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

Melatonin, a chronobiotic that participates in the control of the circadian system, is known for its sleep-promoting effects, which include shortening of sleep latency and lengthening of sleep duration. As a result of its short half-life, melatonin does not exhibit undesirable side effects, and its broad applicability for a variety of sleep problems has been the focus of numerous scientific studies. Melatonin has not, however, received regulatory approval from the US FDA as a drug, because it can be sold freely as a food supplement. Consequently, there has been an active search for patentable melatonin receptor ligands in recent years. Ramelteon, an agonist that acts solely on melatonin MT(1) and MT(2) receptors, is of particular interest, and preliminary research indicates that it holds considerable promise for clinical applications. Ramelteon has been shown to induce sleep initiation and maintenance in various animal models and in clinical trials. In chronic insomnia, ramelteon decreases sleep latency and increases total sleep time and sleep efficiency, without causing hangover, addiction or withdrawal effects. Ramelteon is thought to promote sleep by influencing homeostatic sleep signaling mediated by the suprachiasmatic nucleus. Although ramelteon's metabolism and pharmacokinetics differ from those of melatonin, its safety seems to be sufficient for short-term application. Its long-term effects remain to be determined.
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PMID:Drug Insight: the use of melatonergic agonists for the treatment of insomnia-focus on ramelteon. 1741 Jan 9

The circadian rhythm of pineal melatonin secretion, which is controlled by the suprachiasmatic nucleus (SCN), is reflective of mechanisms that are involved in the control of the sleep/wake cycle. Melatonin can influence sleep-promoting and sleep/wake rhythm-regulating actions through the specific activation of MT(1) (melatonin 1a) and MT(2) (melatonin 1b) receptors, the two major melatonin receptor subtypes found in mammals. Both receptors are highly concentrated in the SCN. In diurnal animals, exogenous melatonin induces sleep over a wide range of doses. In healthy humans, melatonin also induces sleep, although its maximum hypnotic effectiveness, as shown by studies of the timing of dose administration, is influenced by the circadian phase. In both young and elderly individuals with primary insomnia, nocturnal plasma melatonin levels tend to be lower than those in healthy controls. There are data indicating that, in affected individuals, melatonin therapy may be beneficial for ameliorating insomnia symptoms. Melatonin has been successfully used to treat insomnia in children with attention-deficit hyperactivity disorder or autism, as well as in other neurodevelopmental disorders in which sleep disturbance is commonly reported. In circadian rhythm sleep disorders, such as delayed sleep-phase syndrome, melatonin can significantly advance the phase of the sleep/wake rhythm. Similarly, among shift workers or individuals experiencing jet lag, melatonin is beneficial for promoting adjustment to work schedules and improving sleep quality. The hypnotic and rhythm-regulating properties of melatonin and its agonists (ramelteon, agomelatine) make them an important addition to the armamentarium of drugs for treating primary and secondary insomnia and circadian rhythm sleep disorders.
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PMID:Role of the melatonin system in the control of sleep: therapeutic implications. 1802 Apr 80

Complementary and alternative medicines (CAM) are frequently used for the treatment of sleep disorders, but in many cases patients do not discuss these therapies directly with their health care provider. There is a growing body of well-designed clinical trials using CAM that have shown the following: (1) Melatonin is an effective agent for the treatment of circadian phase disorders that affect sleep; however, the role of melatonin in the treatment of primary or secondary insomnia is less well established. (2) Valerian has shown a benefit in some, but not all clinical trials. (3) Several other modalities, such as Tai Chi, acupuncture, acupressure, yoga, and meditation have improved sleep parameters in a limited number of early trials. Future work examining CAM has the potential to significantly add to our treatment options for sleep disorders in older adults.
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PMID:Complementary and alternative medicine for sleep disturbances in older adults. 1803 36

Melatonin, secreted nocturnally by the pineal gland, is an endogenous sleep regulator. Impaired melatonin production and complaints on poor quality of sleep are common among the elderly. Non-restorative sleep (perceived poor quality of sleep) and subsequently poor daytime functioning are increasingly recognized as a leading syndrome in the diagnostic and therapeutic process of insomnia complaints. The effects of 3-weeks prolonged-release melatonin 2 mg (PR-melatonin) versus placebo treatment were assessed in a multi-center randomized placebo-controlled study in 170 primary insomnia outpatients aged > or =55 years. Improvements in quality of sleep (QOS) the night before and morning alertness (BFW) were assessed using the Leeds Sleep Evaluation Questionnaire and changes in sleep quality (QON) reported on five categorical unit scales. Rebound insomnia and withdrawal effects following discontinuation were also evaluated. PR-melatonin significantly improved QOS (-22.5 versus -16.5 mm, P = 0.047), QON (0.89 versus 0.46 units; P = 0.003) and BFW (-15.7 versus -6.8 mm; P = 0.002) compared with placebo. The improvements in QOS and BFW were strongly correlated (Rval = 0.77, P < 0.001) suggesting a beneficial treatment effect on the restorative value of sleep. These results were confirmed in a subgroup of patients with a greater symptom severity. There was no evidence of rebound insomnia or withdrawal effects following treatment discontinuation. The incidence of adverse events was low and most side-effects were judged to be of minor severity. PR-melatonin is the first drug shown to significantly improve quality of sleep and morning alertness in primary insomnia patients aged 55 years and older-suggesting more restorative sleep, and without withdrawal symptoms upon discontinuation.
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PMID:Prolonged-release melatonin improves sleep quality and morning alertness in insomnia patients aged 55 years and older and has no withdrawal effects. 1803 82

We describe our experience in using melatonin to treat insomnia, a common sleep concern, in children with autism spectrum disorders. One hundred seven children (2-18 years of age) with a confirmed diagnosis of autism spectrum disorders who received melatonin were identified by reviewing the electronic medical records of a single pediatrician. All parents were counseled on sleep hygiene techniques. Clinical response to melatonin, based on parental report, was categorized as (1) sleep no longer a concern, (2) improved sleep but continued parental concerns, (3) sleep continues to be a major concern, and (4) worsened sleep. The melatonin dose varied from 0.75 to 6 mg. After initiation of melatonin, parents of 27 children (25%) no longer reported sleep concerns at follow-up visits. Parents of 64 children (60%) reported improved sleep, although continued to have concerns regarding sleep. Parents of 14 children (13%) continued to report sleep problems as a major concern, with only 1 child having worse sleep after starting melatonin (1%), and 1 child having undetermined response (1%). Only 3 children had mild side-effects after starting melatonin, which included morning sleepiness and increased enuresis. There was no reported increase in seizures after starting melatonin in children with pre-existing epilepsy and no new-onset seizures. The majority of children were taking psychotropic medications. Melatonin appears to be a safe and well-tolerated treatment for insomnia in children with autism spectrum disorders. Controlled trials to determine efficacy appear warranted.
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PMID:Melatonin for insomnia in children with autism spectrum disorders. 1818 47

Each year millions of travelers undertake long distance flights over one or more continents. These multiple time zone flights produce a constellation of symptoms known as jet lag. Familiar to almost every intercontinental traveler is the experience of fatigue upon arrival in a new time zone, but almost as problematic are a number of other jet lag symptoms. These include reduced alertness, nighttime insomnia, loss of appetite, depressed mood, poor psychomotor coordination and reduced cognitive skills, all symptoms which are closely affected by both the length and direction of travel. The most important jet lag symptoms are due to disruptions to the body's sleep/wake cycle. Clinical and pathophysiological studies also indicate that jet lag can exacerbate existing affective disorders. It has been suggested that dysregulation of melatonin secretion and occurrence of circadian rhythm disturbances may be the common links which underlie jet lag and affective disorders. Largely because of its regulatory effects on the circadian system, melatonin has proven to be highly effective for treating the range of symptoms that accompany transmeridian air travel. Additionally, it has been found to be of value in treating mood disorders like seasonal affective disorder. Melatonin acts on MT(1) and MT(2) melatonin receptors located in the hypothalamic suprachiasmatic nuclei, the site of the body's master circadian clock. Melatonin resets disturbed circadian rhythms and promotes sleep in jet lag and other circadian rhythm sleep disorders, including delayed sleep phase syndrome and shift-work disorder. Although post-flight melatonin administration works efficiently in transmeridian flights across less than 7-8 times zones, in the case longer distances, melatonin should be given by 2-3 days in advance to the flight. To deal with the unwanted side effects which usually accompany this pre-departure treatment (acute soporific and sedative effects in times that may not be wanted), the suppression of circadian rhythmicity by covering symmetrically the phase delay and the phase advance portions of the phase response curve for light, together with the administration of melatonin at local bedtime to resynchronize the circadian oscillator, have been proposed. The current view that sleep loss is a major cause of jet lag has focused interest on two recently developed pharmacological agents. Ramelteon and agomelatine are melatonin receptor agonists which, compared to melatonin itself, have a longer half-life and greater affinity for melatonin receptors and consequently are thought to hold promise for treating a variety of circadian disruptions.
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PMID:Jet lag: therapeutic use of melatonin and possible application of melatonin analogs. 1834 69

Melatonin (CAS 73-31-4) has both hypnotic and sleep/wake rhythm regulating properties. These sleep promoting actions, which are already demonstrable in healthy humans, have been found useful in subjects suffering from circadian rhythm sleep disorders (CRSD) like delayed sleep phase syndrome (DSPS), jet lag and shift-work sleep disorder. Low nocturnal melatonin production and secretion have been documented in elderly insomniacs, and exogenous melatonin has been shown to be beneficial in treating sleep disturbances of these patients. In comparison to a number of sleep-promoting compounds that are usually prescribed, such as benzodiazepines and z-drugs (zolpidem and zopiclon belonging to the latter ones), melatonin has several advantages of clinical value: it does not cause hangover nor withdrawal effects and is devoid of any addictive potential. However, recent meta-analyses revealed that melatonin is not sufficiently effective in treating most primary sleep disorders. Some of the reasons for a limited efficacy of this natural hormone are related to its extremely short half-life in the circulation, and to the fact that sleep maintenance is also regulated by mechanisms downstream of primary melatonergic actions. Hence, there is an urgent need for the development of melatonin receptor agonists with a longer half-life, which could be suitable for a successful treatment of insomnia. Such requirements are fulfilled by ramelteon (CAS 196597-26-9), which possesses a high affinity for the melatonin receptors MT1 and MT2 present in the circadian pacemaker, the suprachiasmatic nucleus (SCN). Ramelteon also has a substantially longer half-life than melatonin. This new drug has been successfully used in treating elderly insomniacs without any adverse effects reported, and is promising for treating patients with primary insomnia and also those suffering from CRSD. Since sleep disturbances constitute the most prevalent symptoms of various forms of depression, the need for the development of an ideal antidepressant was felt, which would both improve sleep and mitigate depressive symptoms. Since most of the currently used antidepressants, including the selective serotonin re-uptake inhibitors worsen the sleep disturbances of depressive patients, another novel melatonergic drug, agomelatine (CAS 138112-76-2), holds some promise because of its particular combination of actions: it has a high affinity for MT1 and MT2 receptors in the SCN, but it acts additionally as a 5-HT(2C) antagonist [5-hydroxytryptamine (serotonin) receptor 2C antagonist]. The latter property, which is decisive for the antidepressive action, would not favor but potentially antagonize sleep, but this is overcome during night by the melatonergic, sleep-promoting effect. This drug has been found beneficial in treating patients with major depressive and seasonal affective disorders. Unlike the other antidepressants, agomelatine improves both sleep and clinical symptoms of depressive illness and does not have any of the side effects on sleep seen with other compounds in use. This property seems to be of particular value because of the aggravating effects of disturbed sleep in the development of depressive symptoms. Based on these facts, agomelatine seems to be a drug of superior efficacy with a promising future in the treatment of depressive disorders. However, long-term safety studies are required for both ramelteon and agomelatine, with a consideration of the pharmacology of their metabolites, their effects on redox metabolism, and of eventual undesired melatonergic effects, e. g., on reproductive functions. According to current data, both compounds seem to be safe during short-term treatment
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PMID:Melatonergic drugs in clinical practice. 1836 44

Previous studies suggested that melatonin improves sleep in insomniac patients with Angelman syndrome. To assess the efficacy of melatonin, a randomized placebo-controlled study was conducted in 8 children with Angelman syndrome with idiopathic chronic insomnia. After a 1-week baseline period, patients received, depending on age, either melatonin 5 or 2.5 mg, or placebo, followed by 4 weeks of open treatment. Parents recorded lights off time, sleep onset time, wake-up time, and epileptic seizures in a diary. Salivary melatonin levels were measured at baseline and the last evening of the fourth treatment week. Melatonin significantly advanced sleep onset by 28 minutes, decreased sleep latency by 32 minutes, increased total sleep time by 56 minutes, reduced the number of nights with wakes from 3.1 to 1.6 nights a week, and increased endogenous salivary melatonin levels. Parents were satisfied with these results. Indications that melatonin dose in Angelman syndrome patients should be low, are discussed.
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PMID:Melatonin for chronic insomnia in Angelman syndrome: a randomized placebo-controlled trial. 1853 89

Melatonin (N-acetyl-5-methoxytryptamine) is synthesized and released by the pineal gland following a circadian rhythm characterized by high levels during the night. It shows several pharmacological effects on diverse cellular and animal models, mainly related to either its antioxidant activity or to its ability to activate specific receptors (MTr). Melatonin is widely used as a self-administered food additive, but its therapeutic potential needs more investigation and is hampered by its poor pharmacokinetics. This review will focus on the medicinal chemistry of agonist ligands of the two human GPCRs MT(1) and MT(2) melatonin receptors. The recent introduction of ramelteon, a non-selective MT(1)/MT(2) agonist for the treatment of insomnia, and the advancement to clinical trials of other MTr agonists have renewed interest for different classes of compounds endowed with this activity. Several chemical classes of MTr agonists are described in the literature, generally characterized by an indole, or an indole bioisostere, carrying an amide side chain and a methoxy group, or substituents with similar stereoelectronic features. Abundant information is available for non-selective MT(1)/MT(2) ligands, and several molecular models, both ligand- and receptor-based, have been proposed to rationalize their structure activity relationships. Fewer classes of selective agonists have been reported in the literature, and they could help clarifying the physiological role of the two receptor subtypes. A brief discussion on the therapeutic potential of this class of compounds is based on the clinical data available for the agonists ramelteon, agomelatine, beta-methyl-6-chloromelatonin (TIK-301) and VEC-162.
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PMID:Melatonin receptor agonists: SAR and applications to the treatment of sleep-wake disorders. 1867 65

Sleep disorders are great problems in modern society. Even minimal changes of sleep can affect health. Especially, patients with pulmonary diseases complain of sleep problems such as sleep disturbance and insomnia. Recent studies have shown an association between sleep deprivation (SD) and inflammation, however, the underlying mechanisms remain unclear. In the present study, we investigated whether melatonin protects against acute lung inflammation in SD. Male ICR mice were deprived sleep using modified multiplatform water bath for 3 days. Acute lung inflammation was induced by lipopolysaccharide (LPS; 5 mg/kg). Melatonin (5 mg/kg) and LPS was administered in SD mice at day 2. Mice were divided into five groups as control, SD, LPS, LPS + SD, and LPS + SD + melatonin (each group, n = 11). Mice were killed on day 3 after treatment of melatonin and LPS for 24 hr. Lung tissues were collected for histological examination and protein analysis. The malondialdehyde (MDA) level was determined for the effect of oxidative stress. Melatonin restored weight loss in LPS + SD. Histological findings revealed alveolar damages with inflammatory cell infiltration in LPS + SD. Melatonin remarkably attenuated the alveolar damages. In western blot analysis, LPS reduced the levels of Bcl-XL and procaspase-3 in SD mice. After treatment with melatonin, the levels of Bcl-XL and procaspase-3 increased when compared with LPS + SD. LPS treatment showed an increase of TUNEL-positive cells, whereas melatonin prevented the increase of cell death in LPS + SD animals. In lipid peroxidation assay, melatonin significantly reduced the elevated MDA level in LPS + SD. Our results suggest that melatonin attenuates acute lung inflammation during SD via anti-apoptotic and anti-oxidative actions.
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PMID:Melatonin attenuates lipopolysaccharide-induced acute lung inflammation in sleep-deprived mice. 1867 21


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