Journal
NEUROLOGY
Volume 78, Issue 6, Pages 387-395Publisher
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1212/WNL.0b013e318245d295
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Funding
- NIH, Alzheimer's Association [5R37AG-006265-25, 3R37AG-006265-25S1, IIRG-09-135087]
- NIH [5R37AG-006265-25, 3R37AG-006265-25S1, P30 AG12300]
- Alzheimer's Association [IIRG-09-135087]
- NIA [1K99-AG-036848-1]
- NIH/NIA
- Avid Radiopharmaceuticals, Inc.
- NIH (NIA, NIDRR, NIDA)
- US Department of Education
- Alzheimer's Association
- NIH/NIDRR
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Objective: Several lines of evidence suggest that pathologic changes underlying Alzheimer disease (AD) begin years prior to the clinical expression of the disease, underscoring the need for studies of cognitively healthy adults to capture these early changes. The overall goal of the current study was to map the cortical distribution of beta-amyloid (A beta) in a healthy adult lifespan sample (aged 30-89), and to assess the relationship between elevated amyloid and cognitive performance across multiple domains. Methods: A total of 137 well-screened and cognitively normal adults underwent A beta PET imaging with radiotracer F-18-florbetapir. A beta load was estimated from 8 cortical regions. Participants were genotyped for APOE and tested for processing speed, working memory, fluid reasoning, episodic memory, and verbal ability. Results: A beta deposition is distributed differentially across the cortex and progresses at varying rates with age across cortical brain regions. A subset of cognitively normal adults aged 60 and over show markedly elevated deposition, and also had a higher rate of APOE epsilon 4 (38%) than nonelevated adults (19%). A beta burden was linked to poorer cognitive performance on measures of processing speed, working memory, and reasoning. Conclusions: Even in a highly selected lifespan sample of adults, A beta deposition is apparent in some adults and is influenced by APOE status. Greater amyloid burden was related to deleterious effects on cognition, suggesting that subtle cognitive changes accrue as amyloid progresses. Neurology (R) 2012; 78: 387-395
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