Investigation of age-related changes in brain activity during the divalent task-switching paradigm using functional MRI

•Activation of the executive function increased with age.•Degree and pattern of activation depended on difficulty levels of the task.•Older showed increased spatial extent of activation in parietal regions not activated by the young.•This phenomenon might be useful for objectively assessing the infl...

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Bibliographic Details
Published in:Neuroscience research 2016-02, Vol.103, p.18-26
Main Authors: Kunimi, Mitsunobu, Kiyama, Sachiko, Nakai, Toshiharu
Format: Article
Language:English
Subjects:
Age Factors
Aged
Aging
Aging - physiology
Aging - psychology
Brain - physiology
Brain Mapping
Cognition
Executive Function - physiology
Female
Functional magnetic resonance imaging
Humans
Magnetic Resonance Imaging
Middle Aged
Pregnancy
Task load
Task Performance and Analysis
Task-switching paradigm
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Summary:•Activation of the executive function increased with age.•Degree and pattern of activation depended on difficulty levels of the task.•Older showed increased spatial extent of activation in parietal regions not activated by the young.•This phenomenon might be useful for objectively assessing the influence of aging. This study compared the brain activation of young and older subjects during the use of the task-switching paradigm (TSP) at various task speeds to examine the relationship between task load and brain activation. Specifically, it attempted to examine whether the task load-dependent BOLD response gradient is a useful tool for functional magnetic resonance imaging-based assessments of age-related changes in cognitive function. We predicted that the extent of the activation of the brain regions responsible for task-set reconfiguration and the inhibition of task switching functions induced during the performance of a TSP-based task would vary according to age. Task difficulty was controlled by altering the inter-stimulus interval. Although similar brain regions were activated in both age groups, significant differences in the extent of the activation were detected between the young and older groups. In particular, some regions were activated in the older group, but not the young group. This study indicated that TSP-based task performance-induced activation of the brain regions linked to executive function increases with age and that the degree and pattern of such activation depend on the content and difficulty of the task being performed. This indicates that the age- and task difficulty-dependent augmentation of brain activation varies between brain regions.
ISSN:0168-0102
1872-8111
DOI:10.1016/j.neures.2015.06.011