Cerebral metabolic and cognitive decline in persons at genetic risk for Alzheimer's disease

Gary W. Small; Linda M. Ercoli; Daniel Silverman; S.C. Huang; Scott Komo; Susan Y. Bookheimer; Helen Lavretsky; Karen J. Miller; Prabha Siddarth; Natalie Rasgon; John C. Mazziotta; Sanjaya Saxena; Hui‐Yuan Wu; Michael S. Mega; Jeffrey L. Cummings; Ann M. Saunders; Margaret A. Pericak‐Vance; Allen D. Roses; Jorge R. Barrio; Michael E. Phelps

doi:10.1073/pnas.090106797

Cerebral metabolic and cognitive decline in persons at genetic risk for Alzheimer's disease

Gary W. Small(Research Triangle Park Foundation), Linda M. Ercoli(Research Triangle Park Foundation), Daniel Silverman(Research Triangle Park Foundation), S.C. Huang(Research Triangle Park Foundation), Scott Komo(Research Triangle Park Foundation), Susan Y. Bookheimer(Research Triangle Park Foundation), Helen Lavretsky(Research Triangle Park Foundation), Karen J. Miller(Research Triangle Park Foundation), Prabha Siddarth(Research Triangle Park Foundation), Natalie Rasgon(Research Triangle Park Foundation), John C. Mazziotta(Research Triangle Park Foundation), Sanjaya Saxena(Research Triangle Park Foundation), Hui‐Yuan Wu(Research Triangle Park Foundation), Michael S. Mega(Research Triangle Park Foundation), Jeffrey L. Cummings(Research Triangle Park Foundation), Ann M. Saunders(Research Triangle Park Foundation), Margaret A. Pericak‐Vance(Research Triangle Park Foundation), Allen D. Roses(Research Triangle Park Foundation), Jorge R. Barrio(Research Triangle Park Foundation), Michael E. Phelps(Research Triangle Park Foundation)

Proceedings of the National Academy of Sciences

May 16, 2000

10.1073/pnas.090106797

Cited by 794Open Access

Abstract

The major known genetic risk for Alzheimer's disease (AD), apolipoprotein E-4 (APOE-4), is associated with lowered parietal, temporal, and posterior cingulate cerebral glucose metabolism in patients with a clinical diagnosis of AD. To determine cognitive and metabolic decline patterns according to genetic risk, we investigated cerebral metabolic rates by using positron emission tomography in middle-aged and older nondemented persons with normal memory performance. A single copy of the APOE-4 allele was associated with lowered inferior parietal, lateral temporal, and posterior cingulate metabolism, which predicted cognitive decline after 2 years of longitudinal follow-up. For the 20 nondemented subjects followed longitudinally, memory performance scores did not decline significantly, but cortical metabolic rates did. In APOE-4 carriers, a 4% left posterior cingulate metabolic decline was observed, and inferior parietal and lateral temporal regions demonstrated the greatest magnitude (5%) of metabolic decline after 2 years. These results indicate that the combination of cerebral metabolic rates and genetic risk factors provides a means for preclinical AD detection that will assist in response monitoring during experimental treatments.

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