Volume of β-bursts, but not their rate, predicts successful response inhibition
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2021Access:
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Nadja Enz, Kathy L. Ruddy, Laura M. Rueda-Delgado, Robert Whelan, Volume of β-bursts, but not their rate, predicts successful response inhibition, The Journal of Neuroscience, 2021Download Item:
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In humans, impaired response inhibition is characteristic of a wide range of psychiatric diseases and of normal aging. It is hypothesised that the right inferior frontal cortex plays a key role by inhibiting the motor cortex via the basal ganglia.The electroencephalography-derived β-rhythm (15-29Hz) is thought to reflect communication within this network, with increased right frontal β-power often observed prior to successful response inhibition.Recent literature suggests that averaging spectral power obscures the transient,burst-like nature of β-activity. There is evidence that the rate of β-bursts following a Stop signal is higher when a motor response is successfully inhibited. However, other characteristics of β-burst events, and their topographical properties, have not yet been examined. Here, we used a large human (male and female) electroencephalography Stop Signal Task dataset (n=218) to examine averaged normalised β-power, β-burst rate and β-burst ‘volume’ (which we defined as burst duration x frequency span x amplitude). We first sought to optimise the β-burst detection method. In order to find predictors across the whole scalp, and with high temporal precision, we then used machine learning to (1) classify successful vs.failed stopping and to (2) predict individual Stop Signal Reaction Time. β-Burst volume was significantly more predictive of successful and fast stopping than β-burst rate and normalised β-power. The classification model generalised to an external dataset (n=201). We suggest β-burst volume is a sensitive and reliable measure for investigation of human response inhibition.
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http://people.tcd.ie/enznahttp://people.tcd.ie/whelanr3
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IN_PRESS
Author: Enz, Nadja; Whelan, Robert
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The Journal of NeuroscienceAvailability:
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10.1523/JNEUROSCI.2231-20.2021Metadata
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