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Brain-computer interface training for multimodal functional recovery in patients with brain injury: a case series

Peili Cao, Shijie Guo, Gangli Zhang, Xiang Zan, Jun‐Hao Wang, Fulong Zhang, Javier Muñoz, Brandon Lucke-Wold, Rui Cheng

2025Quantitative Imaging in Medicine and Surgery7 citationsDOIOpen Access PDF

Abstract

Background: Patients with impaired brain function often face sequelae such as limb movement, cognitive, and language impairment, and there are limitations in the efficiency of traditional rehabilitation methods. This study examined whether motor imagery-based brain-computer interface (BCI) training could promote multimodal functional recovery-including limb movement, speech, and cognition-in patients with subacute brain injury. Unlike traditional BCI research focused on single functional domains, we combined multidimensional clinical assessments with multimodal neural analysis to examine cross-network plasticity. Methods: Five patients with subacute brain injury (four males and one female; mean age 54.4±10.3 years) underwent 5 weeks of BCI training between 2021 and 2023. Pre- and post-intervention evaluations included the Fugl-Meyer Assessment Scale (FMA), Modified Ashworth Scale (MAS), Western Aphasia Battery (WAB), and Mini-Mental State Examination (MMSE). Neurophysiological metrics included classification accuracy (CA), power spectral density (PSD), and electroencephalography (EEG) topography. Functional connectivity analyses were conducted with functional magnetic resonance imaging (fMRI) and individualized connectomics based on the Human Connectome Project parcellation. Results: All five patients showed clinical improvement in motor, cognitive, or language functions. The average motor imagery CA increased by 14.2%. PSD flattening and event-related desynchronization (ERD) were observed in the central motor regions. EEG topographies showed enhanced activation converging toward the sensorimotor cortex. Patient-specific functional connectivity analyses revealed strengthened interactions among sensorimotor, language, and attention networks-most notably in one patient with marked clinical gains. Distinct patterns of connectivity reorganization were observed between patients with cortical and subcortical lesions. A critical 3-week time window for neural plasticity was identified. Conclusions: Motor imagery-based BCI training may facilitate recovery across motor, language, and cognitive domains in patients with subacute brain injury. Functional gains were supported by neurophysiological and connectomics evidence of cross-network reorganization. These preliminary findings suggest that personalized BCI protocols could represent a promising avenue for multimodal neurorehabilitation.

Topics & Concepts

Brain–computer interfaceConnectomicsComputer scienceCognitionInterface (matter)NeurophysiologyPhysical medicine and rehabilitationNeuroscienceTraining (meteorology)Human–computer interactionCognitive trainingMedicineFunctional connectivitySeries (stratigraphy)Motor imageryNeurofeedbackMultimodal therapyElectroencephalographyBrain activity and meditationArtificial intelligenceMotor symptomsEEG and Brain-Computer InterfacesTraumatic Brain Injury ResearchFunctional Brain Connectivity Studies
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