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Electrophysiological Brain Activity during Motor Imagery Enhanced by Brain-Computer Interface in Healthy Volunteers and Post-Stroke Patients
- 1.0490083 - ÚI 2019 IE eng A - Abstract
Aziatskaya, G.A. - Lyukmanov, R. - Frolov, A. - Bobrov, P. - Fedotova, I.R. - Húsek, Dušan - Snášel, V. - Suponeva, N. - Piradov, M. - Poydasheva, A.
Electrophysiological Brain Activity during Motor Imagery Enhanced by Brain-Computer Interface in Healthy Volunteers and Post-Stroke Patients.
Clinical Neurophysiology. Elsevier. Roč. 129, Suppl. 1 (2018), e140-e140. ISSN 1388-2457. E-ISSN 1872-8952.
[ICCN 2018. International Congress of Clinical Neurophysiology of the IFCN /31./. 01.05.2018-06.05.2018, Washington, DC]
Motor imagery (MI) has been shown to be an effective tool in rehabilitation of post-stroke patients. MI can be enhanced by kinesthetic feedback provided by brain-computer-exoskeleton interfaces. Description and analysis of brain activity during the kinesthetic imagery of movements in healthy subjects and post-stroke patients with the subcortical location of the damage was performed in the current study.
Permanent Link: http://hdl.handle.net/11104/0284382
Number of the records: 1