Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5624184 | Alzheimer's & Dementia | 2012 | 5 Pages |
BackgroundThe possibility that É4 may modulate the effects of fitness in the brain remains controversial. The present exploratory FDG-PET study aimed to better understand the relationship among É4, fitness, and cerebral metabolism in 18 healthy aged women (nine carriers, nine noncarriers) during working memory.MethodsParticipants were evaluated using maximal level of oxygen consumption, California Verbal Learning Test, and FDG-PET, which were collected at rest and during completion of the Sternberg working memory task.ResultsResting FDG-PET did not differ between carriers and noncarriers. Significant effects of fitness on FDG-PET during working memory were noted in the É4 carriers only. High fit É4 carriers had greater glucose uptake in the temporal lobe than the low fit É4 carriers, but low fit É4 carriers had greater glucose uptake in the frontal and parietal lobes.ConclusionsWe demonstrate that fitness differentially affects cerebral metabolism in É4 carriers only, consistent with previous findings that the effects of fitness may be more pronounced in populations genetically at risk for cognitive decline.