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Efficacy of brain-computer interface training with motor imagery-contingent feedback in improving upper limb function and neuroplasticity among persons with chronic stroke: a double-blinded, parallel-group, randomized controlled trialopen access

Authors
Kim, Myeong SunPark, HyunjuKwon, IlhoAn, Kwang-OkKim, HayeonPark, GyuleeHyung, WooseokIm, Chang-HwanShin, Joon-Ho
Issue Date
Jan-2025
Publisher
BioMed Central
Keywords
Stroke; Rehabilitation; Brain-machine interface; Brain-computer interface; Randomized clinical trial
Citation
Journal of NeuroEngineering and Rehabilitation, v.22, no.1, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Journal of NeuroEngineering and Rehabilitation
Volume
22
Number
1
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206418
DOI
10.1186/s12984-024-01535-2
ISSN
1743-0003
1743-0003
Abstract
Background: Brain-computer interface (BCI) technology can enhance neural plasticity and motor recovery in persons with stroke. However, the effects of BCI training with motor imagery (MI)-contingent feedback versus MI-independent feedback remain unclear. This study aimed to investigate whether the contingent connection between MI-induced brain activity and feedback influences functional and neural plasticity outcomes. We hypothesized that BCI training, with MI-contingent feedback, would result in greater improvements in upper limb function and neural plasticity compared to BCI training, with MI-independent feedback. Methods: This randomized controlled trial included persons with chronic stroke who underwent BCI training involving functional electrical stimulation feedback on the affected wrist extensor. Primary outcomes included the Medical Research Council (MRC) scale score for muscle strength in the wrist extensor (MRC-WE) and active range of motion in wrist extension (AROM-WE). Resting-state electroencephalogram recordings were used to assess neural plasticity. Results: Compared to the MI-independent feedback BCI group, the MI-contingent feedback BCI group showed significantly greater improvements in MRC-WE scores (mean difference = 0.52, 95% CI = 0.03-1.00, p = 0.036) and demonstrated increased AROM-WE at 4 weeks post-intervention (p = 0.019). Enhanced functional connectivity in the affected hemisphere was observed in the MI-contingent feedback BCI group, correlating with MRC-WE and Fugl-Meyer assessment-distal scores. Improvements were also observed in the unaffected hemisphere's functional connectivity. Conclusions: BCI training with MI-contingent feedback is more effective than MI-independent feedback in improving AROM-WE, MRC, and neural plasticity in individuals with chronic stroke. BCI technology could be a valuable addition to conventional rehabilitation for stroke survivors, enhancing recovery outcomes. Trial registration: CRIS (KCT0009013).
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