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A Low-Cost Lower-Limb Brain-Machine Interface Triggered by Pedaling Motor Imagery for Post-Stroke Patients Rehabilitation

Maria Alejandra Romero-Laiseca, Denis Delisle-Rodríguez, Vivianne Flávia Cardoso, Dharmendra Gurve, Flávia Aparecida Loterio, Jorge Henrique Posses Nascimento, Sridhar Krishnan, Anselmo Frizera, Teodiano Bastos-Filho

2020IEEE Transactions on Neural Systems and Rehabilitation Engineering97 citationsDOI

Abstract

A low-cost Brain-Machine Interface (BMI) based on electroencephalography for lower-limb motor recovery of post-stroke patients is proposed here, which provides passive pedaling as feedback, when patients trigger a Mini-Motorized Exercise Bike (MMEB) by executing pedaling motor imagery (MI). This system was validated in an On-line phase by eight healthy subjects and two post-stroke patients, which felt a closed-loop commanding the MMEB due to the fast response of our BMI. It was developed using methods of low-computational cost, such as Riemannian geometry for feature extraction, Pair-Wise Feature Proximity (PWFP) for feature selection, and Linear Discriminant Analysis (LDA) for pedaling imagery recognition. The On-line phase was composed of two sessions, where each participant completed a total of 12 trials per session executing pedaling MI for triggering the MMEB. As a result, the MMEB was successfully triggered by healthy subjects for almost all trials (ACC up to 100%), while the two post-stroke patients, PS1 and PS2, achieved their best performance (ACC of 41.67% and 91.67%, respectively) in Session #2. These patients improved their latency (2.03 ± 0.42 s and 1.99 ± 0.35 s, respectively) when triggering the MMEB, and their performance suggests the hypothesis that our system may be used with chronic stroke patients for lower-limb recovery, providing neural relearning and enhancing neuroplasticity.

Topics & Concepts

Motor imageryStroke (engine)RehabilitationPhysical medicine and rehabilitationBrain–computer interfaceLinear discriminant analysisMedicineNeuroplasticityElectroencephalographySession (web analytics)PsychologyPhysical therapyComputer scienceArtificial intelligenceNeuroscienceEngineeringWorld Wide WebMechanical engineeringEEG and Brain-Computer InterfacesNeuroscience and Neural EngineeringMuscle activation and electromyography studies
A Low-Cost Lower-Limb Brain-Machine Interface Triggered by Pedaling Motor Imagery for Post-Stroke Patients Rehabilitation | Litcius