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Direct and indirect effects of cathodal cerebellar TDCS on visuomotor adaptation of hand and arm movements

Authors
  • Weightman, Matthew1, 1, 1
  • Brittain, John-Stuart1, 1
  • Miall, R. Chris1, 1, 1
  • Jenkinson, Ned1, 1, 1
  • 1 University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK , Birmingham (United Kingdom)
Type
Published Article
Journal
Scientific Reports
Publisher
Springer Nature
Publication Date
Feb 24, 2021
Volume
11
Issue
1
Identifiers
DOI: 10.1038/s41598-021-83656-5
Source
Springer Nature
License
Green

Abstract

Adaptation of movements involving the proximal and distal upper-limb can be differentially facilitated by anodal transcranial direct current stimulation (TDCS) over the cerebellum and primary motor cortex (M1). Here, we build on this evidence by demonstrating that cathodal TDCS impairs motor adaptation with a differentiation of the proximal and distal upper-limbs, relative to the site of stimulation. Healthy young adults received M1 or cerebellar cathodal TDCS while making fast ‘shooting’ movements towards targets under 60° rotated visual feedback conditions, using either whole-arm reaching or fine hand and finger movements. As predicted, we found that cathodal cerebellar TDCS resulted in impairment of adaptation of movements with the whole arm compared to M1 and sham groups, which proved significantly different during late adaptation. However, cathodal cerebellar TDCS also significantly enhanced adaptation of hand movements, which may reflect changes in the excitability of the pathway between the cerebellum and M1. We found no evidence for change of adaptation rates using arm or finger movements following cathodal TDCS directly over M1. These results are further evidence to support movement specific effects of TDCS, and highlight how the connectivity and functional organisation of the cerebellum and M1 must be considered when designing TDCS-based therapies.

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