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Top-down and bottom-up oscillatory dynamics regulate implicit visuomotor sequence learning

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posted on 2024-08-21, 04:39 authored by Jarrad LumJarrad Lum, Michael BarhamMichael Barham, Christian HydeChristian Hyde, Aron HillAron Hill, DJ White, ME Hughes, Gillian ClarkGillian Clark
Abstract Implicit visuomotor sequence learning is crucial for acquiring skills that result in automated behaviors. The oscillatory dynamics underpinning this learning process are not well understood. To address this gap, the current study employed electroencephalography with a medium-density array (64 electrodes) to investigate oscillatory activity associated with implicit visuomotor sequence learning in the Serial Reaction Time task. In the task, participants unknowingly learn a series of finger movements. Eighty-five healthy adults participated in the study. Analyses revealed that theta activity at the vertex and alpha/beta activity over the motor areas decreased over the course of learning. No associations between alpha/beta and theta power were observed. These findings are interpreted within a dual-process framework: midline theta activity is posited to regulate top-down attentional processes, whereas beta activity from motor areas underlies the bottom-up encoding of sensory information from movement. From this model, we suggest that during implicit visuomotor sequence learning, top-down processes become disengaged (indicated by a reduction in theta activity), and modality specific bottom-up processes encode the motor sequence (indicated by a reduction in alpha/beta activity).

History

Journal

Cerebral Cortex

Volume

34

Article number

bhae266

Pagination

1-11

Location

Oxford, Eng.

Open access

  • Yes

ISSN

1047-3211

eISSN

1460-2199

Language

en

Publication classification

C1 Refereed article in a scholarly journal

Issue

7

Publisher

Oxford University Press