Abstract
REM Behavior Disorder (RBD) is a serious risk factor for neurodegenerative diseases such as Parkinson’s disease (PD). We describe here a recurrent neural network (RNN) for classification of EEG data collected from RBD patients and healthy controls (HC) forming a balanced cohort of 118 subjects in which 50 % of the RBD patients eventually developed either PD or Lewy Body Dementia (LBD). In earlier work [1, 2], we implemented support vector machine classifiers (SVMs) using EEG mean spectral features to predict the course of disease in the dual HC vs. PD problem with an accuracy of 85 %. Although largely successful, this approach did not attempt to exploit the non-linear dynamic characteristics of EEG signals, which are believed to contain useful information. Here we describe an Echo State Network (ESN) classifier capable of processing the dynamic features of EEG power at different spectral bands. The inputs to the classifier are the time series of 1 second-averaged EEG power at several selected frequencies and channels. The performance of the ESN reaches 85 % test-set accuracy in the HC vs. PD problem using the same subset of channels and bands we selected in our prior work on this problem using SVMs.
This work partly supported by the Michael J. Fox Foundation within the project “Discovery of EEG biomarkers for Parkinson Disease and Lewy Body Dementia using advanced Machine Learning techniques”.
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References
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Acknowledgments
This work has been partially funded by The Michael J. Fox Foundation for Parkinsons Research under Rapid Response Innovation Awards 2013. The data was collected by Jacques Montplaisir’s team at the Center for Advanced Research in Sleep Medicine affiliated to the University of Montrèal, Hopital du Sacre-Coeur, Montrèal and provided within the scope of the aforementioned project.
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Ruffini, G., Ibañez, D., Castellano, M., Dunne, S., Soria-Frisch, A. (2016). EEG-driven RNN Classification for Prognosis of Neurodegeneration in At-Risk Patients. In: Villa, A., Masulli, P., Pons Rivero, A. (eds) Artificial Neural Networks and Machine Learning – ICANN 2016. ICANN 2016. Lecture Notes in Computer Science(), vol 9886. Springer, Cham. https://doi.org/10.1007/978-3-319-44778-0_36
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