Abstract
INTRODUCTION: Amyloid-induced tauopathy drives clinical decline in Alzheimer's disease (AD). Because age and sex shape tau trajectories, defining patient-centered amyloid thresholds for tauopathy onset could facilitate pre-tauopathy AD identification and aid treatment decisions and prognosis. METHODS: By including two samples (Alzheimer's Disease Neuroimaging Initiative [ADNI, n = 301]; and 18F-AV-1451-A05 [A05, n = 143]), we explored whether age and sex affect tauopathy transition and determined patient-centered amyloid positron emission tomography (PET) thresholds that mark tauopathy onset. RESULTS: We found a consistent amyloid PET × age interaction on global tau PET increase in men (ADNI/A05: p = 0.0078/0.018), with younger men showing faster amyloid-associated tau accumulation. We then established patient-centered, amyloid PET-inferred tauopathy transition cut-offs. Women reached this transition at lower amyloid PET levels, and these cutoffs predicted both earlier onset and accelerated cognitive decline (p < 0.001). DISCUSSION: This study highlights the effect of age and sex on the amyloid-to-tauopathy transition, establishes patient-centered amyloid PET thresholds for tauopathy onset, and links these thresholds to accelerated cognitive decline. HIGHLIGHTS: Younger age is related to faster amyloid-related tau accumulation in men. We defined a series of amyloid positron emission tomography (PET) thresholds to enable patient-centered inference of amyloid-related tauopathy. Crossing the amyloid PET-defined tauopathy phase is associated with more progressive tau deposition and cognitive decline.