Longitudinal Blood Biomarker Trajectories in Preclinical Alzheimer’s Disease

Abstract

AbstractBackgroundBlood‐biomarkers of Alzheimer’s disease (AD) pathology have been investigated cross‐sectionally in heterogenous AD cohorts and have been shown to detect underlying AD pathology, even at preclinical stages. However, longitudinal studies, including serial blood‐biomarker measurements, are needed to better understand whether these markers could help monitor disease progression. We aimed to assess blood‐biomarkers temporal trajectories in cognitively unimpaired older adults at different pathological stages as assessed by positron emission tomography (PET). This may provide insight into dynamic changes of these biomarkers beginning prior to abnormality on PET.MethodWe included a subset of 126 cognitively unimpaired older adults from the Prevent‐AD cohort. Blood was drawn from baseline up to four‐year follow‐up visits. We measured Aβ42/Aβ40 ratio, pTau181 and pTau231 using novel single molecular array (Simoa). All participants completed Aβ (18F‐NAV4694) and tau (18F‐flortaucipir) PET scans, which were mostly performed at the latest blood collection timepoint. Aβ positivity was defined by global neocortical Aβ‐PET retention (SUVR cut‐off = 1.29), and tau‐PET positivity by entorhinal cortex flortaucipir binding (SUVR cut‐off = 1.23). Using these thresholds, 82 subjects were classified as A‐T‐, 29 as A+T‐, and 15 as A+T+. Linear mixed effects models were used to assess differences in the longitudinal rate of change in plasma biomarkers between the groups.ResultAmyloid‐PET‐positive individuals showed elevated levels of pTau181, and pTau231 and lower levels of Aβ42/40 when compared with amyloid‐PET‐negative participants. Plasma pTau181 levels showed a greater increase over time in the A+T+ group when compared with the A‐T‐ group (p = 0.01; Figure 1). Overall, the A+T‐ and A+T+ groups had lower levels of plasma Aβ42/40 compared with the A‐T‐ group (p = 0.05, p = 0.0189; Figure 2), and the A+T‐ group had higher pTau231 compared with A‐T‐ participants (p = 0.0006; Figure 3). Longitudinal rate of change in Aβ42/40 and pTau231 did not differ between the groups.ConclusionWe observed increased pTau181 levels and rate of change in those with both amyloid and tau pathology on PET. The slopes between PET groups did not differ across time when using pTau231 and Aβ biomarkers despite group differences in the overall level of pathology.