Resting state electroencephalography power correlates with individual differences in implicit sequence learning

Author:

Lum Jarrad A. G.1ORCID,Byrne Linda K.1,Barhoun Pamela1,Hyde Christian1ORCID,Hill Aron T.1,Enticott Peter G.1,Clark Gillian M.1

Affiliation:

1. Cognitive Neuroscience Unit, School of Psychology Deakin University Geelong Victoria Australia

Abstract

AbstractNeuroimaging resting state paradigms have revealed synchronised oscillatory activity is present even in the absence of completing a task or mental operation. One function of this neural activity is likely to optimise the brain's sensitivity to forthcoming information that, in turn, likely promotes subsequent learning and memory outcomes. The current study investigated whether this extends to implicit forms of learning. A total of 85 healthy adults participated in the study. Resting state electroencephalography was first acquired from participants before they completed a serial reaction time task. On this task, participants implicitly learnt a visuospatial‐motor sequence. Permutation testing revealed a negative correlation between implicit sequence learning and resting state power in the upper theta band (6–7 Hz). That is, lower levels of resting state power in this frequency range were associated with superior levels of implicit sequence learning. This association was observed at midline‐frontal, right‐frontal and left‐posterior electrodes. Oscillatory activity in the upper theta band supports a range of top‐down processes including attention, inhibitory control and working memory, perhaps just for visuospatial information. Our results may be indicating that disengaging theta‐supported top‐down attentional processes improves implicit learning of visuospatial‐motor information that is embedded in sensory input. This may occur because the brain's sensitivity to this type of information is optimally achieved when learning is driven by bottom‐up processes. Moreover, the results of this study further demonstrate that resting state synchronised brain activity influences subsequent learning and memory.

Publisher

Wiley

Subject

General Neuroscience

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