Detection of multiple sclerosis from photic stimulation EEG signals

Abstract

BackgroundMultiple Sclerosis (MS) is characterized as a chronic, autoimmune and inflammatory disease of the central nervous system. Early diagnosis of MS is of great importance for the treatment and course of the disease. In addition to the many methods, cost-effective and non-invasive electroencephalogram signals may contribute to the pre-diagnosis of MS. ObjectivesThe aim of this paper is to classify male subjects who have MS and who are healthy control using photic stimulation electroencephalogram signals. MethodsFirstly the continuous wavelet transformation (CWT) method was applied to electroencephalogram signals under photic stimulation with 5Hz, 10Hz, 15Hz, 20Hz, and 25Hz frequencies. The sum, maximum, minimum and standard deviation values of absolute CWT coefficients, corresponding to “1–4 Hz” and “4–13 Hz” frequency ranges, were extracted in each stimulation frequency region. The ratios of these values obtained from the frequency ranges “1–4Hz” and “4–13Hz” was decided as features. Finally, various machine learning classifiers were evaluated to test the effectivity of determined features. ResultsConsequently, the overall accuracy, sensitivity, specificity and positive predictive value of the proposed algorithm were 80 %, 72.7 %, 88.9 %, and 88.9 %, respectively by using the Ensemble Subspace k-NN classifier algorithm. ConclusionsThe results showed how photic stimulation electroencephalogram signals can contribute to the pre-diagnosis of MS.