Brain–computer interface robotics for hand rehabilitation after stroke: a systematic review

Journal article

Brain-computer interfaces (BCIs) provide a unique technological solution to circumvent the damaged motor system. For neurorehabilitation, the BCI can be used to translate neural signals associated with movement intentions into tangible feedback for the patient, when they are unable to generate functional movement themselves. Clinical interest in BCI is growing rapidly, as it would facilitate rehabilitation to commence earlier following brain damage and provides options for patients who are unable to partake in traditional physical therapy. However, substantial challenges with existing BCI implementations have prevented its widespread adoption. Recent advances in knowledge and technology provide opportunities to facilitate a change, provided that researchers and clinicians using BCI agree on standardisation of guidelines for protocols and shared efforts to uncover mechanisms. We propose that addressing the speed and effectiveness of learning BCI control are priorities for the field, which may be improved by multimodal or multi-stage approaches harnessing more sensitive neuroimaging technologies in the early learning stages, before transitioning to more practical, mobile implementations. Clarification of the neural mechanisms that give rise to improvement in motor function is an essential next step towards justifying clinical use of BCI. In particular, quantifying the unknown contribution of non-motor mechanisms to motor recovery calls for more stringent control conditions in experimental work. Here we provide a contemporary viewpoint on the factors impeding the scalability of BCI. Further, we provide a future outlook for optimal design of the technology to best exploit its unique potential, and best practices for research and reporting of findings

Authors: Baniqued, PDE; Stanyer, EC; Awais, M; Alazmani, A; Jackson, AE

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: BioMed Central
• Journal: Journal of NeuroEngineering and Rehabilitation
• Volume: 18
• Issue: 1
• Pages: 15-15
• Article number: 15
• Publication date: 2021-01-23
• DOI: 10.1186/s12984-021-00820-8
• EISSN: 1743-0003
• ISSN: 1743-0003
• Language: English
• Keywords: Stroke (engine); Psychology; Brain–computer interface; Robot; PsycINFO; Medicine; Physical therapy; Physical medicine and rehabilitation; Neuroscience; Artificial intelligence; MEDLINE; Motor imagery; Cochrane Library; Computer science; Meta-analysis; Robotics; Rehabilitation; Electroencephalography