Shared neural correlates of interference control and response inhibition in adolescence and young adulthood DOI Creative Commons
Lucy R. J. Palmer, Denis Mareschal, Iroise Dumontheil

et al.

Neuropsychologia, Journal Year: 2025, Volume and Issue: unknown, P. 109166 - 109166

Published: May 1, 2025

Inhibitory control (IC) is the ability to inhibit dominant or automatic behaviours, responses thoughts, allow for selection of appropriate goal-directed responses. IC a core executive function and has been associated with specific brain regions, such as right inferior frontal gyrus (IFG) but also broader fronto-parietal network similar multi-demand network, which thought support elaboration maintenance structured mental programs across range tasks. Here, functional magnetic resonance imaging data were collected from different tasks within same participants investigate similarities differences in activation between age groups. Adolescents (11-15 years-old, n = 34) adults (18-26, 33) completed numerical Stroop task simple complex Go/No-go (GNG) block-design Univariate analyses showed large overlapping GNG tasks, more limited task. When compared adolescents, greater increases IFG temporo-parietal precentral clusters High multivariate similarity was observed regions much lower Adults suggesting increased reliance on shared neural processes rather than specialisation networks aspects over development.

Language: Английский

Shared neural correlates of interference control and response inhibition in adolescence and young adulthood DOI Creative Commons
Lucy R. J. Palmer, Denis Mareschal, Iroise Dumontheil

et al.

Neuropsychologia, Journal Year: 2025, Volume and Issue: unknown, P. 109166 - 109166

Published: May 1, 2025

Inhibitory control (IC) is the ability to inhibit dominant or automatic behaviours, responses thoughts, allow for selection of appropriate goal-directed responses. IC a core executive function and has been associated with specific brain regions, such as right inferior frontal gyrus (IFG) but also broader fronto-parietal network similar multi-demand network, which thought support elaboration maintenance structured mental programs across range tasks. Here, functional magnetic resonance imaging data were collected from different tasks within same participants investigate similarities differences in activation between age groups. Adolescents (11-15 years-old, n = 34) adults (18-26, 33) completed numerical Stroop task simple complex Go/No-go (GNG) block-design Univariate analyses showed large overlapping GNG tasks, more limited task. When compared adolescents, greater increases IFG temporo-parietal precentral clusters High multivariate similarity was observed regions much lower Adults suggesting increased reliance on shared neural processes rather than specialisation networks aspects over development.

Language: Английский

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