Amyloid‐PET Centiloid quantification predicts cognitive functioning in a pre‐dementia population: findings from AMYPAD‐PNHS
David Vállez García, Lyduine E. Collij, Sophie E Mastenbroek, Isadora Lopes Alves, Juan Domingo Gispert, Frank Jessen, Craig W Ritchie, Mercè Boada Rovira, Marta Marquié, Rik Vandenberghe, Michael Schöll, Giovanni B Frisoni, Bernard J Hanseeuw, Pierre Payoux, Bruno Vellas, Bruno Dubois, Pablo Martinez‐Lage, Philip Scheltens, Mahnaz Shekari, Robin Wolz, Sylke Grootoonk, Andrew W. Stephens, Rossella Gismondi, Mark E Schmidt, Christopher Buckley, Lisa Ford, Pieter Jelle Visser, Gill Farrar, Frederik Barkhof- Psychiatry and Mental health
- Cellular and Molecular Neuroscience
- Geriatrics and Gerontology
- Neurology (clinical)
- Developmental Neuroscience
- Health Policy
- Epidemiology
Abstract
Background
The prevention of symptomatic Alzheimer’s disease (AD) is a major endeavor currently in the field, with the prevalence of subjects on the AD continuum (i.e. presence of amyloid‐ß [Aß] pathology) being much higher than previously estimated. However, the extent to which Aß pathology and its interaction with common risk factors in the aging population relates to disease progression is still limited. The AMYPAD Prognostic and Natural History Study (PNHS) aims to evaluate the value of amyloid‐PET for predicting AD‐related disease progression.
Method
A total of 1423 non‐demented subjects were included from the AMYPAD‐PNHS pan‐European cohort (17 sites across 10 Parent Cohorts), for who a baseline [18F]flutemetamol or [18F]florbetaben amyloid‐PET scans that passed quality control was available (Table‐1). Amyloid burden was assessed using the Centiloid (CL) method (whole cerebellum reference region). Independent linear mixed‐effect models were used to assess the predictive value of continuous CL, and its interaction with time, across cognitive domains: mini‐mental state examination (MMSE), memory, attention, language fluency, visuospatial, and executive functions. Years from baseline, age, sex, years of education, cognitive dementia rating (CDR), and APOE‐e4 were used as independent variables. Clinical follow‐up was 3.4 ± 1.8 years (up to ±10 years) on average.
Result
At baseline, 90% of the subjects were classified as cognitively unimpaired (CDR = 0). Based on CL, most subjects were categorized as amyloid‐negative (59%, 0±9CL), followed by grey‐zone (24%, 25±11CL), and amyloid‐positive (17%, 82±21CL). Baseline CL and its interaction with time were predictive of MMSE scores, memory, attention, and language fluency. Baseline CL, but not its interaction with time, was predictive of executive function. Finally, the interaction of baseline CL with time, but not its main effect, was predictive of visuospatial functioning (Figure‐1). Age and sex were significant contributors to nearly all models.
Conclusion
Higher baseline CL was associated with lower cognitive performance in all explored domains, suggesting that emerging cerebral amyloid accumulation in non‐demented individuals is predictive of overall cognitive function. Also, higher CL values were predictive of decline across cognitive domains, except for executive function. Further analysis is ongoing, including different confounding factors, longitudinal PET outcomes, and other biomarkers of the disease.