Timing of human sleep: recovery process gated by a circadian pacemaker

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Timing of human sleep: recovery process gated by a circadian pacemaker

S. Daan, D. G. Beersma and A. A. Borbely

A model for the timing of human sleep is presented. It is based on a sleep-regulating variable (S)--possibly, but not necessarily, associated with a neurochemical substance--which increases during wakefulness and decreases during sleep. Sleep onset is triggered when S approaches an upper threshold (H); awakening occurs when S reaches a lower threshold (L). The thresholds show a circadian rhythm controlled by a single circadian pacemaker. Time constants of the S process were derived from rates of change of electroencephalographic (EEG) power density during regular sleep and during recovery from sleep deprivation. The waveform of the circadian threshold fluctuations was derived from spontaneous wake-up times after partial sleep deprivation. The model allows computer simulations of the main phenomena of human sleep timing, such as 1) internal desynchronization in the absence of time cues, 2) sleep fragmentation during continuous bed rest, and 3) circadian phase dependence of sleep duration during isolation from time cues, recovery from sleep deprivation, and shift work. The model shows that the experimental data are consistent with the concept of a single circadian pacemaker in humans. It has implications for the understanding of sleep as a restorative process and its timing with respect to day and night.

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				J. E. Larkin, T. Yokogawa, H. C. Heller, P. Franken, and N. F. Ruby Homeostatic regulation of sleep in arrhythmic Siberian hamsters Am J Physiol Regulatory Integrative Comp Physiol, July 1, 2004; 287(1): R104 - R111. [Abstract] [Full Text] [PDF]

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				S. W. Wurts and D. M. Edgar Circadian and Homeostatic Control of Rapid Eye Movement (REM) Sleep: Promotion of REM Tendency by the Suprachiasmatic Nucleus J. Neurosci., June 1, 2000; 20(11): 4300 - 4310. [Abstract] [Full Text] [PDF]

				P. Franken, L. Lopez-Molina, L. Marcacci, U. Schibler, and M. Tafti The Transcription Factor DBP Affects Circadian Sleep Consolidation and Rhythmic EEG Activity J. Neurosci., January 15, 2000; 20(2): 617 - 625. [Abstract] [Full Text] [PDF]

				J. K. Wyatt, A. R.-D. Cecco, C. A. Czeisler, and D.-J. Dijk Circadian temperature and melatonin rhythms, sleep, and neurobehavioral function in humans living on a 20-h day Am J Physiol Regulatory Integrative Comp Physiol, October 1, 1999; 277(4): R1152 - R1163. [Abstract] [Full Text] [PDF]

				J. E. Larkin and H. C. Heller Sleep after arousal from hibernation is not homeostatically regulated Am J Physiol Regulatory Integrative Comp Physiol, February 1, 1999; 276(2): R522 - R529. [Abstract] [Full Text] [PDF]

				J. F. Duffy, D.-J. Dijk, E. B. Klerman, and C. A. Czeisler Later endogenous circadian temperature nadir relative to an earlier wake time in older people Am J Physiol Regulatory Integrative Comp Physiol, November 1, 1998; 275(5): R1478 - R1487. [Abstract] [Full Text] [PDF]

				C. Escobar, M. Diaz-Munoz, F. Encinas, and R. Aguilar-Roblero Persistence of metabolic rhythmicity during fasting and its entrainment by restricted feeding schedules in rats Am J Physiol Regulatory Integrative Comp Physiol, May 1, 1998; 274(5): R1309 - R1316. [Abstract] [Full Text] [PDF]

				T. Endo, C. Roth, H.-P. Landolt, E. Werth, D. Aeschbach, P. Achermann, and A. A. Borbely Selective REM sleep deprivation in humans: effects on sleep and sleep EEG Am J Physiol Regulatory Integrative Comp Physiol, April 1, 1998; 274(4): R1186 - R1194. [Abstract] [Full Text] [PDF]

				D. M. Edgar and W. F. Seidel Modafinil Induces Wakefulness Without Intensifying Motor Activity or Subsequent Rebound Hypersomnolence in the Rat J. Pharmacol. Exp. Ther., November 1, 1997; 283(2): 757 - 769. [Abstract] [Full Text]

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Timing of human sleep: recovery process gated by a circadian pacemaker