Amyloid and Tau Prediction of Cognitive and Functional Decline in Unimpaired Older Individuals: Longitudinal Data from the A4 and LEARN Studies - 21/11/24
, M.C. Donohue 2, R.A. Rissman 2, K.A. Johnson 3, D.M. Rentz 1, J.D. Grill 4, J.L. Heidebrink 5, C. Jenkins 2, G. Jimenez-Maggiora 2, O. Langford 2, A. Liu 2, R. Raman 2, R. Yaari 6, K.C. Holdridge 6, J.R. Sims 6, P.S. Aisen 2A4 and LEARN Study Teams
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Abstract |
Background |
Converging evidence suggests that markers of Alzheimer’s disease (AD) pathology in cognitively unimpaired older individuals are associated with high risk of cognitive decline and progression to functional impairment. The Anti-Amyloid Treatment in Asymptomatic Alzheimer’s disease (A4) and Longitudinal Evaluation of Amyloid and Neurodegeneration Risk (LEARN) Studies enrolled a large cohort of cognitively normal older individuals across a range of baseline amyloid PET levels. Recent advances in AD blood-based biomarkers further enable the comparison of baseline markers in the prediction of longitudinal clinical outcomes.
Objectives |
We sought to evaluate whether biomarker indicators of higher levels of AD pathology at baseline predicted greater cognitive and functional decline, and to compare the relative predictive power of amyloid PET imaging, tau PET imaging, and a plasma P-tau217 assay.
Design |
All participants underwent baseline amyloid PET scan, plasma P-tau217; longitudinal cognitive testing with the Primary Alzheimer Cognitive Composite (PACC) every 6 months; and annual functional assessments with the clinical dementia rating (CDR), cognitive functional index (CFI), and activities of daily living (ADL) scales. Baseline tau PET scans were obtained in a subset of participants. Participants with elevated amyloid (Aβ+) on screening PET who met inclusion/exclusion criteria were randomized to receive placebo or solanezumab in a double-blind phase of the A4 Study over 240+ weeks. Participants who did not have elevated amyloid (Aβ−) but were otherwise eligible for the A4 Study were referred to the companion observational LEARN Study with the same outcome assessments over 240+ weeks.
Setting |
The A4 and LEARN Studies were conducted at 67 clinical trial sites in the United States, Canada, Japan and Australia.
Participants |
Older participants (ages 65–85) who were cognitively unimpaired at baseline (CDR-GS=0, MMSE 25–30 with educational adjustment, and Logical Memory scores within the normal range LMIIa 6–18) were eligible to continue in screening. Aβ+ participants were randomized to either placebo (n=583) or solanezumab (n=564) in the A4 Study. A subset of Aβ+ underwent tau PET imaging in A4 (n=350). Aβ− were enrolled into the LEARN Study (n=553).
Measurements |
Baseline 18-F Florbetapir amyloid PET, 18-F Flortaucipir tau PET in a subset and plasma P-tau217 with an electrochemiluminescence (ECL) immunoassay were evaluated as predictors of cognitive (PACC), and functional (CDR, CFI and ADL) change. Models were evaluated to explore the impact of baseline tertiles of amyloid PET and tertiles of plasma P-tau217 on cognitive and functional outcomes in the A4 Study compared to LEARN. Multivariable models were used to evaluate the unique and common variance explained in longitudinal outcomes based on baseline predictors, including effects for age, gender, education, race/ethnic group, APOEε4 carrier status, baseline PACC performance and treatment assignment in A4 participants (solanezumab vs placebo).
Results |
Higher baseline amyloid PET CL and P-tau217 levels were associated with faster rates of PACC decline, and increased likelihood of progression to functional impairment (CDR 0.5 or higher on two consecutive measurements), both across LEARN Aβ− and A4 Aβ+ (solanezumab and placebo arms). In analyses considering all baseline predictor variables, P-tau217 was the strongest predictor of PACC decline. Among participants in the highest tertiles of amyloid PET or P-tau217, >50% progressed to CDR 0.5 or greater. In the tau PET substudy, neocortical tau was the strongest predictor of PACC decline, but plasma P-tau217 contributed additional independent predictive variance in commonality variance models.
Conclusions |
In a large cohort of cognitively unimpaired individuals enrolled in a Phase 3 clinical trial and companion observational study, these findings confirm that higher baseline levels of amyloid and tau markers are associated with increased rates of cognitive decline and progression to functional impairment. Interestingly, plasma P-tau217 was the best predictor of decline in the overall sample, superior to baseline amyloid PET. Neocortical tau was the strongest predictor of cognitive decline in the subgroup with tau PET, suggesting that tau deposition is most closely linked to clinical decline. These findings indicate that biomarkers of AD pathology are useful to predict decline in an older asymptomatic population and may prove valuable in the selection of individuals for disease-modifying treatments.
Il testo completo di questo articolo è disponibile in PDF.Key words : Amyloid, tau, imaging, biomarkers, cognitive decline
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| Authors contributed equally to this work Research in context 1. Systematic Review: Amyloid and tau PET imaging and plasma biomarkers of AD pathology are increasingly used to identify older individuals in the preclinical stages of AD for observational studies and clinical trials. We searched the literature for studies that have utilized these markers to predict cognitive decline in cohorts of cognitively unimpaired individuals. We sought to assess the value of these imaging and plasma markers to predict cognitive and functional decline across the LEARN and A4 cohorts, with the full range from Aβ− to Aβ+, and within the A4 Study alone, as the largest cohort of cognitively unimpaired Aβ+ individuals with standardized longitudinal outcome measures. 2. Interpretation: We found that higher levels of AD biomarkers, amyloid PET, plasma P-tau217, and neocortical tau PET, were strongly predictive of cognitive and functional decline. Plasma P-tau217 captured the greatest variance explained in the full LEARN and A4 sample, and both within the A4 treatment arms and across the full A4 cohort. Neocortical tau PET levels contributed the most variance explained in the A4 tau PET substudy. These findings confirm that higher levels of AD pathology in asymptomatic older individuals represent a preclinical stage of AD and are associated with strong likelihood of progression to symptomatic stages of AD. 3. Future Directions: Further work is needed to evaluate other variables, including markers of vascular disease and neurodegeneration, that may explain additional variance in cognitive and functional decline in older individuals. Additional studies in more representative cohorts, especially with greater diversity in race and ethnic groups, are needed to understand the generalizability of these findings. |
Vol 11 - N° 4
P. 802-813 - Agosto 2024 Ritorno al numero
Articolo precedente
- Introduction to the Special Issue on the A4 Study
- Paul Aisen, R. Sperling
- Characterizing Clinical Progression in Cognitively Unimpaired Older Individuals with Brain Amyloid: Results from the A4 Study
- Dorene M. Rentz, P.B. Rosenberg, R.A. Sperling, M.C. Donohue, R. Raman, A. Liu, P.S. Aisen, A4 study team
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