Abstract

AbstractBackgroundFunctional connectivity (FC) between networks may be related to Aβ and tau interactions in preclinical Alzheimer’s disease (AD). Here, we investigated associations between inter‐network FC of early Aβ and tau‐seeded networks, APOEe4, global Aβ, and longitudinal tau accumulation in cognitively healthy older adults (OA).MethodVoxel‐wise PiB‐PET and FTP‐PET OA images were ordered by increasing pathology burden and iteratively compared to a reference set of young adult (YA) PET images. Peak voxels of the earliest significant differences were matched to Brainnetome ROIs and used to construct separate Aβ and tau‐seeded networks within a group average YA FC matrix (Figure 1). Next, the average inter‐network FC between all node pairs between the networks was calculated in OA (n = 60; aged 77.6±5.5). Longitudinal FTP slopes of the entorhinal cortex (EC) and inferior temporal gyrus (ITG) were estimated using linear mixed effects models. Linear regression was used to assess relationships between baseline inter‐network FC, APOEe4 status, baseline global PiB, and both a prior ROI and voxel‐wise FTP slopes.ResultIn all OA, inter‐network FC was not associated with baseline global PIB (t(58) = ‐0.23, p = 0.82), EC FTP slope (t(58) = 0.49, p = 0.63), or ITG FTP slope (t(58) = ‐1.45, p = 0.15). There was a significant interaction between baseline global PiB status and inter‐network FC where FC was negatively associated with ITG FTP slope in PiB+ participants (t(56) = ‐2.01, p = 0.04; Figure 2A). There was also a significant interaction between APOEe4 status and inter‐network FC in predicting ITG FTP slope with a negative relationship only in e4 carriers (t(56) = ‐3.19, p = 0.003; Figure 2B). Voxel‐wise analyses revealed significant negative relationships between inter‐network FC and FTP slope in the left fusiform gyrus and ITG in PiB+ participants and e4 carriers, respectively (Figure 2C‐D).ConclusionLower baseline inter‐network FC of early Aβ and tau‐seeded networks was associated with greater longitudinal tau accumulation outside of the medial temporal lobe (MTL) in cognitively normal OA with higher AD risk (i.e., elevated Aβ or APOEe4). Our results suggest that this network disruption is associated with faster rates of tau accumulation outside of the MTL, possibly reflecting a later stage in the preclinical progression to AD.

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