Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917801 (insomnia)
 10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Numerous "antihistamines" as well as various psychotropic medications with antihistamine properties are widely utilized to treat insomnia. Over-the-counter sleep aids usually contain an antihistamine and various antidepressants and antipsychotics with antihistamine properties have sedative-hypnotic actions. Although widely used for the treatment of insomnia, many agents that block the histamine H1 receptor are also widely considered to have therapeutic limitations, including the development of next-day carryover sedation, as well as problems with chronic use, such as the development of tolerance to sedative-hypnotic actions and weight gain. Although these clinical actions are classically attributed to blockade of the H1 receptor, recent findings with H1 selective agents and H1 selective dosing of older agents are challenging these notions and suggest that some of the clinical limitations of current H1-blocking agents at their currently utilized doses could be attributable to other properties of these drugs, especially to their simultaneous actions on muscarinic, cholinergic, and adrenergic receptors. Selective H1 antagonism is emerging as a novel approach to the treatment of insomnia, without tolerance, weight gain, or the need for the restrictive prescription scheduling required of other hypnotics.
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PMID:Selective histamine H1 antagonism: novel hypnotic and pharmacologic actions challenge classical notions of antihistamines. 1917 41

Doxepin binds with high specificity and affinity to the histamine H(1) receptor compared with other receptors. Therefore, at low doses, doxepin selectively antagonises H(1) receptors, which is believed to promote the initiation and maintenance of sleep. In three large, well designed, phase III trials in adult or elderly patients with chronic primary insomnia, oral, low-dose doxepin 3 or 6 mg once daily improved wake time after sleep onset, total sleep time and sleep efficiency to a significantly greater extent than placebo. Significant between-group differences in polysomnographic sleep recordings that favoured low-dose doxepin were evident after a single administration of the drug. Other efficacy measures, including patient-reported sleep quality, also favoured low-dose doxepin over placebo. Symptom control was maintained for up to 12 weeks of low-dose doxepin administration and there was no evidence of physical dependence or worsening insomnia after doxepin withdrawal. Oral, low-dose doxepin 6 mg was also significantly more effective than placebo in a large, well designed trial modelling transient insomnia in healthy adults, according to polysomnographic recordings (e.g. in latency to persistent sleep). Oral, low-dose doxepin was generally well tolerated in clinical trials.
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PMID:Low-dose doxepin: in the treatment of insomnia. 2065 1

Histaminergic neurons have been reported to play an important role in the regulation of sleep-wake behavior through the histamine H1 receptor (R, H1R). First generation H1R antagonists, such as doxepin and diphenhydramine, produce drowsiness in humans, and are occasionally used to treat insomnia. However, if H1R antagonists function via physically blocking the H1R remains unclear. In the current study, we used H1R knockout (KO) mice to investigate if the sleep-promoting effects of doxepin and diphenhydramine are dependent on blockade of the H1R. When doxepin was administered, non-rapid eye movement (NREM) sleep in wild type (WT) mice increased for 4h, with an increase in the numbers of NREM sleep bouts of 256-512 s and 512-1024 s. These effects were not observed in the H1R KO mice. Furthermore, diphenhydramine increased NREM sleep for 6h in WT, and not in the H1R KO mice after the injection. These results indicate that both doxepin at 15 mg/kg and diphenhydramine at 10 mg/kg induce NREM sleep through blockade of H1R.
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PMID:Doxepin and diphenhydramine increased non-rapid eye movement sleep through blockade of histamine H1 receptors. 2549 64