Neuroimaging‐derived phenotypes in the European Prevention of Alzheimer Dementia (EPAD) Cohort Study

Abstract

AbstractBackgroundNeuroimaging biomarkers in large‐scale multimodal studies have proven effective for early diagnosis. Image‐derived phenotypes (IDPs) are summary features derived from modalities such as magnetic resonance imaging (MRI). We provide an overview of the IDPs computed from the European Prevention of Alzheimer Dementia (EPAD) cohort study, a multi‐center European study including multimodal brain MRI.MethodBaseline data from the first 1500 participants of the EPAD LCS were included. The imaging protocol consists of core (3D‐T1w, 3D‐FLAIR, 2D‐T2w, 2D‐T2*), and advanced (resting‐state fMRI, SWI, diffusion MRI, and ASL) sequences. 3D‐T1w IDPs consisted of regional volumes derived from FreeSurfer v6.0 and the Learn Embeddings for Atlas Propagation (LEAP) segmentation pipelines and 3D‐FLAIR IDPs were white matter hyperintensity (WMH) volumes measured by Bayesian Model Selection (BaMoS). Mean functional connectivity of rs‐fMRI networks was extracted with FSL MELODIC and dual‐regression analyses. For diffusion‐weighted imaging, we used FSL TBSS to quantify 48 regional fractional anisotropy (FA) values according to the JHU atlas of white matter tracts. ExploreASL was used to calculate mean Cerebral blood flow (CBF) and spatial coefficient‐of‐variation (sCoV) from ASL images. To evaluate the biological relevance of IDPs, we assessed their relationship with non‐imaging phenotypes.ResultA total of 358 core and 119 advanced IDPs were derived. GM volume was inversely correlated with age, with stronger effects in medio‐temporal areas (Figure 1). Regional WMH volumetrics showed mostly frontal and parietal WM lesions that were associated with aging (Figure 2). Heterogeneous changes in within‐network functional connectivity were observed with older age, with mild differences between CDR 0 and 0.5 contrasts, mostly related to the default‐mode and frontoparietal networks (Figure 3). Age was also associated inversely with skeletonised FA values. Stronger reductions appeared in amyloid positive participants (Figure 4).ConclusionWe show the relevance of IDPs from the EPAD neuroimaging dataset. The observed relationships with non‐imaging phenotypes confirm their biological relevance and are in agreement with previous studies. The proposed IDP framework may constitute a valuable resource for researchers using EPAD data, promoting reproducibility of results and easily adaptable for other studies and cohorts.