Creating an engaging brain computer interface, electrical stimulation therapy for children with hemiparesis: a pilot study

Background : Perinatal stroke can lead to lifelong physical disabilities, where even small improvements in motor function can increase quality of life. Rapid brain development in children provides an opportunity to harness brain plasticity. Current therapies are minimally effective in part due to the boring, unengaging procedures required to achieve adequate repetitions required for therapeutic benefit. The combination of functional electrical stimulation and brain computer interface (FES/BCI) may be effective for adults with stroke-induced hemiparesis and appears feasible in children. We designed a novel FES/BCI system that uses social media to engage youth. Methods: The project was informed through engagement with youth patient partners with lived experience. Participants were fitted with a 16 channel EEG gel headset. BCI training consisted of 20 trials of attempted target movement. Successful classification was paired with FES of the target movement and allowed the participant to swipe to watch the next video as desired. Youth with perinatal stroke and hemiparesis were then recruited to trial the system. Outcomes included training accuracy, BCI performance (Cohen's Kappa), box and blocks, and qualitative interviews to characterize useability and patient experience. Results : Twelve participants (aged 10-23 years) completed three sessions. No adverse events occurred; fatigue was minimal and varied across sessions. System performance varied but most sessions had moderate or better agreement. Average FES repetitions for all sessions were 167 reps/hour [sd:55.2 range: 65-283 reps/hour] and 247 reps/hour [SD: 74.9 range:105-379 reps/hour]. Motor outcomes were variable but improved for some. Qualitative feedback suggested higher motivation and enjoyment compared with traditional therapies but also identified frustrations surrounding technical challenges and equipment comfort. Conclusion: Informed by users, simple EEG-based BCI can be integrated with FES and social media to enhance upper extremity rehabilitation in youth with hemiparesis. This pilot trial will inform the design of future clinical trials to evaluate efficacy. Clinical trial #: NCT07133347