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W2801595810 abstract "Being one of the most prominent research areas over the last two decades, electroencephalogram (EEG) based brain-computer interface (BCI) technology aims to provide direct brain communication for locked-in patients with severe neuromuscular disabilities and support motor restoration in stroke with recently developing approaches. In the context of EEG-based BCI-assisted stroke rehabilitation, we hypothesize that the extent of brain activities considered in state-of-the-art protocols, which are restricted to haptic feedback of neural activity in primary sensorimotor areas, might be a confounding factor for further progress in this eld due to empirical evidence on a variety of brain rhythms being related to the extent of motor de cits. As post-stroke recovery is a form of motor learning, we propose to identify neural correlates of motor learning beyond sensorimotor areas to extend the current focus of BCI-assisted stroke rehabilitation. For this purpose, we designed and implemented a physical force- eld adaptation learning experiment under simultaneous EEG recordings with healthy individuals, in which post-stroke recovery processes of patients will be likened to a plausible form of motor learning as such motor adaptation tasks are known to induce internal model formations for motor capabilities within the brain. With the experimental data, we aimed to identify neural correlates of motor adaptation learning during resting-state and pre-movement phases prior to motor execution. We implemented a signal processing and machine learning approach to investigate the relation between kinematic learning performance and neural data. Our results on both resting-state and pre-movement EEG data verify that a broad network of brain regions including and beyond sensorimotor areas are involved in motor adaptation learning with spectral relevance of beta oscillations (15{30 Hz) in particular. We further investigated changes in learning-correlated activities during the course of motor adaptation and discussed how our conclusions come into line with previous neuroimaging studies to understand human motor behavior. Finally, we propose to exploit these results in a novel BCI-assisted robotic stroke rehabilitation setting." @default.
W2801595810 created "2018-05-17" @default.
W2801595810 creator A5043725462 @default.
W2801595810 date "2016-01-01" @default.
W2801595810 modified "2023-09-24" @default.
W2801595810 title "Identifying neural correlates of motor adaptation learning for BCI-Assisted stroke rehabilitation" @default.
W2801595810 hasPublicationYear "2016" @default.
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