Development of EEG alpha and theta oscillations in the maintenance stage of working memory
Date
2024Author
Huo, Shuting
Wang, Jie
Wong, Brian W. L.
Chun Wu, Ka
Mo, Jianhong
Maurer, Urs
Metadata
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Huo, S., Wang, J., Lam, T.K., Wong, B.W.L. , Wu, K.Ch., Mo, J., & Maurer, U. (2024). Development of EEG alpha and theta oscillations in the maintenance stage of working memory. Biological Psychology, 191:108824. Doi:10.1016/j.biopsycho.2024.108824
Biological Psychology
Biological Psychology
Abstract
Several studies have shown developmental changes in EEG oscillations during working memory tasks. Although the load-modulated theta and alpha activities in adults are well-documented, the findings are inconsistent if children possess the adult-like brain oscillations that are similarly modulated by memory load. The present study compares children’s and adults’ true theta and alpha EEG oscillations, separated from aperiodic components, in the maintenance stage of working memory. The EEG was recorded in 25 Chinese-speaking children (14 male, M =9.4 yrs) and 31 adults (19 male, M age =20.8 yrs) in Hong Kong while they performed an n-back task that included four conditions differing in load (1- vs. 2-back) and stimulus type (Chinese character vs. visual pattern). The results show that aperiodic activities (i.e., broadband power and slope) during the maintenance stage in the n-back task were significantly higher in children than adults. The periodic theta and alpha oscillations also changed with age. More importantly, adults showed significant periodic theta increase with memory load, whereas such an effect was absent in children. Regardless of age, there was a significant alpha power decrease with load increase, and a significant theta power enhancement when maintaining visual patterns than Chinese characters. In adults, load-modulated alpha peak shift (towards higher frequency) was linked to higher behavioral efficiency in the n-back task. In children, higher load-modulated theta enhancement was linked to better behavioral efficiency. The findings suggest that the load-modulated theta power during working memory maintenance matures from childhood to adulthood.