speed up the diagnostic process. ML classifiers have the potential to aid the integration of neuroimaging data into clinical practice
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