Wienke, Annika Susann and Basar-Eroglu, Canan and Schmiedt-Fehr, Christina and Mathes, Birgit (2018) Novelty N2-P3a Complex and Theta Oscillations Reflect Improving Neural Coordination Within Frontal Brain Networks During Adolescence. Frontiers in Behavioral Neuroscience, 12. ISSN 1662-5153
pubmed-zip/versions/1/package-entries/fnbeh-12-00218/fnbeh-12-00218.pdf - Published Version
Download (2MB)
Abstract
Adolescents are easily distracted by novel items than adults. Maturation of the frontal cortex and its integration into widely distributed brain networks may result in diminishing distractibility with the transition into young adulthood. The aim of this study was to investigate maturational changes of brain activity during novelty processing. We hypothesized that during adolescence, timing and task-relevant modulation of frontal cortex network activity elicited by novelty processing improves, concurrently with increasing cognitive control abilities. A visual novelty oddball task was utilized in combination with EEG measurements to investigate brain maturation between 8–28 years of age (n = 84). Developmental changes of the frontal N2-P3a complex and concurrent theta oscillations (4–7 Hz) elicited by rare and unexpected novel stimuli were analyzed using regression models. N2 amplitude decreased, P3a amplitude increased, and latency of both components decreased with age. Pre-stimulus amplitude of theta oscillations decreased, while inter-trial consistency, task-related amplitude modulation and inter-site connectivity of frontal theta oscillations increased with age. Targets, intertwined in a stimulus train with regular non-targets and novels, were detected faster with increasing age. These results indicate that neural processing of novel stimuli became faster and the neural activation pattern more precise in timing and amplitude modulation. Better inter-site connectivity further implicates that frontal brain maturation leads to global neural reorganization and better integration of frontal brain activity within widely distributed brain networks. Faster target detection indicated that these maturational changes in neural activation during novelty processing may result in diminished distractibility and increased cognitive control to pursue the task.
Item Type: | Article |
---|---|
Subjects: | Archive Paper Guardians > Medical Science |
Depositing User: | Unnamed user with email support@archive.paperguardians.com |
Date Deposited: | 18 Feb 2023 13:02 |
Last Modified: | 18 Sep 2023 11:50 |
URI: | http://archives.articleproms.com/id/eprint/160 |