Multiscale functional connectivity patterns of the aging brain learned from harmonized rsfMRI data of the multi-cohort iSTAGING study.
Pubmed ID: 36731813
Pubmed Central ID: PMC9992322
Journal: NeuroImage
Publication Date: April 1, 2023
MeSH Terms: Humans, Adult, Aged, Aged, 80 and over, Cohort Studies, Aging, Middle Aged, Magnetic Resonance Imaging, Young Adult, Brain, Brain Mapping, Learning
Grants: R01 EB022573, R01 MH123550, R01 AG066650, U01 AG068057, RF1 AG054409, S10 OD023495, P30 AG072979
Authors: Fan Y, Davatzikos C, Erus G, Doshi J, Li H, Zhou Z, Srinivasan D, Abdulkadir A, Nasrallah IM, Wen J, Mamourian E, Bryan NR, Wolk DA, Beason-Held L, Resnick SM, Satterthwaite TD, Shou H
Cite As: Zhou Z, Li H, Srinivasan D, Abdulkadir A, Nasrallah IM, Wen J, Doshi J, Erus G, Mamourian E, Bryan NR, Wolk DA, Beason-Held L, Resnick SM, Satterthwaite TD, Davatzikos C, Shou H, Fan Y, ISTAGING Consortium. Multiscale functional connectivity patterns of the aging brain learned from harmonized rsfMRI data of the multi-cohort iSTAGING study. Neuroimage 2023 Apr 1;269:119911. Epub 2023 Jan 30.
Studies:
Abstract
To learn multiscale functional connectivity patterns of the aging brain, we built a brain age prediction model of functional connectivity measures at seven scales on a large fMRI dataset, consisting of resting-state fMRI scans of 4186 individuals with a wide age range (22 to 97 years, with an average of 63) from five cohorts. We computed multiscale functional connectivity measures of individual subjects using a personalized functional network computational method, harmonized the functional connectivity measures of subjects from multiple datasets in order to build a functional brain age model, and finally evaluated how functional brain age gap correlated with cognitive measures of individual subjects. Our study has revealed that functional connectivity measures at multiple scales were more informative than those at any single scale for the brain age prediction, the data harmonization significantly improved the brain age prediction performance, and the data harmonization in the functional connectivity measures' tangent space worked better than in their original space. Moreover, brain age gap scores of individual subjects derived from the brain age prediction model were significantly correlated with clinical and cognitive measures. Overall, these results demonstrated that multiscale functional connectivity patterns learned from a large-scale multi-site rsfMRI dataset were informative for characterizing the aging brain and the derived brain age gap was associated with cognitive and clinical measures.