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Query: UMLS:C0917801 (insomnia)
 10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insomnia is a disorder that affects a large part of the population. Agents that are used to treat this sleep disorder have evolved: benzodiazepines replaced barbiturates, but there is still concern about their residual effects and about the development of dependence and the risk of withdrawal symptoms. Currently the benzodiazepines receptor agonists (zolpidem, zaleplon, zopiclone and eszopiclone) are the agents most widely prescribed. Pharmaceutical technology and the advances in the knowledge of sleep physiology have led to the availability of some novelties like modified release zolpidem (indicated not only to initiate but also to maintain sleep., ramelteon and agomelatine (melatonine receptors agonists). This article summarises these subjects as well as the pharmacology of investigational drugs, such as indiplon (another benzodiazepine receptor agonist), gaboxadol ( a selective extrasynaptic GABAA agonist -SEGA-), and some anticonvulsant drugs that could be useful as hypnotics: tiagabine ( a GABA transporter inhibitor), pregabaline and gabapentine (GABA analogs). The possible usefulness of 5-HT2A/2C antagonists is also addressed.
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PMID:[New hypnotics: perspectives from sleep physiology]. 1826 73

In humans, slow-wave sleep (SWS) consists of stages 3 and 4 of non rapid eye movement (nonREM) sleep. The low-frequency, high-amplitude slow waves that dominate the electroencephalogram (EEG) during SWS can be quantified as slow-wave activity (SWA). SWS and SWA are regulated very accurately in response to variations in the duration and intensity of wakefulness and sleep. SWA declines more or less independently of circadian phase during the course of a sleep episode, indicating that it is primarily under homeostatic rather than circadian control. An age-related decline in SWS and SWA is well established. In some studies, apprehension, depression and insomnia have been associated with reductions in SWS and SWA. Experimental reductions of SWS through SWS deprivation (without altering total sleep time or REM duration) have been reported to lead to an increase in daytime sleep propensity and reductions in performance. SWS and SWA are therefore thought to contribute to the recovery processes that occur during sleep. Most currently prescribed hypnotics, such as the benzodiazepines and Z-drugs, suppress SWA. Some compounds have been shown to enhance SWS and SWA in healthy volunteers through GAT-1 inhibition, GABA-A modulation, GABA-B modulation, and 5HT2(A) antagonism. Pharmacological enhancement of SWS has also been observed in insomnia. The effects of SWS enhancement on other sleep parameters will be discussed.
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PMID:Slow-wave sleep deficiency and enhancement: implications for insomnia and its management. 2050 29

Insomnia is a common sleep disorder with a high prevalence and substantial adverse consequences. There is growing interest in identifying novel therapeutics from herbal medicine. Tenuifolin is a major constituent of the well-known anti-insomnia herb Radix Polygala. The present study investigated the neural activity in response to tenuifolin during rest/wake behaviour in zebrafish and identified the potential biological signalling pathways involved. An automatic video tracking system was used to monitor the behavioural response of zebrafish larvae for 24 h after treatment with tenuifolin. In total, six rest/wake parameters were measured and visualized with a behavioural fingerprint. Time series analysis was conducted by averaging the total rest and waking activity in 10 min intervals. A correlation analysis was performed between tenuifolin and well-known compounds to analyse the underlying biological signalling pathways. Reverse transcription-quantitative PCR was also performed to detect the effects of tenuifolin on the transcription of interesting genes associated with the signalling pathways that were potentially involved. The present results suggested tenuifolin significantly increased the total rest time during the dark phase, with a slight effect on the waking activity in zebrafish larvae. This behavioural phenotype induced by tenuifolin is similar to that of selective serotonin reuptake inhibitors and gamma-aminobutyric acid (GABA) agonists. Furthermore, the expression levels of GABA transporter 1 were significantly increased after tenuifolin treatment. No significant difference was determined in other associated genes in untreated control and tenuifolin-treated larvae. The present results suggested that tenuifolin caused sleep-promoting activity in zebrafish and that these effects may be mediated by the serotoninergic systems and the GABAergic systems.
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PMID:Effects of tenuifolin on rest/wake behaviour in zebrafish. 3210 1