Fatness but not Fitness Linked to BrainAge: Longitudinal Changes in Brain Aging during an Exercise Intervention

Fatness but not Fitness Linked to BrainAge: Longitudinal Changes in Brain Aging during an Exercise Intervention

Fitness, physical activity, body composition, and sleep have all been proposed to explain differences in brain health. We hypothesized that an exercise intervention would result in improved fitness and body composition and would be associated with improved structural brain health. In a randomized co...

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Bibliographic Details
Published in:Medicine and science in sports and exercise Vol. 56; no. 4; pp. 655 - 662
Main Authors: Wing, David, Eyler, Lisa T, Lenze, Eric J, Wetherell, Julie Loebach, Nichols, Jeanne F, Meeusen, Romain, Godino, Job, Shimony, Joshua S, Snyder, Abraham Z, Nishino, Tomoyuki, Nicol, Ginger E, Nagels, Guy, Roelands, Bart
Format: Journal Article
Language:English
Published: United States 01-04-2024
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Summary:Fitness, physical activity, body composition, and sleep have all been proposed to explain differences in brain health. We hypothesized that an exercise intervention would result in improved fitness and body composition and would be associated with improved structural brain health. In a randomized controlled trial we studied 485 older adults who engaged in an exercise intervention (n = 225) or a non-exercise comparison condition (n = 260). Using MRI, we estimated the physiological age of the brain (BrainAge) and derived a predicted age difference compared to chronological age (BrainPAD). Aerobic capacity, physical activity, sleep, and body composition were assessed and their impact on BrainPAD explored. There were no significant difference between experimental groups for any variable at any timepoint. The intervention group gained fitness, improved body composition, and increased total sleep time but did not have significant changes in BrainPAD. Analyses of changes in BrainPAD independent of group assignment indicated significant associations with changes in body fat percentage (r(479) = 0.154, p = 0.001), and visceral adipose tissue (VAT) (r(478) = 0.141, p = 0.002), but not fitness (r(406) = -0.075, p = 0.129), sleep (r(467) range -0.017 to 0.063, p range 0.171 to 0.710), or physical activity (r(471) = -0.035 p = 0.444). With linear regression, changes in body fat percentage and VAT significantly predicted changes in BrainPAD (β = 0.948, p = 0.003) with one kg change in VAT predicting 0.948 years change in BrainPAD. In cognitively normal older adults, exercise did not appear to impact BrainPAD, although it was effective in improving fitness and body composition. Changes in body composition, but not fitness, physical activity, or sleep impacted BrainPAD. These findings suggest that focus on weight control, particularly reduction of central obesity, could be an interventional target to promote healthier brains.
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ISSN:0195-9131
1530-0315
DOI:10.1249/MSS.0000000000003337