Onset ages of cerebrovascular disease and amyloid and effects on cognition in risk-enriched cohorts Article Swipe

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Biomarker Disease Cognitive decline Hyperintensity Cognition Alzheimer's disease Age of onset Psychology Abnormality Internal medicine Oncology Medicine Audiology Neuroscience Psychiatry Biology Magnetic resonance imaging Dementia Radiology Biochemistry

Lianlian Du , Elizabeth M. Planalp , Tobey J. Betthauser , Erin M. Jonaitis , Bruce P. Hermann , Leonardo A. Rivera‐Rivera , Karly Alex Cody , Nathaniel A. Chin , Robert V. Cadman , Kevin M. Johnson , Aaron S. Field , Howard A. Rowley , Kimberly D. Mueller , Sanjay Asthana , Laura Eisenmenger , Bradley T. Christian , Sterling C. Johnson , Rebecca E. Langhough ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.1093/braincomms/fcaf158 · OA: W4409591309

The temporal relationship between cerebrovascular disease (V), indicated by white matter hyperintensities, and beta-amyloid (A) in Alzheimer’s disease remains unclear, prompting speculation about their potential interdependence. Longitudinal data were employed to estimate onset ages and corresponding disease chronicity for A and V (where disease chronicity is calculated as age at measurement minus estimated age of biomarker abnormality onset). In a large, predominantly cognitively unimpaired dataset (n = 877, ages 43–93 years), a V+ threshold was identified, and Sampled Iterative Local Approximation (SILA) was utilized to illustrate the predictable accumulation trajectory of V post-onset. Investigating the temporal association between A and V onset ages and accumulation trajectories in preclinical years, four operationalizations of time were examined across two initially cognitively unimpaired samples (n = 240 primary sample from Wisconsin Registry for Alzheimer’s Prevention; n = 123 replication sample from Wisconsin Alzheimer’s Disease Research Center): (i) chronological age, (ii) estimated V+ chronicity, (iii) years since baseline scan, and (iv) estimated A+ chronicity. Results indicated that while both diseases are age-related, their onsets and trajectories are independent of each other. In addition, results indicated that V and A accumulation trajectories were highly predictable relative to onset of positivity for each biomarker. Cognitive decline across multiple cognitive domains was fastest when both V and A were present based on last available amyloid PET and MRI scan, with greater A chronicity being a more salient predictor of cognitive decline in these samples.