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References

  • Åkerstedt, T. and Gillberg, M. Subjective and objective sleepiness in the active individual. Int. J. Neurosci., 1990, 52: 2937.
  • Åkerstedt, T., Hume, K., Minors, D. and Waterhouse, J. The subjective meaning of good sleep – a intraindividual approach using the Karolinska Sleep Diary. Percep. Mot. Skills, 1994, 79: 287296.
  • Binks, P. G., Waters, W. F. and Hurry, M. Short-term total sleep deprivations does not selectively impair higher cortical functioning. Sleep, 1999, 22: 328334.
  • Burgess, P. W. and Shallice, T. Response suppression, initiation and strategy use following frontal lobe lesions. Neuropsychologia, 1996, 34: 263272.
  • Burgess, P. W., Alderman, N., Evans, J., Emslie, H. and Wilson, B. A. The ecological validity of tests of executive function. J. Int. Neuropsychol. Soc., 1998, 4: 547558.
  • Burgess, P. W., Veitch, E., de Lacy Costello, A. and Shallice, T. The cognitive and neuroanatomical correlates of multitasking. Neuropsychologia, 2000, 38: 848863.
  • Cajochen, C., Khalsa, S. B. S., Wyatt, J. K., Czeisler, C. A. and Dijk, D.-J. EEG and ocular correlates of circadian melatonin phase and human performance decrements during sleep loss. Am. Physiol. Soc., 1999, 277: R640R649.
  • Dinges, D. F. Probing the limits of functional capability: the effects of sleep loss on short-duration tasks. In: R. J.Broughton and R. D.Ogilvie (Eds) Sleep, Arousal, and Performance. Birkhauser, Boston, MA, 1992: 176188.
  • Dinges, D. F. and Barone Kribbs, N. Comparison of the effects of alcohol and sleepiness on simple reaction time performance: enhanced habituation as a common process. Alcohol Drugs Driving, 1992, 5: 329339.
  • Dinges, D. and Kribbs, N. Performing while sleepy: effects of experimentally induced sleepiness. In: T.Monk (Ed.) Sleep, Sleepiness and Performance. John Wiley & Sons Ltd, Chichester, UK, 1991: 97128.
  • Drummond, S. P. A. and Brown, G. G. The effects of total sleep deprivation on cerebral responses to cognitive performance. Neurophsychopharmacology, 2001, 25: S68S73.
  • Drummond, S. P. A., Brown, G. G., Stricker, J. L., Buxton, R. B., Wong, E. C. and Gillin, J. C. Sleep deprivation-induced reduction in cortical functional response to serial subtraction. Neuroreport, 1999, 10: 37453748.
  • Drummond, S. P. A., Gillin, J. C. and Brown, G. G. Increased cerebral response during a divided attention task following sleep deprivation. J. Sleep Res., 2001, 10: 8592.
  • Gamberale, F., Iregren, A. and Kjellberg, A. SPES: The Computerized Swedish Performance Evaluation System. Background, critical issues, empirical data and a user's manual. Arbete och Hälsa, 1989, 6: 177.
  • Gillberg, M. and Åkerstedt, T. Sleep restriction and SWS-suppression: effects on daytime alertness and night-time recovery. J. Sleep Res., 1994, 3: 144151.
  • Gillberg, M. and Åkerstedt, T. Sleep loss and performance: no ‘‘safe’’ duration of a monotonous task. Physiol. Behav., 1998, 64: 599604.
  • Harrison, Y. and Horne, J. Sleep loss impairs short and novel language tasks having prefrontal focus. J. Sleep Res., 1998, 7: 95100.
  • Harrison, Y. and Horne, J. A. One night of sleep loss impairs innovative thinking and flexible decision making. Organ. Behav. Hum. Decis. Process., 1999, 78: 128145.
  • Harrison, Y. and Horne, J. A. The impact of sleep deprivation on decision making: a review. J. Exp. Psychol. Appl., 2000a, 6: 236249.
  • Harrison, Y. and Horne, J. A. Sleep loss and temporal memory. Q. J. Exp. Psychol. A, 2000b, 53: 271279.
  • Hockey, G. R. J., Wastell, D. G. and Sauer, J. Effects of sleep deprivation and user interface on complex performance: a multilevel analysis of compensatory control. Hum. Factors, 1998, 40: 233253.
  • Horne, J. A. Sleep loss and ‘‘divergent’’ thinking ability. Sleep, 1988, 11: 528536.
  • Horne, J. A. Human sleep, sleep loss and behaviour – implications for the prefrontal cortex and psychiatric disorder. Br. J. Psychiatry, 1993, 162: 413419.
  • Horne, J. Images of lost sleep. Nature, 2000, 403: 605606.
  • Horne, J. A. and Pettit, A. N. High incentive effects on vigilance performance during 72 h of total sleep deprivation. Acta Psychol., 1985, 58: 123139.
  • Jones, K. and Harrison, Y. Frontal lobe function, sleep loss and fragmented sleep. Sleep Med. Rev., 2001, 5: 463475.
  • Kjellberg, A. Sleep deprivation and some aspects of performance, I. Problems of arousal changes. Waking Sleeping, 1977, 1: 139143.
  • Koechlin, E., Ody, C. and Kouneiher, F. The architecture of cognitive control in the human prefrontal cortex. Science, 2003, 302: 11811185.
  • Kushida, C. A., Chang, A., Gadkary, C., Guilleminault, C., Carrillo, O. and Dement, W. C. Comparison of actigraphic, polysomnographic, and subjective assessment of sleep parameters in sleep-disordered patients. Sleep Med., 2001, 2: 389396.
  • van der Linden, D., Frese, M. and Meijman, T. F. Mental fatigue and the control of cognitive processes: effects on preservation and planning. Acta Psychol. (Amst.), 2003, 113: 4565.
  • Lisper, H. O. and Kjellberg, A. Effects of 24-hour sleep deprivations on rate of decrement in a 10-minute auditory reaction time task. J. Exp. Psychol., 1972, 96: 287290.
  • Muzur, A., Pace-Schott, E. F. and Hobson, J. A. The prefrontal cortex in sleep. Trends Cogn. Sci., 2002, 6: 475481.
  • Park, S., Holzman, P. S. and Goldman-Rakic, P. S. Spatial working memory deficits in the relatives of schizophrenic patients. Arch. Gen. Psychiatry, 1995, 52: 821828.
  • Rogers, N. L. and Dinges, D. F. Subjective surrogates of performance during night work. Sleep, 2003, 26: 790791.
  • Shallice, T. and Burgess, P. The domain of supervisory processes and temporal organization of behaviour. Philos. Trans. R. Soc. Lond., 1996, 351: 14051412.
  • Smith, M. E., McEvony, L. K. and Gevins, A. The impact of moderate sleep loss on neurophysiologic signals during working-memory task performance. Sleep, 2002, 25: 784794.
  • Stuss, D. T. and Alexander, M. P. Executive functions and the frontal lobes: a conceptual view. Psychol. Res., 2000, 63: 289298.
  • Thomas, M., Sing, H., Belenky, G., Holcomb, H., Mayberg, H., Dannals, R., Wagner H. Jr, Thorne, D., Popp, K., Rowland, L., Welsh, A., Balwinsky, S. and Redmond, D. Neural basis of alertness and cognitive performance impairments during sleepiness. I. Effects of 24 h of sleep deprivation on waking human regional brain activity. J. Sleep Res., 2000, 9: 335352.
  • Waterhouse, J. M., Minors, D. S., Åkerstedt, T., Reilly, T. and Atkinson, G. Rythms of human performance. In: F. W. T.Joseph, S.Takahashi and Robert Y.Moore (Eds) Handbook of Behavioral Neurobiology. Vol. 12. Plenum Publishers, New York, 2001: 571601.
  • Webb, W. B. and Levy, C. M. Effects of spaced and repeated total sleep deprivation. Ergonomics, 1984, 27: 4558.
  • Wilkinson, R. T. Interaction of lack of sleep with knowledge of results, repeated testing and individual differences. J. Exp. Psychol., 1961, 62: 263271.
  • Wilkinson, R. T. Effects of up to 60 hours sleep deprivation on different types of work. Ergonomics, 1964, 7: 175186.
  • Wimmer, F., Hoffmann, R. F., Bonato, R. A. and Moffitt, A. R. The effects of sleep deprivation on divergent thinking and attention processes. J. Sleep Res., 1992, 1: 223230.
  • Wu, J., Gillin, J. and Buchsbaum, M. The effect of sleep deprivation on cerebral glucose metabolic rate in normal humans assessed with positron emission tomography. Sleep, 1991, 14: 155162.
  • Yang, C.-M., Lin, F.-W. and Spielman, A. J. A standard procedure enhances the correlation between subjective and objective measures of sleepiness. Sleep, 2004, 27: 329332.