Litcius/Paper detail

Brain–Computer Interfaces in Parkinson’s Disease Rehabilitation

Emmanuel Ortega‐Robles, Ruben I. Carino-Escobar, Jessica Cantillo-Negrete, Óscar Arias-Carrión

2025Biomimetics7 citationsDOIOpen Access PDF

Abstract

Parkinson's disease (PD) is a progressive neurological disorder with motor and non-motor symptoms that are inadequately addressed by current pharmacological and surgical therapies. Brain-computer interfaces (BCIs), particularly those based on electroencephalography (eBCIs), provide a promising, non-invasive approach to personalized neurorehabilitation. This narrative review explores the clinical potential of BCIs in PD, discussing signal acquisition, processing, and control paradigms. eBCIs are well-suited for PD due to their portability, safety, and real-time feedback capabilities. Emerging neurophysiological biomarkers-such as beta-band synchrony, phase-amplitude coupling, and altered alpha-band activity-may support adaptive therapies, including adaptive deep brain stimulation (aDBS), as well as motor and cognitive interventions. BCIs may also aid in diagnosis and personalized treatment by detecting these cortical and subcortical patterns associated with motor and cognitive dysfunction in PD. A structured search identified 11 studies involving 64 patients with PD who used BCIs for aDBS, neurofeedback, and cognitive rehabilitation, showing improvements in motor function, cognition, and engagement. Clinical translation requires attention to electrode design and user-centered interfaces. Ethical issues, including data privacy and equitable access, remain critical challenges. As wearable technologies and artificial intelligence evolve, BCIs could shift PD care from intermittent interventions to continuous, brain-responsive therapy, potentially improving patients' quality of life and autonomy. This review highlights BCIs as a transformative tool in PD management, although more robust clinical evidence is needed.

Topics & Concepts

NeurorehabilitationBrain–computer interfaceCognitionPhysical medicine and rehabilitationNeurofeedbackParkinson's diseaseRehabilitationFunctional electrical stimulationTranscranial direct-current stimulationDeep brain stimulationElectroencephalographyPsychologyMedicineNeuroscienceDiseaseStimulationPathologyEEG and Brain-Computer InterfacesNeurological disorders and treatmentsNeuroscience and Neural Engineering