Using extracellular single unit recording in the medulla of freely moving cats, we have found a population of PS-off ("Type II") neurons that are distinct from the classically described monoaminergic PS-off ("Type I") neurons. The presumed non-monoaminergic Type II PS-off neurons (n=22) showed a relatively high rate of tonic discharge during both quiet waking and slow-wave sleep (10.4±4.1 and 9.3±3.1 spikes/sec, mean ± S.D., respectively) and a marked overall decrease in discharge rate during PS (0.3±0.4 spikes/sec). In contrast to the presumed monoaminergic PS-off neurons (n=62), Type II PS-off neurons showed short-lasting phasic discharges during PS, often in association with rapid eye movement and PGO wave bursts. These Type II neurons were all characterized by a short action potential which was significantly different from that of the monoaminergic PS-off neurons described so far. Five out of 22 neurons were identified antidromically by stimulation of the ventrolateral reticulospinal tract (vlRST) at the caudal medulla, while 2 of the 22 were identified antidromically by stimulation of the peri-locus coeruleus alpha of the mediodorsal pontine tegmentum. Their mean conduction velocity (7.2±1.9 m/sec) was significantly higher than that (0.9±0.3 m/sec) of the presumed monoaminergic PS-off neurons which were identified exclusively by stimulation of the vlRST. In addition, when examined during the sleep-waking cycle, the antidromic responses of Type II PS-off neurons were either completely blocked or reduced, with a prolongation of antidromic latency during PS. Most of these neurons were located in medullary structures containing no, or virtually no, monoaminergic neurons, and none responded by inhibition to systemic administration of serotonergic or adrenergic autoreceptor agonists. These findings indicate the existence, in the medulla, of non-monoaminergic PS-off neurons that would play an important role in PS generation.

Sleep Research Online

The effect of sleep deprivation (40 h) on topographic and temporal aspects of electroencephalographic (EEG) activity during sleep was investigated by all night spectral analysis in six young volunteers. The sleep-deprivation-induced increase of EEG power density in the delta and theta frequencies (1-7 Hz) during nonREM sleep, assessed along the antero-posterior axis (midline: Fz, Cz, Pz, Oz), was significantly larger in the more frontal derivations (Fz, Cz) than in the more parietal derivations (Pz, Oz). This frequency-specific frontal predominance was already present in the first 30 min of recovery sleep, and dissipated in the course of the 8-h sleep episode. The data demonstrate that the enhancement of slow wave EEG activity during sleep following extended wakefulness is most pronounced in frontal cortical areas.

Sleep Research Online

Seven cases of sexual behavior during sleep (SBS) have been recently reported. The subjects had histories of behavioral parasomnias as well as positive family histories of parasomnia. A 27 year-old man with a history of sexual behavior during sleep was reported. His sleep history disclosed sleepwalking (SW) since 9 years of age. He also developed episodes of highly disruptive and violent nocturnal behavior with dream enactment at age 20 years, which often resulted in physical injuries either to himself or his wife and infant. His wife also reported episodes of amnestic sexual behavior that began 4 years before referral. During the episodes, the patient typically procured his wife, achieving complete sexual intercourse with total amnesia. Physical and neurological diagnostic workups were unremarkable. Family history disclosed sleepwalking in his brother. He was put on 2mg/day of bedtime clonazepam with a remarkable clinical improvement. This case involves either the combination of violent and non-violent sleepwalking with SBS, or the superimposition of presumed REM sleep behavior disorder (RBD) on top of preexisting SW in a man who also developed SBS in adulthood. Thus, this is a case report of probable parasomnia overlap syndrome.

Sleep Research Online

Spontaneous awakenings from sleep were studied in a group of 21 elderly subjects (mean age 69.29±3.02 years) free of neurological and somatic diseases. The prevalence of awakenings and the duration of waking bouts were analyzed with regard to the prior sleep state. The results showed an increased frequency of awakenings during Stage 2 NREM in the elderly, who wake out of Stage 2 NREM no less frequently than out of REM sleep. This trend is different from that observed in younger subjects (babies and young adults), where a clear prevalence of REM sleep awakenings has been reported. The duration of Stage 2 interrupted by awakening was shorter than Stage 2 followed by sleep. The duration of waking bouts did not differ according to the preceding sleep stage. It is suggested that the relative inability to sustain Stage 2 may be a mechanism which contributes to the difficulty of sleep maintenance in the elderly.

Sleep Research Online

The present study was designed to investigate the distribution of brainstem neurons projecting to the pontine wave (P-wave)-generating sites in the rat. In six rats, biotinylated dextran amine (BDA) was microinjected into the physiologically identified cholinoceptive P-wave generation site. In all cases, microinjections of BDA in the cholinoceptive P-wave generating site resulted in retrograde labeling of cell bodies in many parts of the brainstem. The majority of those retrogradely labeled cells were in the pedunculopontine tegmentum, pontine reticular nucleus oralis, parabrachial nucleus, vestibular nucleus, and gigantocellular reticular nucleus. The results presented in this study provide anatomical evidence that the cholinoceptive P-wave generation site in the rat receives anatomical projections from other parts of the brainstem known to be involved in the REM sleep-generation mechanism.

Sleep Research Online

Sleep was recorded in congenic F344 albino (c/c) and pigmented (c/+) rats while they were exposed to various light-dark schedules at 10, 50 and 100 lux. In short LD schedules (1:1 and 3:3), both c/c and c/+ rats had similar patterns of NREM and waking in the light and dark. NREM was higher in the light and there was more wakefulness in the dark. These differences were accentuated with increased light intensity. In contrast, substantial effects on REM sleep were seen only in the c/c rats and increased light levels also enhanced these effects. REM sleep in pigmented c/+ rats was virtually unaffected by lighting changes. These results indicate that different systems are involved in regulating sleep-waking and REM sleep responses to light and further that these systems are differentially affected by alleles at (or near) the c locus and/or albinism.

Sleep Research Online