OBJECTIVE: The aim of the study is to investigate effects of physical exertion on cognitive deficits from sleep loss under conditions that mimic a firefighting scenario. METHODS: Twenty-four male participants completed a crossover study design with 3 conditions: total sleep deprivation, sleep disruption (three 60-minute awakenings), and rested control. Participants then completed 50 minutes of a physical exertion task involving treadmill exercise in a heated room while wearing firefighter protective clothing. Vigilant attention and task-switching performance were assessed pre- and post-sleep manipulation and pre- and post-physical exertion. Vigilant attention was also assessed mid-physical exertion. RESULTS: Total sleep deprivation and sleep disruption increased attentional lapses and task-switching RT. Total sleep deprivation additionally reduced task-switching accuracy. Performance after physical exertion improved only for task-switching RT after total sleep deprivation. CONCLUSIONS: Physical exertion selectively mitigated task-switching RT deficits from the most severe sleep loss condition, total sleep deprivation.
OBJECTIVE: The aim of the study is to investigate effects of physical exertion on cognitive deficits from sleep loss under conditions that mimic a firefighting scenario. METHODS: Twenty-four male participants completed a crossover study design with 3 conditions: total sleep deprivation, sleep disruption (three 60-minute awakenings), and rested control. Participants then completed 50 minutes of a physical exertion task involving treadmill exercise in a heated room while wearing firefighter protective clothing. Vigilant attention and task-switching performance were assessed pre- and post-sleep manipulation and pre- and post-physical exertion. Vigilant attention was also assessed mid-physical exertion. RESULTS: Total sleep deprivation and sleep disruption increased attentional lapses and task-switching RT. Total sleep deprivation additionally reduced task-switching accuracy. Performance after physical exertion improved only for task-switching RT after total sleep deprivation. CONCLUSIONS: Physical exertion selectively mitigated task-switching RT deficits from the most severe sleep loss condition, total sleep deprivation.
Authors: Mary G Carey; Salah S Al-Zaiti; Grace E Dean; Loralee Sessanna; Deborah S Finnell Journal: J Occup Environ Med Date: 2011-08 Impact factor: 2.162
Authors: Mark R Rosekind; Kevin B Gregory; Melissa M Mallis; Summer L Brandt; Brian Seal; Debra Lerner Journal: J Occup Environ Med Date: 2010-01 Impact factor: 2.162