Showing papers on "Slow-wave sleep published in 1989"

Unitary characteristics of presumptive cholinergic tegmental neurons during the sleep-waking cycle in freely moving cats.

Abstract: A total of 260 neurons were recorded in the rostral pontine tegmentum of freely moving cats during the sleep-waking cycle. Of these, 207 neurons (80%) were located in the dorsal pontine tegmentum containing monoaminergic and choline acetyltransferase (ChAT)-immunoreactive, or cholinergic neurons. In addition to presumably monoaminergic PS-off cells (n = 51) showing a cessation of discharge during paradoxical sleep (PS) and presumably cholinergic PGO-on cells (n = 40) exhibiting a burst of discharge just prior to and during ponto-geniculo-occipital (PGO) waves, we observed tonic (n = 108) and phasic (n = 61) neurons exhibiting, respectively, tonic and phasic patterns of discharge during wakefulness and/or paradoxical sleep. Of 87 tonic cells histologically localized in the dorsal pontine tegmentum rich in cholinergic neurons, 46 cells (53%) were identified as giving rise to ascending projections either to the intralaminar thalamic complex (n = 26) or to the ventrolateral posterior hypothalamus (n = 13) or to both (n = 9). Two types of tonic neurons were distinguished: 1) tonic type I neurons (n = 28), showing a tonic pattern and high rates of discharge during both waking and paradoxical sleep as compared with slow wave sleep; and 2) tonic type II neurons (n = 20), exhibiting a tonic pattern of discharge highly specific to the periods of paradoxical sleep. Tonic type I neurons were further divided into two subclasses on the basis of discharge rates during waking: a) rapid (Type I-R; n = 17); and b) slow (Type I-S; n = 11) units with a discharge frequency of more than 12 spikes/s or less than 5 spikes/s, respectively. Like monoaminergic PS-off and cholinergic PGO-on cells, both tonic type II and type I-S cells were characterized by a long spike duration (median: 3.3 and 3.5 ms), as well as by a slow conduction velocity (median = 1.8 and 1.7 m/s). In the light of these data, we discuss the possible cholinergic nature and functional significance of these ascending tonic neurons in the generation of neocortical electroencephalographic desynchronization occurring during waking and paradoxical sleep.

Why We Sleep: The Functions of Sleep in Humans and Other Mammals

Abstract: Sleep deprivation physiological effects of sleep deprivation body restitution and sleep waking awareness, subsequent sleep and cerebral restitution core and optical sleep sleep in other mammals REM sleep.

Sleep on the Night Shift: 24-Hour EEG Monitoring of Spontaneous Sleep/Wake Behavior

Abstract: The present study sought to objectively describe the spontaneous sleep/wakefulness pattern of shift workers during a 24-hour period. Portable Medilog tape-recorders were used for ambulatory EEG monitoring of 25 male papermill workers (25-55 years) during days with night and afternoon work. The results showed that sleep after night work was two hours shorter than after afternoon work. The sleep reduction affected mainly Stage 2 and REM sleep while slow wave sleep was unchanged. In connection with night work 28% of the workers took a nap in the afternoon. These naps contained a large proportion of slow wave sleep and were, apparently, caused by the sleep deficit after the short main sleep period. The EEG recordings also revealed that 20% of the participants had sleep episodes during night work. These naps were as long as the afternoon naps, were experienced as "dozing offs" rather than naps, occurred at the time of the trough of the circadian wakefulness rhythm, and were concomitant with extreme subjective sleepiness and low rated work load. It was concluded that not only the sleep of shift workers was disturbed, but also the wakefulness--to the extent that sleepiness during night work sometimes reached a level where reasonable wakefulness could not be maintained. The latter observation is probably of special importance in work situations demanding a great responsibility for human lives or for great economic values.

Electroencephalographic sleep in panic disorder. A focus on sleep-related panic attacks.

Abstract: • Sleep electroencephalograms were studied in 13 patients with panic disorder, six of whom experienced panic from sleep, and seven controls. Sleep was disturbed in the patients, as manifested by increased sleep latency, decreased sleep time, and decreased sleep efficiency. Rapid eye movement (REM) latencies were not reduced in the patient group. All six of the panic awakenings were preceded by non-REM sleep, which could be further characterized as a transition from stage II toward delta sleep. The overall degree of sleep disturbance (ie, sleep latency, sleep efficiency) did not appear to be influenced by the occurrence of sleep panic. There was also an association of increased REM latency with nights of sleep panic.

Sleep initiation and initial sleep intensity: interactions of homeostatic and circadian mechanisms.

Abstract: Sleep initiation and sleep intensity in humans show a dissimilar time course. The propensity of sleep initiation (PSI), as measured by the multiple sleep latency test, remains at a relatively constant level throughout the habitual period of waking or exhibits a midafternoon peak. When waking is extended into the sleep period, PSI rises rapidly within a few hours. In contrast, sleep intensity, as measured by electroencephalographic slow-wave activity during naps, shows a gradual increase during the period of habitual waking. In the two-process model of sleep regulation, it corresponds to the rising limb of the homeostatic Process S. We propose that PSI is determined by the difference between Process S and the threshold H defining sleep onset, which is modulated by the circadian process C. In contrast to a previous version of the model, the parameters of H (amplitude, phase, skewness) differ from those of threshold L, which defines sleep termination. The present model is able to simulate the time course of PSI under baseline conditions as well as following recovery sleep after extended sleep deprivation. The simulations suggest that during the regular period of waking, a circadian process counteracts the increasing sleep propensity induced by a homeostatic process. Data obtained in the rat indicate that during the circadian period of predominant waking, a circadian process prevents a major intrusion of sleep.

Influences of corticotropin-releasing hormone, adrenocorticotropin, and cortisol on sleep in normal man

Abstract: We studied the effects of the hormones of the hypothalamus-pituitary-adrenocortical axis on sleep processes in normal men. In one experiment, 10 men received placebo, cortisol (6 mg/h), and ACTH (0.55 U/h) as continuous iv infusions from 2200-0700 h on 3 separate nights. In another experiment, placebo and CRH (30 micrograms/h) were administered to another 10 men in the same manner. The mean plasma cortisol levels were comparable during the cortisol and ACTH infusions (552 vs. 668 nmol/L). During both infusions, the time spent in rapid eye movement (REM) sleep was significantly (P less than 0.01) reduced compared to that during the placebo infusion, and the cortisol infusion significantly (P less than 0.05) enhanced the time spent in slow wave sleep (SWS). The CRH dose used only moderately increased plasma ACTH and cortisol levels; the changes in SWS and REM sleep during CRH infusion were in the same direction as occurred during the cortisol infusion, but were not significant. These results suggest that cortisol has a sleep modulatory effect. The decrease in REM sleep during the ACTH infusion may be mediated by the rise in endogenous cortisol. However, ACTH specifically altered sleep, in that it inhibited the cortisol-induced increase in SWS. Peripherally administered CRH had no intrinsic influence on sleep.

Magnetic resonance findings in REM sleep behavior disorder

Abstract: Rapid eye movement (REM) sleep behavior disorder is characterized by bizarre acts during nocturnal sleep that may lead to physical injuries. Dream content suggests that motor overactivity is an attempted dream enactment and polygraphic studies reveal REM stage without atonia, an alteration of REM sleep generation that facilitates excessive motor activity. In 6 patients with REM sleep behavior disorder. MRI of the brain showed multifocal signal intensity lesions suggestive of lacunar infarcts in periventricular regions (5 patients) and in dorsal pontomesencephalic areas (3 patients). REM sleep behavior disorder may be the result of injury to the midrostral tegmentum nuclei, the tegmentoreticular tracts, or both. This condition is easily controlled with clonazepam.

The Cholinergic Rapid Eye Movement Sleep Induction Test With RS-86: State or Trait Marker of Depression?

Abstract: • Rapid eye movement (REM) sleep disinhibition at the beginning of the night is one of the most frequently described biologic abnormalities in depression. As REM sleep in animals and humans seems to be facilitated by cholinergic neuronal activity, it has been postulated that REM sleep disinhibition in depression is a consequence of cholinergic neuronal overactivity. The current study with the newly available cholinergic agonist RS-86, which is orally active, has a half-life of six to eight hours, and exhibits only minor peripheral side effects, supports this assumption. The application of this compound before sleep led to a significantly faster induction of REM sleep at the beginning of the night in patients with major depressive disorders compared with healthy subjects and patients with other nondepressive psychiatric diseases, such as eating disorders. Whereas 14 of 16 depressed patients displayed sleep-onset REM periods after the administration of RS-86, this happened only in three of the 16 healthy controls and in one of the 20 patients with other diagnoses. The increased susceptibility of REM sleep to cholinergic stimulation was limited to the state of depression and was not observed in a group of remitted depressed patients.

Sleep and wakefulness in normal preadolescent children.

Abstract: Eighteen healthy children, 9 boys and 9 girls, between 8 and 12 years of age were examined with polygraphic sleep records, multiple sleep latency tests (MSLTs), and measurements of reaction times. Sleep was recorded at home on Oxford Medilog 9 channel cassette tape recorders (Oxford Medical Systems, Abingdon, U.K.) and sleep staging was performed from the screen of the display unit. Two consecutive nights were recorded. MSLT was done in the laboratory. The subjects were given 30 min to fall asleep on four occasions during the day after the last recorded night of sleep. Reaction times were measured repeatedly between each MSLT trial. More slow wave sleep was found in this study compared to others. Also, the first night effect was slight. It is proposed that this is due to the fact that the recordings were performed at home. The initial sleep cycle was incomplete in almost all subjects. A sleep stage with traits of both rapid eye movement (REM) and non-REM could be seen in this cycle, probably representing an abortive REM period. MSLT confirmed the low daytime sleepiness in healthy preadolescent children. A sleep latency of 10 min or less on two or more sleep trials, or a daily mean sleep latency of less than 20 min, is rarely seen in this age group. The reaction times were within normal limits for the age of the subjects. Nighttime sleep values, daytime sleep latencies, and reaction times were not correlated in these normal-sleeping children.

Effect of zolpidem on sleep in insomniac patients.

Abstract: The effect of zolpidem 10 mg p.o. on sleep in patients with persistent psychophysiological insomnia was assessed by polysomnographic recordings. An improvement in sleep with no rebound insomnia was observed during treatment for two weeks. Time awake after the onset of sleep was reduced after one week and increased after two weeks, whereas sleep latency remained reduced. Zolpidem markedly increased the duration of Stage 2 sleep without affecting either slow wave sleep or REM sleep. Subjective evaluation of improvement in sleep was well correlated with sleep laboratory findings. Zolpidem did not impair the immediate memory or psychomotor performance of patients on the morning after its administration. Side-effects during the period of drug administration included drowsiness, fatigue, headache, anxiety and irritability. They were mild or moderate and wore off soon after awakening.

Effects of repeated ritanserin on middle-aged poor sleepers.

Abstract: Nine subjects who believed themselves to be poor sleepers, of mean age 58 years, took a placebo for 7 days, then ritanserin 5 mg for 20 days, followed by 3 days on placebo. Sleep was recorded electrophysiologically on 2 nights during baseline, 2 early drug nights, 2 late drug nights and the 2nd and 3rd withdrawal nights. Ratings of sleep quality were collected each morning. Ritanserin, a 5HT2 antagonist, caused a persistent doubling of the amount of EEG show wave sleep, without altering the total duration of sleep. Ritanserin decreased the frequencies of awakening and after about a week it appeared to improve the subjective quality of sleep. Sleep was then impaired during withdrawal, as indicated by decreased duration and poorer subjective quality, being worst on the 3rd withdrawal night.

Clomipramine and EEG sleep in depression

Abstract: Recent studies with clomipramine (CMI) have demonstrated that a pulse-loading approach is associated with a rapid improvement in symptomatology in the absence of continuous treatment. In the present study, sleep changes were evaluated to ascertain the rapidity of clomipramine's effect on electroencephalographic sleep, especially rapid eye movement (REM) and delta wave sleep measures. Clomipramine produced rapid changes in sleep with reduced sleep continuity and almost complete suppression of REM sleep as well as a redistribution of slow wave sleep. Delta waves during sleep were also found to be shifted to the earlier part of the night and increased in intensity. Spectral analysis revealed an increase in power in the delta frequency range that was correlated with clinical responsiveness. These studies point toward a role for clomipramine in the rapid treatment of depression and confirm that sleep physiology may be a good predictor of antidepressant action.

Continuous spikes and waves during slow sleep: a 30 months follow-up study of neuropsychological recovery and EEG findings

Abstract: An eight-year-old boy is reported who presented with a progressive mental deterioration in the years following a nocturnal asymmetrical generalized tonic-clonic seizure. The diagnosis of continuous spikes and waves during slow sleep (CSWS) was made. Once a month a sleep recording was made during twenty-two consecutive months and detailed neuropsychological studies were made over a period of 30 months. Intensive antiepileptic treatment resulted in the disappearance of the CSWS and in a recovery from intellectual-, language- and behavioural disturbances. The good results were still present at a follow-up examination 30 months later.

Lithium increases slow wave sleep: possible mediation by brain 5-HT2 receptors?

Abstract: The effect of lithium on slow wave sleep (SWS) was studied in ten normal male volunteers using home based cassette sleep recording and automatic sleep stage analysis. Lithium increased SWS, an effect consisten with a reduction in brain 5-HT2 receptor function.