Predicting Brain-age from Multimodal Imaging Data Captures Cognitive Impairment

Overview

Journal Neuroimage

Specialty Radiology

Date 2016 Nov 29

PMID 27890805

Citations 209

Authors

Franziskus Liem

Gael Varoquaux

Jana Kynast

Frauke Beyer

Shahrzad Kharabian Masouleh

Julia M Huntenburg

Leonie Lampe

Mehdi Rahim

Alexandre Abraham

R Cameron Craddock

Steffi Riedel-Heller

Tobias Luck

Markus Loeffler

Matthias L Schroeter

Anja Veronica Witte

Arno Villringer

Daniel S Margulies

Affiliations

Soon will be listed here.

Abstract

The disparity between the chronological age of an individual and their brain-age measured based on biological information has the potential to offer clinically relevant biomarkers of neurological syndromes that emerge late in the lifespan. While prior brain-age prediction studies have relied exclusively on either structural or functional brain data, here we investigate how multimodal brain-imaging data improves age prediction. Using cortical anatomy and whole-brain functional connectivity on a large adult lifespan sample (N=2354, age 19-82), we found that multimodal data improves brain-based age prediction, resulting in a mean absolute prediction error of 4.29 years. Furthermore, we found that the discrepancy between predicted age and chronological age captures cognitive impairment. Importantly, the brain-age measure was robust to confounding effects: head motion did not drive brain-based age prediction and our models generalized reasonably to an independent dataset acquired at a different site (N=475). Generalization performance was increased by training models on a larger and more heterogeneous dataset. The robustness of multimodal brain-age prediction to confounds, generalizability across sites, and sensitivity to clinically-relevant impairments, suggests promising future application to the early prediction of neurocognitive disorders.

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