Mathematical model of the human circadian system with two interacting oscillators

Kronauer, Richard E.; Czeisler, Charles A.; Pilato, S. F.; Moore‐Ede, Martin C.; Weitzman, Elliot D.

doi:10.1152/ajpregu.1982.242.1.r3

Cited by 170 publications

(153 citation statements)

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“…Because the present study never determined whether the observed rhythms at T were indeed endogenous-capable of continuing, even when activity, meals, light, and so on were homogenized at all phases of T-we do not know whether the process underlying them can truly be referred to as a biological oscillator. Previous models of the circadian system did indeed regard human sleep/wake processes as having a separate circadian oscillator (Wever et al, 1975;Kronauer et al, 1982). These models posited two mutually interactive oscillators (or groups of oscillators) to underlie the human circadian system.…”

Section: Discussionmentioning

confidence: 99%

A Parallelism between Human Body Temperature and Performance Independent of the Endogenous Circadian Pacemaker

Monk¹,

Carrier

1998

J Biol Rhythms

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A battery of performance tests involving manual dexterity, serial search, and verbal reasoning was given about seven times per day to 2 healthy young male subjects (22 and 25 years of age) involved in separate forced desynchrony studies, each involving several months of temporal isolation. In these studies, the period lengths (denoted T) of the imposed day lengths (sleep/wake and light/dark cycles) were 25.8 and 26.0 h for the 2 subjects. For each subject, the endogenous circadian pacemaker (ECP) failed to entrain to a period of T and instead free ran at a period length denoted tau (24.2 and 24.5 h). By educing performance rhythms (and rectal temperature rhythms) separately at tau and at T (after three complete beating cycles for the first subject and two complete beating cycles for the second subject), the hypothesis could be tested as to whether performance and temperature were parallel, both when educed at tau (indicating ECP influence) and when educed at T (indicating sleep/wake cycle influences). The hypothesis was consistently confirmed at tau and mostly confirmed at T. For most variables, when educed at T, both performance speed and body temperature showed an inverted V-shaped function, with a peak about 9 to 12 h after waking.

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Section: Discussionmentioning

confidence: 99%

A Parallelism between Human Body Temperature and Performance Independent of the Endogenous Circadian Pacemaker

Monk¹,

Carrier

1998

J Biol Rhythms

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“…The polysomnograms (EEG, EMG, EOG, ECG and respiration) were monitored to score sleep stages by the manual of Rechtschaffen and Kales. 4 We measured sleep latency to N R E M sleep stages 1 (Sl) and 2 (S2) according to the guidelines5 of the multiple sleep latency test (MSLT) twice a day on two consecutive days during the morning (O5):3O-l1:30 h) and the afternoon (13:30-14:30 h). For CE odor exposure, we used a small electrically operated apparatus with a built-in plastic bottle for emitting the odor in the bedroom and placed it under the footboard of the bed.…”

Section: Methodsmentioning

confidence: 99%

Influence of cedar essence on spontaneous activity and sleep of rats and human daytime nap

Sano

Séi²,

Seno³

et al. 1998

Psychiatry Clin Neurosci

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133summarized as follows. Within the range of D, there is a wide 1:l phase-locking region. In the outside of this region, the phase-locking regions with n:ni appear via tangent bifurcations. The tangent bifurcation is caused by the map nearly tangential to the diagonal line (e.g. see the map for D = 0.40). Through this bifurcation, a fixed point with a long period abruptly appears. Interestingly, peculiar to the map of the two process model, the difference of the entrainment ratio In -rnl changes through the tangent bifurcation. Unstable behavior is found in the region where an entrainment ratio changes. DISCUSSIONIf the two process model could be regarded as a combination of the different oscillator, the thresholds and the exponential switching processes, changmg D would be equivalent to niodifjing interactions between them. Here, as a function of D, we have shown that the model has the different types of the mutual entrainment regions which are intervened by the tangent bifurcation. Such a dynamical system could provide the possible mechanisms underlying the diverse behavior of human circadian system. In addition to the internal desynchronizations investigated in a previous study,3 the phase trapping observed on the way to the complete desynchroni~ation~ could be understood based on the bifurcation properties obtained here; that Sleep-wake Regulationis, the circle map with a period n fixed point could exhibit the behavior that the sleep-onset phase comes back to its original position every n cycles where n corresponck to the period of the phase trapping. This is realized by an appropriate D < 0.415. Considering these results, our study uniquely provides the biological significance to the bifurcation properties of the two process model.Bifurcations induced by other parameters such as amplitudes of the thresholds and periods of threshold processes remain unknown, which will be the subject of future study. REFERENCES AbstractWe investigated whether exposure to the odor of extracted cedar essence (CE) has (i) an influence on spontaneous activity and sleep-wake states of rats and (ii) a sleep-promoting effect on human daytime nap after taking an ordinary night's sleep. In rats exposed to CE, spontaneous activities and amount of wake were significantly decreased, while the amount of non-rapid eye movement (NREM) sleep was significantly increased. In human daytime nap, NREM sleep stage 2 latency was significantly shortened after exposure to CE. Key wordscedar essence, human daytime nap, odor, spontaneous activity and sleep of rats.

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“…Circadian rhythms for muscarinic receptors have been described in autopsy material from human cortex (Perry et al 1977) and from rat brain (Kafka et al 1981). Moreover, Kronauer et al (1982) propose the existence of a' strong oscillator', termed the' X oscillator', which regulates the circadian organization of REM sleep, temperature, and cortisol. Since cholinergic agonists lower body temperature and stimulate cortisol secretion, one wonders whether acetylcholine acts upon or through the 'X oscillator'.…”

Section: Chronobiologymentioning

confidence: 99%

Rapid Eye Movement (REM) sleep: cholinergic mechanisms

Gillin¹,

Sitaram²

1984

Psychol. Med.

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EDITORIALRapid Eye Movement (REM) sleep: cholinergic mechanisms 1 Otto Loewe conceived of the experiment that led to the discovery of Vagusstoff or acetylcholine during a dream. As this review will attempt to show, it is likely that acetylcholine, acting as a neurotransmitter on a muscarinic synapse within the dorsal tegmentum of the pons, triggered the dream that resulted in its own discovery.Evidence for the involvement of acetylcholine with Rapid Eye Movement (REM) sleep comes both from human and animal studies. REM sleep is a complicated state, involving, on the psychological level, dreaming, and, on the physiological, activation of the EEG, bursts of rapid eye movements, atonia of the major antigravity muscles, monophasic waves in the pontine, geniculate and occipital areas (PGO spikes), hippocampal theta waves, variability of autonomic functioning, and increased firing rates of most central neurones (with notable exceptions, to be mentioned later). There is also a circadian propensity to REM sleep in man and many mammals. Acetylcholine may be involved in nearly all aspects of REM sleep. ANIMAL STUDIESSix different types of data from animal studies suggest that acetylcholine plays an important role in REM sleep.

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Mathematical model of the human circadian system with two interacting oscillators

Cited by 170 publications

References 0 publications

A Parallelism between Human Body Temperature and Performance Independent of the Endogenous Circadian Pacemaker

A Parallelism between Human Body Temperature and Performance Independent of the Endogenous Circadian Pacemaker

Influence of cedar essence on spontaneous activity and sleep of rats and human daytime nap

Rapid Eye Movement (REM) sleep: cholinergic mechanisms

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