Multi-centre classification of functional neurological disorders based on resting-state functional connectivity

•Using machine learning on multi-centre data, FND patients were successfully classified with an accuracy of 72%.•The angular- and supramarginal gyri, cingular- and insular cortex, and the hippocampus were the most discriminant regions.•To provide diagnostic utility, future studies must include patie...

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Veröffentlicht in:NeuroImage clinical 2022-01, Vol.35, p.103090-103090, Article 103090
Hauptverfasser: Weber, Samantha, Heim, Salome, Richiardi, Jonas, Van De Ville, Dimitri, Serranová, Tereza, Jech, Robert, Marapin, Ramesh S., Tijssen, Marina A.J., Aybek, Selma
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Sprache:eng
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Zusammenfassung:•Using machine learning on multi-centre data, FND patients were successfully classified with an accuracy of 72%.•The angular- and supramarginal gyri, cingular- and insular cortex, and the hippocampus were the most discriminant regions.•To provide diagnostic utility, future studies must include patients with similar symptoms but different diagnoses. Patients suffering from functional neurological disorder (FND) experience disabling neurological symptoms not caused by an underlying classical neurological disease (such as stroke or multiple sclerosis). The diagnosis is made based on reliable positive clinical signs, but clinicians often require additional time- and cost consuming medical tests and examinations. Resting-state functional connectivity (RS FC) showed its potential as an imaging-based adjunctive biomarker to help distinguish patients from healthy controls and could represent a “rule-in” procedure to assist in the diagnostic process. However, the use of RS FC depends on its applicability in a multi-centre setting, which is particularly susceptible to inter-scanner variability. The aim of this study was to test the robustness of a classification approach based on RS FC in a multi-centre setting. This study aimed to distinguish 86 FND patients from 86 healthy controls acquired in four different centres using a multivariate machine learning approach based on whole-brain resting-state functional connectivity. First, previously published results were replicated in each centre individually (intra-centre cross-validation) and its robustness across inter-scanner variability was assessed by pooling all the data (pooled cross-validation). Second, we evaluated the generalizability of the method by using data from each centre once as a test set, and the data from the remaining centres as a training set (inter-centre cross-validation). FND patients were successfully distinguished from healthy controls in the replication step (accuracy of 74%) as well as in each individual additional centre (accuracies of 73%, 71% and 70%). The pooled cross validation confirmed that the classifier was robust with an accuracy of 72%. The results survived post-hoc adjustment for anxiety, depression, psychotropic medication intake, and symptom severity. The most discriminant features involved the angular- and supramarginal gyri, sensorimotor cortex, cingular- and insular cortex, and hippocampal regions. The inter-centre validation step did not exceed chance level (accuracy below 50
ISSN:2213-1582
2213-1582
DOI:10.1016/j.nicl.2022.103090