Dissociating the Roles of the Cerebellum and Motor Cortex during Adaptive Learning: The Motor Cortex Retains What the Cerebellum Learns
Johns Hopkins University · Johns Hopkins Medicine
Abstract
Adaptation to a novel visuomotor transformation has revealed important principles regarding learning and memory. Computational and behavioral studies have suggested that acquisition and retention of a new visuomotor transformation are distinct processes. However, this dissociation has never been clearly shown. Here, participants made fast reaching movements while unexpectedly a 30-degree visuomotor transformation was introduced. During visuomotor adaptation, subjects received cerebellar, primary motor cortex (M1) or sham anodal transcranial direct current stimulation (tDCS), a noninvasive form of brain stimulation known to increase excitability. We found that cerebellar tDCS caused faster adaptation to the…
Citation impact
- FWCI
- 17.83
- Percentile
- 100%
- References
- 49
Authors
5- JMJoseph M. GaleaCorresponding
Johns Hopkins University
- AVAlejandro Vázquez
Johns Hopkins University, Johns Hopkins Medicine
- NPNatasha Pasricha
Johns Hopkins Medicine, Johns Hopkins University
- JOJean‐Jacques Orban de Xivry
Johns Hopkins University, Johns Hopkins Medicine
- PCPablo Celnik
Johns Hopkins University, Johns Hopkins Medicine
Topics & keywords
- Motor learning
- Transcranial direct-current stimulation
- Neuroscience
- Cerebellum
- Psychology
- Primary motor cortex
- Motor cortex
- Dissociation (chemistry)