Sleep medicine reviews
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Upper airway obstruction is common during both anaesthesia and sleep, as a result of loss of muscle tone present during wakefulness. Patients with obstructive sleep apnoea (OSA) are vulnerable during anaesthesia and sedation as the effects of loss of wakefulness are compounded by drug-induced depression of muscle activity and of arousal responses, so that they cannot respond to asphyxia. ⋯ On the one hand identification of patients with OSA forewarns the anaesthetist of potential difficulty with airway maintenance intra- and postoperatively, influencing choice of anaesthetic technique and postoperative nursing environment. On the other hand difficulty with airway maintenance during anaesthesia should prompt further investigation for the possibility of OSA.
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Sleep medicine reviews · Dec 2004
ReviewState transitions between wake and sleep, and within the ultradian cycle, with focus on the link to neuronal activity.
The structure of sleep across the night as expressed by the hypnogram, is characterised by repeated transitions between the different states of vigilance: wake, light and deep non-rapid eye movement (NREM) sleep, and rapid eye movement (REM) sleep. This review is concerned with current knowledge on these state transitions, focusing primarily on those findings that allow the integration of data at cellular level with spectral time-course data at the encephalographic (EEG) level. At the cellular level it has been proposed that, under the influence of circadian and homeostatic factors, transitions between wake and sleep may be determined by mutually inhibitory interaction between sleep-active neurons in the hypothalamic preoptic area and wake-active neurons in multiple arousal centres. ⋯ And there is substantial evidence at cellular level that transition to and from REM sleep is governed by the reciprocal interaction between cholinergic REM-on neurons and aminergic REM-off neurons located in the brainstem. Similarity between the time-course of the REM-on neuronal activity and that of EEG power in the high beta range (approximately 18-30 Hz) allows a tentative parallelism to be drawn between the two. This review emphasises the importance of the thalamically projecting brainstem activating systems in the orchestration of the transitions that give rise to state progression across the sleep-wake cycle.
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Patients with COPD who are hypoxaemic during wakefulness become more hypoxaemic during sleep. The most severe episodes of nocturnal desaturation generally occur during REM sleep. There is a strong relationship between nocturnal O2 saturation and the level of daytime PaO2: the more pronounced daytime hypoxaemia, the more severe nocturnal hypoxaemia. ⋯ Polysomnography is only indicated in COPD patients who are suspected of having OSAS. The treatment of nocturnal hypoxaemia is conventional O2 therapy (> or = 16/24 h) in COPD patients with marked daytime hypoxaemia (PaO2 < 55-60 mmHg) and conventional O2 therapy plus nocturnal non-invasive ventilation in some patients with marked hypercapnia. At present data are not sufficient for justifying the use of isolated nocturnal oxygen therapy in COPD patients with nocturnal desaturation but with mild daytime hypoxaemia (PaO2 > 60 mmHg).
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Although both general anesthesia and naturally occurring sleep depress consciousness, distinct physiological differences exist between the two states. Recent lines of evidence have suggested that sleep and anesthesia may be more similar than previously realized. Localization studies of brain nuclei involved in sleep have indicated that such nuclei are important in anesthetic action. ⋯ Finally, sleep and anesthesia interact physiologically. Endogenous neuromodulators known to regulate sleep also alter anesthetic action, and anesthetics cause sleep with direct administration into brain nuclei known to regulate sleep. Together, these observations provide new research directions for understanding sleep regulation and generation, and suggest the possibility of new clinical therapies both for patients with sleep disturbances and for sleep deprived patients receiving anesthesia.
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Sleep medicine reviews · Apr 2004
ReviewHow do sleep disturbance and chronic pain inter-relate? Insights from the longitudinal and cognitive-behavioral clinical trials literature.
Sleep disturbance is perhaps one of the most prevalent complaints of patients with chronically painful conditions. Experimental studies of healthy subjects and cross-sectional research in clinical populations suggest the possibility that the relationship between sleep disturbance and pain might be reciprocal, such that pain disturbs sleep continuity/quality and poor sleep further exacerbates pain. This suggests that aggressive management of sleep disturbance may be an important treatment objective with possible benefits beyond the improvement in sleep. ⋯ In this article, we review the longitudinal literature on sleep disturbance associated with chronic pain and clinical trial literatures of cognitive-behavior therapy for pain management and insomnia secondary to chronic pain with the aim of evaluating whether the relationship between clinical pain and insomnia is reciprocal. While methodological problems are common, the literature suggests that the relationship is reciprocal and CBT treatments for pain or insomnia hold promise in reducing pain severity and improving sleep quality. Directions for future research include the use of validated measures of sleep, longitudinal studies, and larger randomized clinical trials incorporating appropriate attentional controls and longer periods of follow-up.