Regional cerebral blood flow is associated with PET and plasma biomarkers of tau pathology in middle age

Abstract

AbstractBackgroundCerebrovascular dysfunction and vascular brain injury are associated with risk and progression of clinical Alzheimer’s disease (AD), but it is unclear whether they contribute directly to disease pathogenesis. Animal models of small vessel cerebrovascular disease suggest that transient cerebral hypoperfusion may promote tau pathology independent of amyloidosis. In the current study, we used pulsed arterial spin labeling (PASL) magnetic resonance imaging (MRI) to examine the association of regional cerebral blood flow (CBF) with two biomarkers of tau pathology, plasma phosphorylated tau 181 (ptau181) concentrations and PET MK6240 SUVR, in middle aged adult participants from the Offspring Study of Mechanisms for Racial Disparities in Alzheimer’s Disease.MethodAt the time of analysis, 469 Offspring Study participants (54.0±10.6‐years‐old; 64% women; 67% Latinx, 22% non‐Latinx Black, 6% non‐Latinx white) had available PASL and ptau181 plasma concentrations (Quanterix Simoa HDx platform). Sixty‐four participants (59.9±5.4‐years‐old age; 67% women; 64% Latinx, 22% non‐Latinx Black, 8% Latinx white) with PASL CBF data received tau PET imaging with MK6240 and mean SUVR was computed across all grey matter regions for each participant. Voxelwise correlational analyses were run to examine the relationship between ptau181 concentrations and regional CBF and between tau PET SUVR and regional CBF.ResultIncreased ptau181 concentrations were associated with clusters of decreased CBF in frontal grey matter, striatum, hippocampus, and periventricular white matter. These correlations were asymmetrical, with the largest clusters found in the left hemisphere. Higher PET SUVR was associated with clusters of lower CBF in frontal, parietal, and occipital grey matter.ConclusionThese findings demonstrate a codependency between regional blood flow and tau pathology, indexed by fluidic and imaging biomarkers. Future studies will clarify the directionality and possible causality of these associations, but these cross‐sectional findings are consistent with a hypothesis that subtle diminished blood flow gives rise to tau abnormalities.