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.
In 10 children with deficits in attention, motor control and perception (DAMP), the relation between daytime vigilance and night-time sleep quality was examined with polygraphic sleep recordings, multiple sleep latency tests and measurements of reaction times. Two girls and eight boys, 6-12 years of age were studied. Eighteen normal children served as controls. Normal sleep regulation and sleep quality was found, but the children with DAMP tolerated the recording procedure less well than the controls. Most patients did not suffer from increased daytime sleepiness, but at MSLT 3, patients had short sleep latencies as in daytime hypersomnolence. Reaction times were significantly longer among the patients than among the controls. It is proposed that the findings may be related to functional changes in the forebrain.
Craniopharyngiomas are situated in immediate vicinity of sleep regulating structures in the basal forebrain area, and the tumor and its treatment might influence the regulation of sleep and wakefulness. In 10 patients treated for craniopharyngioma nighttime sleep quality and daytime vigilance were examined with polygraphic sleep records and multiple sleep latency tests (MSLT). Two girls and 8 boys, 7.1-22.9 years of age, were studied after a follow-up time of 1.5-16.1 years postoperatively. The results were compared to those of 18 normal children. The regulation of the ultradian sleep rhythm was normal but the ability to maintain nighttime sleep was severely disturbed. The patients had an increased number of awakenings and spent long time awake during two recorded nights. Two patients had excessive daytime somnolence during this examination, one after severe sleep disturbance, the other without any known cause. The pattern of sleep and vigilance did not change in puberty in the expected fashion. The disturbances may well have an impact on the psychosocial situation of the patients.
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