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Cognitive control, interference inhibition, and ordering of information during working memory in younger and older healthy adults
Author(s) -
Mina Mirjalili,
Reza Zomorrodi,
Zafiris J. Daskalakis,
Sean Hill,
Sanjeev Kumar,
Daniel M. Blumberger,
Corinne E. Fischer,
Alastair J. Flint,
Nathan Herrmann,
Krista L. Lanctôt,
Linda Mah,
Benoit H. Mulsant,
Bruce G. Pollock,
Tarek K. Rajji
Publication year - 2022
Publication title -
geroscience
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.883
H-Index - 63
eISSN - 2509-2715
pISSN - 2509-2723
DOI - 10.1007/s11357-022-00577-5
Subject(s) - stimulus (psychology) , working memory , psychology , cognition , audiology , electroencephalography , effects of sleep deprivation on cognitive performance , event related potential , developmental psychology , neuroscience , cognitive psychology , medicine
Investigating effects of aging on neurophysiological mechanisms underlying working memory provides a better understanding of potential targets for brain intervention to prevent cognitive decline. Theta-gamma coupling (TGC) indexes the ability to order information processed during working memory tasks. Frontal theta event-related synchronization (ERS) and parietal alpha event-related desynchronization (ERD) index cognitive control and interference inhibition, respectively. Relative contributions of TGC, theta ERS, and alpha ERD in relation to stimulus presentation are not characterized. Further, differential effect of normal aging on pre- or post-stimulus processes is unknown. Electroencephalography was recorded in 66 younger and 41 older healthy participants while performing 3-back working memory task. We assessed relationships between 3-back task performance and each of post-stimulus TGC, pre-stimulus parietal alpha ERD, and pre-stimulus frontal theta ERS in each age group. While older adults performed worse on 3-back task than younger adults, TGC, alpha ERD, or theta ERS did not differ between the two groups. TGC was positively associated with 3-back performance in both age groups; pre-stimulus alpha ERD was associated with performance among younger adults; and pre-stimulus theta ERS was not associated with performance in either group. Our findings suggest that both pre-stimulus interference inhibition and post-stimulus ordering of information are important for working memory in younger adults. In contrast, performance in older adults appears to depend only on post-stimulus ordering of information. These specific contributions of neurophysiological resources may explain the poorer performance of older adults and suggest different targets to enhance working memory in age groups.

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