Chapter 3
Human Health and Performance Risks of Space Exploration Missions
Korth D, Leveton L, Dinges D. (2006) Slam shift figures summary [PowerPoint® slides]. Presented at the NASA Human Research Program Behavioral Health and Performance Element Programmatic Review, NASA Johnson Space Center, Houston.
Kronauer RE, Gunzelmann G, Van Dongen HPA, Doyle FJ, Klerman EB. (2007) Uncovering physiologic mechanisms of circadian rhythms and sleep/wake regulation through mathematical modeling. J. Biol. Rhythm., 22(3):233–245.
Landrigan CP, Rothschild JM, Cronin JW, Kaushal R, Burdick E, Katz JT, Lilly CM, Stone PH, Lockley SW, Bates DW, Czeisler CA. (2004) Effect of reducing interns' work hours on serious medical errors in intensive care unites. New Engl. J. Med., 351:1838–1848.
Leveton LB, Dinges DFD. (2006) The NASA behavioral health and performance evidence review. Presented at the NASA Human Research Program Behavioral Health and Performance Element Programmatic Review, NASA Johnson Space Center, Houston.
Lockley SW, Brainard GC, Czeisler CA. (2003) High sensitivity of the human circadian melatonin rhythm to resetting by short wavelength light. J. Clin. Endocrinol. Metab., 88(9):4502–4505.
Lockley SW, Cronin JW, Evans EE, Cade BE, Lee CJ, Landrigan CP, Rothschild JM, Katz JT, Lilly CM, Stone PH, Aeschbach D, Czeisler CA. (2004) Effect of reducing interns' weekly work hours on sleep and attentional failures. New Engl. J. Med., 351:1829–1837.
Lockley S.W. (2007). Safety considerations for the use of blue-light blocking glasses in shift-workers. J. Pineal Res., 42(2):210–211.
Mallis MM, Mejdal S, Nguyen TT, Dinges DF. (2004) Summary of the key features of seven biomathematical models of human fatigue and performance. Aviat. Space Environ. Med., 75(3, Section II):A4–A14.
Mallis MM, DeRoshia CW. (2005) Circadian rhythms, sleep, and performance in space. Aviat. Space Environ. Med., 76(6, Section II):B94–107.
Manzey D, Lorenz B. (1998) Mental performance during short-term and long-term spaceflight. Brain Res. Rev., 28:215–221.
Manzey D, Bernd L, Poljakov V. (1998) Mental performance in extreme environments: results from a performance monitoring study during a 438-day spaceflight. Ergonomics, 41(4):537–59.
Mollicone DJ, Van Dongen HPA, Dinges DF. (2007) Optimizing sleep/wake schedules in space: sleep during chronic nocturnal sleep restriction with and without diurnal naps. Acta Astronautica, 60(4-7):354–361.
Mollicone DJ, Van Dongen HPA, Dinges DF. (2008) Response surface mapping of neurobehavioral performance: testing the feasibility of split sleep schedules for space operations. Acta Astronautica, 63(7):833–840.
Monk TH, Kennedy KS, Rose LR, Linenger JM. (2001) Decreased human circadian pacemaker influence after 100 days in space: a case study. Psychosom. Med., 63:881–885.
Monk T, Billy BD, Kennedy K, Hoffman T, Willrich L, Rose L, Gharib C, Gauquelin G. (1998) Human sleep, circadian rhythms and performance in space. In: Life and microgravity spacelab (LMS) final report, NASA/CP206960. NASA Ames Research Center, Moffett Field, Calif.
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Risk of Performance Errors Due to Sleep Loss, Circadian Desynchronization, Fatigue, and Work Overload
