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A Gait Imagery-Based Brain–Computer Interface With Visual Feedback for Spinal Cord Injury Rehabilitation on Lokomat

Cristian Felipe Blanco-Díaz, E. Serafini, Teodiano Bastos-Filho, André Felipe Oliveira de Azevedo Dantas, Caroline Cunha do Espírito Santo, Denis Delisle-Rodríguez

2024IEEE Transactions on Biomedical Engineering17 citationsDOI

Abstract

OBJECTIVE: Motor Imagery (MI)-based Brain-Computer Interfaces (BCIs) have been proposed for the rehabilitation of people with disabilities, being a big challenge their successful application to restore motor functions in individuals with Spinal Cord Injury (SCI). This work proposes an Electroencephalography (EEG) gait imagery-based BCI to promote motor recovery on the Lokomat platform, in order to allow a clinical intervention by acting simultaneously on both central and peripheral nervous mechanisms. METHODS: As a novelty, our BCI system accurately discriminates gait imagery tasks during walking and further provides a multi-channel EEG-based Visual Neurofeedback (VNFB) linked to (8-12 Hz) and (15-20 Hz) rhythms around Cz. VNFB is carried out through a cluster analysis strategy-based Euclidean distance, where the weighted mean MI feature vector is used as a reference to teach individuals with SCI to modulate their cortical rhythms. RESULTS: The developed BCI reached an average classification accuracy of 74.4%. In addition, feature analysis demonstrated a reduction in cluster variance after several sessions, whereas metrics associated with self-modulation indicated a greater distance between both classes: passive walking with gait MI and passive walking without MI. CONCLUSION: The results suggest that intervention with a gait MI-based BCI with VNFB may allow the individuals to appropriately modulate their rhythms of interest around Cz. SIGNIFICANCE: This work contributes to the development of advanced systems for gait rehabilitation by integrating Machine Learning and neurofeedback techniques, to restore lower-limb functions of SCI individuals.

Topics & Concepts

RehabilitationBrain–computer interfacePhysical medicine and rehabilitationSpinal cord injuryGaitVisual feedbackSpinal cordGait analysisBiomechanicsComputer scienceMedicinePsychologyComputer visionPhysical therapyNeuroscienceElectroencephalographyAnatomyEEG and Brain-Computer InterfacesOptical Imaging and Spectroscopy TechniquesMuscle activation and electromyography studies