Monge-Pereira, E;
Casatorres Perez-Higueras, I;
Fernandez-Gonzalez, P;
Ibanez-Pereda, J;
Ignacio Serrano, J;
Molina-Rueda, F;
(2017)
Entrenamiento de las señales corticales a través de un sistema BMI-EEG, evolución e intervención. A propósito de un caso = Training cortical signals by means of a BMI-EEG system, its evolution and intervention. A case report.
Revista De Neurología
, 64
(8)
pp. 362-366.
Preview |
Text
Pub - Monge et al - Revista de Neurología - 2017.pdf - Published Version Download (302kB) | Preview |
Abstract
INTRODUCTION: In the last years, new technologies such as the brain-machine interfaces (BMI) have been incorporated in the rehabilitation process of subjects with stroke. These systems are able to detect motion intention, analyzing the cortical signals using different techniques such as the electroencephalography (EEG). This information could guide different interfaces such as robotic devices, electrical stimulation or virtual reality. CASE REPORT: A 40 years-old man with stroke with two months from the injury participated in this study. We used a BMI based on EEG. The subject's motion intention was analyzed calculating the event-related desynchronization. The upper limb motor function was evaluated with the Fugl-Meyer Assessment and the participant's satisfaction was evaluated using the QUEST 2.0. The intervention using a physical therapist as an interface was carried out without difficulty. CONCLUSIONS: The BMI systems detect cortical changes in a subacute stroke subject. These changes are coherent with the evolution observed using the Fugl-Meyer Assessment.
Archive Staff Only
View Item |