The Aging Brain and Executive Functions Revisited: Implications from Meta-analytic and Functional-Connectivity Evidence

Healthy aging is associated with changes in cognitive performance, including executive functions (EFs) and their associated brain activation patterns. However, it has remained unclear which EF-related brain regions are affected consistently, because the results of pertinent neuroimaging studies and...

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Veröffentlicht in:	Journal of cognitive neuroscience 2021-08, Vol.33 (9), p.1716-1752
Hauptverfasser:	Heckner, Marisa K., Cieslik, Edna C., Eickhoff, Simon B., Camilleri, Julia A., Hoffstaedter, Felix, Langner, Robert
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Age differences Aging Brain - diagnostic imaging Brain Mapping Cognitive ability Cortex (parietal) Executive Function Functional magnetic resonance imaging Humans Magnetic Resonance Imaging Meta-analysis Neural networks Neuroimaging Parietal Lobe
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creator	Heckner, Marisa K. Cieslik, Edna C. Eickhoff, Simon B. Camilleri, Julia A. Hoffstaedter, Felix Langner, Robert
description	Healthy aging is associated with changes in cognitive performance, including executive functions (EFs) and their associated brain activation patterns. However, it has remained unclear which EF-related brain regions are affected consistently, because the results of pertinent neuroimaging studies and earlier meta-analyses vary considerably. We, therefore, conducted new rigorous meta-analyses of published age differences in EF-related brain activity. Out of a larger set of regions associated with EFs, only left inferior frontal junction and left anterior cuneus/precuneus were found to show consistent age differences. To further characterize these two age-sensitive regions, we performed seed-based resting-state functional connectivity (RS-FC) analyses using fMRI data from a large adult sample with a wide age range. We also assessed associations of the two regions' whole-brain RS-FC patterns with age and EF performance. Although our results largely point toward a domain-general role of left inferior frontal junction in EFs, the pattern of individual study contributions to the meta-analytic results suggests process-specific modulations by age. Our analyses further indicate that the left anterior cuneus/precuneus is recruited differently by older (compared with younger) adults during EF tasks, potentially reflecting inefficiencies in switching the attentional focus. Overall, our findings question earlier meta-analytic results and suggest a larger heterogeneity of age-related differences in brain activity associated with EFs. Hence, they encourage future research that pays greater attention to replicability, investigates age-related differences in deactivation, and focuses on more narrowly defined EF subprocesses, combining multiple behavioral assessments with multimodal imaging.
doi_str_mv	10.1162/jocn_a_01616
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subjects	Adult Age differences Aging Brain - diagnostic imaging Brain Mapping Cognitive ability Cortex (parietal) Executive Function Functional magnetic resonance imaging Humans Magnetic Resonance Imaging Meta-analysis Neural networks Neuroimaging Parietal Lobe
title	The Aging Brain and Executive Functions Revisited: Implications from Meta-analytic and Functional-Connectivity Evidence
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