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Mobile Electroencephalography Reveals Differences in Cortical Processing During Exercises With Lower and Higher Cognitive Demands in Preadolescent Children.

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PURPOSE The aim of this study was to examine whether cortical activity changes during exercise with increasing cognitive demands in preadolescent children. METHOD Twenty healthy children (8.75 [0.91] y) performed one… Click to show full abstract

PURPOSE The aim of this study was to examine whether cortical activity changes during exercise with increasing cognitive demands in preadolescent children. METHOD Twenty healthy children (8.75 [0.91] y) performed one movement game, which was conducted with lower and higher cognitive demands. During a baseline measurement and both exercise conditions, cortical activity was recorded using a 64-channel electroencephalographic system, and heart rate was assessed. Ratings of perceived excertion and perceived cognitive engagement were examined after each condition. To analyze power spectral density in the theta, alpha-1, and alpha-2 frequency bands, an adaptive mixture independent component analysis was used to determine the spatiotemporal sources of cortical activity, and brain components were clustered to identify spatial clusters. RESULTS One-way repeated-measures analyses of variance revealed significant main effects for condition on theta in the prefrontal cluster, on alpha-1 in the prefrontal, central, bilateral motor, bilateral parieto-occipital, and occipital clusters, and on alpha-2 in the left motor, central, and left parieto-occipital clusters. Compared with the lower cognitive demand exercise, cortical activity was significantly higher in theta power in the prefrontal cluster and in alpha-1 power in the occipital cluster during the higher cognitive demand exercise. CONCLUSION The present study shows that exercise complexity seems to influence cortical processing as it increased with increasing cognitive demands.

Keywords: lower higher; higher cognitive; cognitive demands; demands preadolescent; preadolescent children; cortical activity

Journal Title: Pediatric exercise science
Year Published: 2023

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