PURPOSE: Cognitive enhancements are associated with sport training. We extended the sport-cognition literature by using a realistic street crossing task to examine the multitasking and processing speed abilities of collegiate athletes and nonathletes. METHODS: Pedestrians navigated trafficked roads by walking on a treadmill in a virtual world, a challenge that requires the quick and simultaneous processing of multiple streams of information. RESULTS: Athletes had higher street crossing success rates than nonathletes, as reflected by fewer collisions with moving vehicles. Athletes also showed faster processing speed on a computer-based test of simple reaction time, and shorter reaction times were associated with higher street crossing success rates. CONCLUSIONS: The results suggest that participation in athletics relates to superior street crossing multitasking abilities and that athlete and nonathlete differences in processing speed may underlie this difference. We suggest that cognitive skills trained in sport may transfer to performance on everyday fast-paced multitasking abilities.
PURPOSE: Cognitive enhancements are associated with sport training. We extended the sport-cognition literature by using a realistic street crossing task to examine the multitasking and processing speed abilities of collegiate athletes and nonathletes. METHODS: Pedestrians navigated trafficked roads by walking on a treadmill in a virtual world, a challenge that requires the quick and simultaneous processing of multiple streams of information. RESULTS: Athletes had higher street crossing success rates than nonathletes, as reflected by fewer collisions with moving vehicles. Athletes also showed faster processing speed on a computer-based test of simple reaction time, and shorter reaction times were associated with higher street crossing success rates. CONCLUSIONS: The results suggest that participation in athletics relates to superior street crossing multitasking abilities and that athlete and nonathlete differences in processing speed may underlie this difference. We suggest that cognitive skills trained in sport may transfer to performance on everyday fast-paced multitasking abilities.
Authors: Laura Chaddock; Kirk I Erickson; Ruchika Shaurya Prakash; Matt VanPatter; Michelle W Voss; Matthew B Pontifex; Lauren B Raine; Charles H Hillman; Arthur F Kramer Journal: Dev Neurosci Date: 2010-08-06 Impact factor: 2.984
Authors: Paul E Dux; Michael N Tombu; Stephenie Harrison; Baxter P Rogers; Frank Tong; René Marois Journal: Neuron Date: 2009-07-16 Impact factor: 17.173
Authors: David A Raichlen; Pradyumna K Bharadwaj; Megan C Fitzhugh; Kari A Haws; Gabrielle-Ann Torre; Theodore P Trouard; Gene E Alexander Journal: Front Hum Neurosci Date: 2016-11-29 Impact factor: 3.169