Acute Exercise Improves Large-Scale Brain Network Segregation in Healthy Older Adults.

Abstract

Age-related cognitive decline and mental health problems are accompanied by changes in resting-state functional connectivity (rsFC) indices, such as reduced brain network segregation. Meanwhile, exercise can improve cognition, mood, and neural network function in older adults. Studies on effects of exercise on rsFC outcomes in older adults have chiefly focused on changes after exercise training and suggest improved network segregation via enhanced within-network connectivity. However, effects of acute exercise on rsFC measures of neural network integrity in older adults, which presumably underlie changes observed after exercise training, have received less attention. Here, we hypothesized that acute exercise in older adults would improve functional segregation of major cognition and affect-related brain networks. To test this, we analyzed rsFC data from 37 healthy and physically active older adults after they completed 30 minutes of moderate to vigorous intensity cycling and after they completed a seated rest control condition. Conditions were performed in a counterbalanced order across separate days in a within-subject crossover design. We considered large-scale brain networks associated with cognition and affect including the frontoparietal (FPN), salience (SAL), default mode (DMN), and affect-reward (ARN) networks. We observed that after acute exercise, there was greater segregation between SAL and DMN, as well as greater segregation between SAL and ARN. These findings indicate that acute exercise in active older adults alters rsFC measures in key cognition and affect-related networks in a manner that opposes age-related dedifferentiation of neural networks that may be detrimental to cognition and mental health.