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Efficacy of kinesthetic motor imagery based brain computer interface combined with tDCS on upper limb function in subacute stroke

Zhang Ming, Yu Wu, Jia Fan, Gao Ling, Chu Fengming, Wei Tang

2025Scientific Reports10 citationsDOIOpen Access PDF

Abstract

This study investigates whether the combined effect of kinesthetic motor imagery-based brain computer interface (KI-BCI) and transcranial direct current stimulation (tDCS) on upper limb function in subacute stroke patients is more effective than using KI-BCI or tDCS alone. Forty-eight subacute stroke survivors were randomized to the KI-BCI, tDCS, or BCI-tDCS group. The KI-BCI group performed 30 min of KI-BCI training. Patients in tDCS group received 30 min of tDCS. Patients in BCI-tDCS group received 15 min of tDCS and 15 min of KI-BCI. The treatment cycle was five times a week, for four weeks. After all intervention, the Fugl-Meyer Assessment-Upper Extremity, Motor Status Scale, and the Modified Barthel Index scores of the KI-BCI group were superior to those of the tDCS group. The BCI-tDCS group was superior to the tDCS group in terms of the Motor Status Scale. Although quantitative EEG showed no significant group differences, the quantitative EEG indices in the tDCS group were significantly lower than before treatment. In conclusion, after treatment, although all intervention strategies improved upper limb motor function and daily living abilities in subacute stroke patients, KI-BCI demonstrated significantly better efficacy than tDCS. Under the same total treatment duration, the combined use of tDCS and KI-BCI did not achieve the hypothesized optimal outcome. Notably, tDCS reduced QEEG indices, possibly indicating favorable future outcomes in future.Trial registry number: ChiCTR2000034730.

Topics & Concepts

Kinesthetic learningMotor imageryBrain–computer interfacePhysical medicine and rehabilitationMotor functionStroke (engine)Interface (matter)MedicineComputer sciencePsychologyNeuroscienceElectroencephalographyDevelopmental psychologyPhysicsThermodynamicsMaximum bubble pressure methodParallel computingBubbleEEG and Brain-Computer InterfacesStroke Rehabilitation and RecoveryGaze Tracking and Assistive Technology