Journal article
Detection of evoked resonant neural activity in Parkinson's disease
Wee-Lih Lee, Nicole Ward, Matthew Petoe, Ashton Moorhead, Kiaran Lawson, San San Xu, Kristian Bulluss, Wesley Thevathasan, Hugh McDermott, Thushara Perera
Journal of Neural Engineering | IOP Publishing | Published : 2024
Abstract
Objective. This study investigated a machine-learning approach to detect the presence of evoked resonant neural activity (ERNA) recorded during deep brain stimulation (DBS) of the subthalamic nucleus (STN) in people with Parkinson's disease. Approach. Seven binary classifiers were trained to distinguish ERNA from the background neural activity using eight different time-domain signal features. Main results. Nested cross-validation revealed a strong classification performance of 99.1% accuracy, with 99.6% specificity and 98.7% sensitivity to detect ERNA. Using a semi-simulated ERNA dataset, the results show that a signal-to-noise ratio of 15 dB is required to maintain a 90% classifier sensiti..
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Awarded by Lions International Neurobionics Fellowship
Funding Acknowledgements
This work was supported by the National Health and Medical Research Council (Project Grant No. 1103238, development Grant No. 1177815), the Global Innovation Linkages Program, and the Victorian Medical Research Acceleration Fund. The Bionics Institute acknowledges the support it receives from the Victorian Government through its Operational Infrastructure Support Program. W T is supported by Lions International (Neurobionics Fellowship).