Cerebral cortex
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The long-term depression (LTD)-like changes in human primary motor cortex (M1) excitability induced by continuous theta burst stimulation (cTBS) are subject to reversal (i.e., de-depression) following behavioral engagement of M1, limiting its therapeutic potential under behaviorally relevant conditions. Experiments in animals suggest that the repeated, spaced application of stimulation trains may consolidate synaptic plasticity, making it resistant to reversal by physiological activity. Although there is evidence that repeated cTBS prolongs LTD-like M1 neuroplasticity in humans, whether these effects are resistant to de-depression has not been tested. ⋯ While the LTD-like MEP depression induced by a single cTBS was abolished by subsequent voluntary contraction, paired cTBS induced MEP depression that was resistant to reversal. This MEP depression was also resistant to reversal when an experimental de-depression protocol was used instead of a voluntary contraction. Our findings suggest that repeated cTBS applications consolidate LTD-like M1 neuroplasticity, which may have important implications for the clinical application of cTBS.
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It has been established that bimanual coordination with augmented feedback (FB) versus no augmented feedback (NFB) is associated with activity in different brain regions. It is unclear however, whether this distinction remains after practice comprising both these conditions. Functional magnetic resonance imaging was used in humans to compare visual FB versus NFB conditions for a bimanual tracking task, and their differential evolution across learning. ⋯ Activations at the whole-brain level initially differed for FB versus NFB movements but this differentiation diminished with training for the movement execution phase. Specifically, in right dorsal premotor cortex and right dorsolateral prefrontal cortex activation increased for NFB and decreased for FB trials to converge toward the end of practice. This suggests that learning led to a decreased need to adjust the ongoing movement on the basis of FB, whereas online monitoring became more pronounced in NFB trials as discrepancies between the required and the produced motor output were detected more accurately after training, due to a generic internal reference of correctness supporting movement control under varying conditions.