UNLABELLED: Increased aerobic fitness is associated with improved cognition, brain health, and academic achievement during preadolescence. PURPOSE: In this study, we extended these findings by examining the relationship between aerobic fitness and an everyday real-world task: street crossing. Because street crossing can be a dangerous multitask challenge and is a leading cause of injury in children, it is important to find ways to improve pedestrian safety. METHODS: A street intersection was modeled in a virtual environment, and higher-fit (n = 13, 7 boys) and lower-fit (n = 13, 5 boys) 8- to 10-yr-old children, as determined by V˙O(2max) testing, navigated trafficked roads by walking on a treadmill that was integrated with an immersive virtual world. Child pedestrians crossed the street while undistracted, listening to music, or conversing on a hands-free cellular phone. RESULTS: Cell phones impaired street crossing success rates compared with the undistracted or music conditions for all participants (P = 0.004), a result that supports previous research. However, individual differences in aerobic fitness influenced these patterns (fitness × condition interaction, P = 0.003). Higher-fit children maintained street crossing success rates across all three conditions (paired t-tests, all P > 0.4), whereas lower-fit children showed decreased success rates when on the phone, relative to the undistracted (P = 0.018) and music (P = 0.019) conditions. CONCLUSIONS: The results suggest that higher levels of childhood aerobic fitness may attenuate the impairment typically associated with multitasking during street crossing. It is possible that superior cognitive abilities of higher-fit children play a role in the performance differences during complex real-world tasks.
UNLABELLED: Increased aerobic fitness is associated with improved cognition, brain health, and academic achievement during preadolescence. PURPOSE: In this study, we extended these findings by examining the relationship between aerobic fitness and an everyday real-world task: street crossing. Because street crossing can be a dangerous multitask challenge and is a leading cause of injury in children, it is important to find ways to improve pedestrian safety. METHODS: A street intersection was modeled in a virtual environment, and higher-fit (n = 13, 7 boys) and lower-fit (n = 13, 5 boys) 8- to 10-yr-old children, as determined by V˙O(2max) testing, navigated trafficked roads by walking on a treadmill that was integrated with an immersive virtual world. Child pedestrians crossed the street while undistracted, listening to music, or conversing on a hands-free cellular phone. RESULTS: Cell phones impaired street crossing success rates compared with the undistracted or music conditions for all participants (P = 0.004), a result that supports previous research. However, individual differences in aerobic fitness influenced these patterns (fitness × condition interaction, P = 0.003). Higher-fit children maintained street crossing success rates across all three conditions (paired t-tests, all P > 0.4), whereas lower-fit children showed decreased success rates when on the phone, relative to the undistracted (P = 0.018) and music (P = 0.019) conditions. CONCLUSIONS: The results suggest that higher levels of childhood aerobic fitness may attenuate the impairment typically associated with multitasking during street crossing. It is possible that superior cognitive abilities of higher-fit children play a role in the performance differences during complex real-world tasks.
Authors: Joseph E Donnelly; Charles H Hillman; Darla Castelli; Jennifer L Etnier; Sarah Lee; Phillip Tomporowski; Kate Lambourne; Amanda N Szabo-Reed Journal: Med Sci Sports Exerc Date: 2016-06 Impact factor: 5.411
Authors: Elizabeth E O'Neal; Yuanyuan Jiang; Lucas J Franzen; Pooya Rahimian; Junghum Paul Yon; Joseph K Kearney; Jodie M Plumert Journal: J Exp Psychol Hum Percept Perform Date: 2017-04-20 Impact factor: 3.332
Authors: Laura Chaddock-Heyman; Kirk I Erickson; Michelle W Voss; Anya M Knecht; Matthew B Pontifex; Darla M Castelli; Charles H Hillman; Arthur F Kramer Journal: Front Hum Neurosci Date: 2013-03-12 Impact factor: 3.169