Back to Search
Journal ArticleOpen Access

Movement decoding using neural synchronization and inter-hemispheric connectivity from deep brain local field potentials

Author Affiliations
University of Toronto, Holland Bloorview Kids Rehabilitation Hospital, University of Southampton, United International University, ...
Published InJournal of Neural Engineering
Year2015
Citations35

Abstract

OBJECTIVE: Correlating electrical activity within the human brain to movement is essential for developing and refining interventions (e.g. deep brain stimulation (DBS)) to treat central nervous system disorders. It also serves as a basis for next generation brain-machine interfaces (BMIs). This study highlights a new decoding strategy for capturing movement and its corresponding laterality from deep brain local field potentials (LFPs). APPROACH: LFPs were recorded with surgically implanted electrodes from the subthalamic nucleus or globus pallidus interna in twelve patients with Parkinson's disease or dystonia during a visually cued finger-clicking task. We introduce a method to extract frequency dependent neural synchronization and inter-hemispheric connectivity features based upon wavelet packet transform (WPT) and Granger causality approaches. A novel weighted sequential feature…
View at Publisher

BORR does not host full-text PDFs. The button above takes you to the original publisher.