Abstract
Major depressive disorder (MDD) is a global healthcare issue and one of the leading causes of disability. Machine learning combined with non-invasive electroencephalography (EEG) has recently been shown to have the potential to diagnose MDD. However, most of these studies analyzed small samples of participants recruited from a single source, raising serious concerns about the generalizability of these results in clinical practice. Thus, it has become critical to re-evaluate the efficacy of various common EEG features for MDD detection across large and diverse datasets. To address this issue, we collected resting-state EEG data from 400 participants across four medical centers and tested classification performance of four common EEG features: band power (BP), coherence, Higuchi’s fractal dimension, and Katz’s fractal dimension. Then, a sequential backward selection (SBS) method was used to determine the optimal subset. To overcome the large data variability due to an increased data size and multi-site EEG recordings, we introduced the conformal kernel (CK) transformation to further improve the MDD as compared with the healthy control (HC) classification performance of support vector machine (SVM). The results show that (1) coherence features account for 98% of the optimal feature subset; (2) the CK-SVM outperforms other classifiers such as K-nearest neighbors (K-NN), linear discriminant analysis (LDA), and SVM; (3) the combination of the optimal feature subset and CK-SVM achieves a high five-fold cross-validation accuracy of 91.07% on the training set (140 MDD and 140 HC) and 84.16% on the independent test set (60 MDD and 60 HC). The current results suggest that the coherence-based connectivity is a more reliable feature for achieving high and generalizable MDD detection performance in real-life clinical practice.
Highlights
Major depressive disorder (MDD) is a prevalent mood disorder characterized by persistent sadness, psychomotor retardation, and loss of interest in daily activities [1]
We investigate the performance of all possible band power (BP) and fractal dimensions (FDs) features at all electrodes and all frequency bands for classifying MDD and healthy control (HC)
Several studies have suggested that the frontal alpha asymmetry (FAA) of resting-state EEG could be a neurosignature for the diagnosis of MDD
Summary
Major depressive disorder (MDD) is a prevalent mood disorder characterized by persistent sadness, psychomotor retardation, and loss of interest in daily activities [1]. Over 700,000 people kill themselves every year as a result of MDD, a disease that affects 320 million people worldwide [5]. The prevalence of MDD in the United States has increased substantially from 7% prior to the COVID-19 pandemic to 27% during the first year of the pandemic Treatments for MDD are promising, accurate diagnosis may be difficult due to its heterogeneous etiologies and various psychopathological manifestations [7]. The diagnosis of MDD is still based on clinical interviews and self-reports. There is an urgent need to develop complementary diagnostic tools that differentiate MDD from healthy persons based on neurophysiological changes
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