A much more pronounced regression of the neurological deficit was observed in the group of animals which were administered cellex. There was a significant increase in volume of active movements in the limbs. No connective tissue changes were observed macroscopically in rabbits of the first group. Besides, the area of destruction decreased in size in comparison with initially diagnosed one. A decline in the rate of the formation of connective tissue was observed in damaged parts of the brain. The microscopic study of the first group showed that the degree of inflammatory and hemodynamic disturbances was much lower and necrosis foci were not detected, however small foci of neoangiogenesis were found.
It was demonstrated previously that neurorehabilitation with the BCI-controlled robotic device Exohand-2 combined with conventional therapeutic modalities resulted in significant motor improvement in children with cerebral palsy. However, EEG records were not analyzed in the previous study. The aim of this paper was to describe the reactivity patterns of the EEG α-rhythm during a series of 10 BCI-based neurorehabilitation sessions. The study was carried out in 32 boys and girls aged 10 to 18 years with right- or left-side hemiparesis. EEG was recorded from 21 electrodes at rest and during kinesthetic imagery of finger extension. During the first session, patterns of α-rhythm reactivity during motor imagery differed between patients with left- and right-side hemiparesis. The differences were statistically significant at Р2 during left hand movement rehearsal (F1, 30 = 5.10; p < 0.05). During the final session, the pattern of α-rhythm reactivity was different: synchronization was taken over by desynchronization at some electrode sites, suggesting increased activity of the neocortex. The most conspicuous EEG changes were observed in children with left-side hemiparesis (F20, 300 = 1.84; p < 0.05). By the end of the rehabilitation course, the differences between patients with left-and right-side hemiparesis became much less pronounced. Rearrangements in the EEG patterns in the α-frequency band can be regarded as signs of beneficial reorganization of neural circuits responsible for planning and executing complex hand movements.
The article deals with the role of neurotrophic and growth factors in the development and functioning of the nervous system. The authors present general information on neurotrophic control and its role in the interaction of motor neurons and innervated muscle fibers.
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