Children exhibited more widespread state-to-state modulations in EEG multiscale entropy between resting-state and task conditions compared to adults.
Cross-Sectional (n=40)
No
Does maturation from childhood to adulthood alter brain signal variability in healthy individuals?
Maturation from childhood to adulthood is characterized by increased local information processing and decreased long-range interactions, with children showing greater spatial extent of variability changes between brain states.
p-value: p=0.006
Increasing evidence suggests that brain signal variability is an important measure of brain function reflecting information processing capacity and functional integrity. In this study, we examined how maturation from childhood to adulthood affects the magnitude and spatial extent of state-to-state transitions in brain signal variability, and how this relates to cognitive performance. We looked at variability changes between resting-state and task (a symbol-matching task with three levels of difficulty), and within trial (fixation, post-stimulus, and post-response). We calculated variability with multiscale entropy (MSE), and additionally examined spectral power density (SPD) from electroencephalography (EEG) in children aged 8-14, and in adults aged 18-33. Our results suggest that maturation is characterized by increased local information processing (higher MSE at fine temporal scales) and decreased long-range interactions with other neural populations (lower MSE at coarse temporal scales). Children show MSE changes that are similar in magnitude, but greater in spatial extent when transitioning between internally- and externally-driven brain states. Additionally, we found that in children, greater changes in task difficulty were associated with greater magnitude of modulation in MSE. Our results suggest that the interplay between maturational and state-to-state changes in brain signal variability manifest across different spatial and temporal scales, and influence information processing capacity in the brain.
Szostakiwskyj et al. (Thu,) conducted a cross-sectional in Healthy (n=40). Symbol-matching task vs. Resting-state was evaluated on Modulation of EEG variability (Multiscale Entropy) between resting-state and task (p=0.006). Children exhibited more widespread state-to-state modulations in EEG multiscale entropy between resting-state and task conditions compared to adults.