Exercise, APOE, and Working Memory: MEG and Behavioral Evidence for Benefit of Exercise in Epsilon4 Carriers

Performance on the Sternberg working memory task, and MEG cortical response on a variation of the Sternberg task were examined in middle-aged carriers and non-carriers of the APOE ε4 allele. Physical activity was also assessed to examine whether exercise level modifies the relationship between APOE genotype and neurocognitive function. Regression revealed that high physical activity was associated with faster RT in the six- and eight-letter conditions of the Sternberg in ε4 carriers, but not in the non-carriers after controlling for age, gender, and education (N = 54). Furthermore, the MEG analysis revealed that sedentary ε4 carriers exhibited lower right temporal lobe activation on matching probe trials relative to high-active ε4 carriers, while physical activity did not distinguish non-carriers (N = 23). The M170 peak was identified as a potential marker for pre-clinical decline as ε4 carriers exhibited longer M170 latency, and highly physically active participants exhibited greater M170 amplitude to matching probe trials

Cardiovascular Fitness is Associated with Altered Cortical Glucose Metabolism During Working Memory in ?4 Carriers

Background The possibility that ε4 may modulate the effects of fitness in the brain remains controversial. The present exploratory FDG-PET study aimed to better understand the relationship among ε4, fitness and cerebral metabolism in 18 healthy aged females (9 Carriers, 9 Non-carriers) during working memory. Methods Participants underwent VO2 max, CVLT and FDG-PET, collected at rest and during completion of the Sternberg Working Memory Task. Results Resting FDG-PET did not differ between carriers and non-carriers. Significant effects of fitness on FDG-PET during working memory was noted in the ε4 carriers only. High Fit ε4 carriers had greater glucose uptake than the Low Fit in the temporal lobe, but Low Fit had greater glucose uptake in the frontal and parietal lobes. Conclusion(s) We demonstrate that fitness differentially affects cerebral metabolism in ε4 carriers only, consistent with previous findings that the effects of fitness may be more pronounced in populations genetically at risk for cognitive decline

Cardiovascular Fitness is Associated with Altered Cortical Glucose Metabolism During Working Memory in ?4 Carriers

Background The possibility that ε4 may modulate the effects of fitness in the brain remains controversial. The present exploratory FDG-PET study aimed to better understand the relationship among ε4, fitness and cerebral metabolism in 18 healthy aged females (9 Carriers, 9 Non-carriers) during working memory. Methods Participants underwent VO2 max, CVLT and FDG-PET, collected at rest and during completion of the Sternberg Working Memory Task. Results Resting FDG-PET did not differ between carriers and non-carriers. Significant effects of fitness on FDG-PET during working memory was noted in the ε4 carriers only. High Fit ε4 carriers had greater glucose uptake than the Low Fit in the temporal lobe, but Low Fit had greater glucose uptake in the frontal and parietal lobes. Conclusion(s) We demonstrate that fitness differentially affects cerebral metabolism in ε4 carriers only, consistent with previous findings that the effects of fitness may be more pronounced in populations genetically at risk for cognitive decline