Measuring Cognitive Flexibility with the Flexible Item Selection Task: From fMRI Adaptation to Individual Connectome Mapping

Cognitive flexibility, the ability to appropriately adjust behavior in a changing environment, has been challenging to operationalize and validate in cognitive neuroscience studies. Here, we investigate neural activation and directed functional connectivity underlying cognitive flexibility using an...

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Bibliographic Details
Published in:Journal of cognitive neuroscience 2020-06, Vol.32 (6), p.1026-1045
Main Authors: Dajani, Dina R., Odriozola, Paola, Winters, Melanie, Voorhies, Willa, Marcano, Selene, Baez, Adriana, Gates, Kathleen M., Dick, Anthony Steven, Uddin, Lucina Q.
Format: Article
Language:English
Subjects:
Brain mapping
Cognitive ability
Flexibility
Functional magnetic resonance imaging
Neural networks
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Summary:Cognitive flexibility, the ability to appropriately adjust behavior in a changing environment, has been challenging to operationalize and validate in cognitive neuroscience studies. Here, we investigate neural activation and directed functional connectivity underlying cognitive flexibility using an fMRI-adapted version of the Flexible Item Selection Task (FIST) in adults ( = 32, ages 19–46 years). The fMRI-adapted FIST was reliable, showed comparable performance to the computer-based version of the task, and produced robust activation in frontoparietal, anterior cingulate, insular, and subcortical regions. During flexibility trials, participants directly engaged the left inferior frontal junction, which influenced activity in other cortical and subcortical regions. The strength of intrinsic functional connectivity between select brain regions was related to individual differences in performance on the FIST, but there was also significant individual variability in functional network topography supporting cognitive flexibility. Taken together, these results suggest that the FIST is a valid measure of cognitive flexibility, which relies on computations within a broad corticosubcortical network driven by inferior frontal junction engagement.
ISSN:0898-929X
1530-8898
DOI:10.1162/jocn_a_01536