Melatonin: From Pharmacokinetics to Clinical Use in Autism Spectrum Disorder.

The role of melatonin has been extensively investigated in pathophysiological conditions, including autism spectrum disorder (ASD). Reduced melatonin secretion has been reported in ASD and led to many clinical trials using immediate-release and prolonged-release oral formulations of melatonin. However, melatonin's effects in ASD and the choice of formulation type require further study. Therapeutic benefits of melatonin on sleep disorders in ASD were observed, notably on sleep latency and sleep quality. Importantly, melatonin may also have a role in improving autistic behavioral impairments. The objective of this article is to review factors influencing treatment response and possible side effects following melatonin administration. It appears that the effects of exposure to exogenous melatonin are dependent on age, sex, route and time of administration, formulation type, dose, and association with several substances (such as tobacco or contraceptive pills). In addition, no major melatonin-related adverse effect was described in typical development and ASD. In conclusion, melatonin represents currently a well-validated and tolerated treatment for sleep disorders in children and adolescents with ASD. A more thorough consideration of factors influencing melatonin pharmacokinetics could illuminate the best use of melatonin in this population. Future studies are required in ASD to explore further dose-effect relationships of melatonin on sleep problems and autistic behavioral impairments.

An evening milk drink can affect word recall in Indonesian children with decreased sleep efficiency: A randomized controlled trial.

STUDY OBJECTIVES: Sleep is important for memory consolidation in children. This study intended to find out whether an evening milk-based drink could influence sleep efficiency and memory recall in a group of Indonesian children (5-6 years old) with sleep deprivation. METHODS: Children were randomly allocated to one of three interventions: Reference product, satiety-stimulating product, and a relaxing product. The intervention lasted for 6 weeks and children consumed two servings per day of each 200 ml, the serving in the morning being the same for all children. All measurements took place at baseline and at the end of the intervention. Sleep parameters were studied using actigraphy and a sleep diary during three consecutive days. Memory consolidation was tested using a 20 word-pair list, which was memorized the evening before being recalled the next morning at home-base. Anthropometry was measured using standard equipment. RESULTS: The Satiety group showed a significant decrease in word recall, and a significant increase in nocturnal awakenings that was inversely associated with sleep efficiency at the end of the intervention. Sleep efficiency did not differ between the three groups being 75.5 ± 8.6% and 75.7 ± 6.3% at baseline and end of the intervention, respectively. Despite the lower energy intake in the Standard (reference) group, this condition showed the highest increase in weight. DISCUSSION: Evening growing-up milks can affect memory recall, sleep characteristics, and growth. However, to correct sleep efficiency and sleep duration, improvement of parental behavior may be the most important factor with nutrition providing a supplementary effect.

Ambulatory blood pressure monitoring in diabetes for the assessment and control of vascular risk.

The diagnosis of hypertension and the clinical decisions regarding its treatment are usually based on daytime clinic blood pressure (BP) measurements. However, the correlation between BP levels and target organ damage, cardiovascular (CV) risk, and long-term prognosis, is higher for ambulatory (ABPM) than clinic measurements, both in the general population as well as in patients with diabetes. Moreover, there is consistent evidence in numerous studies that the asleep BP better predicts CV events than either the awake or 24h means. The prevalence of abnormal BP pattern and sleep-time hypertension is extensive in diabetes, often leading to inaccurate diagnoses of hypertension and its therapeutic control in the absence of complete and careful assessment of the entire 24h, i.e., daytime and night-time, BP pattern. Accordingly, ABPM should be the preferred method to comprehensively assess and decide the optimal clinical management of patients with diabetes directed to properly reduce elevated sleep-time BP, which might also lead to a significant reduction of CV events.

[Orexin: clinical and therapeutic implications]. / Orexina: implicaciones clínicas y terapéuticas.

INTRODUCTION. Recent research has reported the existence of a new class of neuropeptides, called orexins or hypocretins, which are produced by a small group of neurons in the hypothalamus and whose actions are mediated by two types of receptors: OX1R and OX2R. More specifically, the orexinergic neurons have been located exclusively in cells in the lateral, dorsomedial and perifornical areas of the hypothalamus. Despite this highly specific anatomical origin, the orexinergic neurons are projected widely into a number of brainstem, cortical and limbic regions. DEVELOPMENT. This fuzzy pattern of distribution of the orexinergic fibres would be indicating the involvement of this peptidic system in a wide range of functions; indeed, it has been related with the mechanisms that enable regulation of the sleep-wake cycle, the ingestion of food and drink, and some particular types of learning, such as learning certain preferences regarding tastes. It has also been suggested that upsets in the functioning of the orexinergic system would explain the appearance of certain clinical disorders like narcolepsy, obesity or addiction to drug of abuse. CONCLUSIONS. Further research will help to determine the functioning of orexinergic neurons and the interaction between the systems that regulate emotion, energetic homeostasis and the reward mechanisms, on the one hand, and the systems that regulate the sleep-wake cycle on the other. That knowledge would almost certainly make it possible to develop new drugs that, by acting upon the orexinergic system, would be effective in the treatment of sleep disorders such as insomnia or narcolepsy, eating disorders or drug addiction.

TITLE: Orexina: implicaciones clinicas y terapeuticas.Introduccion. Se ha descrito recientemente una nueva clase de neuropeptidos, las orexinas, tambien llamadas hipocretinas, producidos por un reducido grupo de neuronas hipotalamicas y cuyas acciones son mediadas por dos tipos de receptores, OX1R y OX2R. En concreto, las neuronas orexinergicas se han localizado en exclusiva en celulas de areas del hipotalamo lateral, dorsomedial y perifornical. A pesar de este origen anatomico tan localizado, las neuronas orexinergicas se proyectan ampliamente a numerosas regiones troncoencefalicas, corticales y limbicas. Desarrollo. Este patron difuso de distribucion de las fibras orexinergicas estaria indicando la intervencion de este sistema peptidico en una amplia variedad de funciones y, de hecho, se ha relacionado con los mecanismos que permiten la regulacion del ciclo sueño-vigilia, la ingesta de comida y de bebida y determinados aprendizajes como el aprendizaje de preferencias gustativas. Se ha sugerido tambien que la alteracion en el funcionamiento del sistema orexinergico explicaria la aparicion de determinados trastornos clinicos como la narcolepsia, la obesidad o la adiccion a drogas de abuso. Conclusiones. Nuevas investigaciones ayudaran a conocer el funcionamiento de las neuronas orexinergicas y la interaccion entre los sistemas que regulan la emocion, la homeostasis energetica y los mecanismos de recompensa con los sistemas que regulan el ciclo de sueño-vigilia. Se confia en que ese conocimiento permita desarrollar nuevos farmacos que, actuando sobre el sistema orexinergico, sean eficaces en el tratamiento de las alteraciones del sueño como el insomnio o la narcolepsia, de los trastornos de la alimentacion o de la drogadiccion.

Hypnic headache: a review of 2012 publications.

Hypnic headache is a rare primary headache disorder affecting middle age and above with a dull pain exclusively at nighttime. This article aims to review and discuss the most recent articles published in the year 2012 regarding hypnic headache. We will also discuss specific cases of pharmacological and nonpharmacologic successes in treating this rare disorder.

Sleep and inflammation: psychoneuroimmunology in the context of cardiovascular disease.

BACKGROUND: Poor sleep is prospectively linked to all-cause and cardiovascular mortality. Inflammatory processes may be an important biological mechanism linking poor sleep to cardiovascular disease. Such processes involve active participation of signaling molecules called cytokines in development of atherosclerotic plaques. PURPOSE: I review evidence from experimental sleep deprivation and clinical observational studies suggesting a bidirectional relationship between sleep and inflammatory cytokines. RESULTS: Findings from sleep deprivation studies indicate that sleep loss is associated with increases in these cytokines. Similarly, studies in clinical populations with sleep problems, such as primary insomnia patients and those diagnosed with major depression, also show elevations in these same cytokines. CONCLUSIONS: Bidirectional communication between the brain and the immune system is carried out through a complex network of autonomic nerves, endocrine hormones, and cytokines. Disturbed sleep appears to perturb the functioning of this network and therefore contribute to elevations in inflammatory mediators linked to cardiovascular disease.

The two faces of Eve: dopamine's modulation of wakefulness and sleep.

In Parkinson's disease (PD), waking is frequently punctuated by sleep episodes, including rapid eye movement (REM) (i.e., dream) sleep, and sleep is interrupted by motor activities such as periodic limb movements and REM sleep behavior disorder. Because these pathologic behaviors are unaccounted for by contemporary models, this review summarizes the complex effects of dopamine (DA) on normal and pathological waking-sleeping. Maintenance of wakefulness is probably promoted by mesocorticolimbic DA circuits, and suppression of nocturnal movement appears to be influenced by indirect pathways linking midbrain DA neurons with pre-motor structures in the mesopontine tegmentum and ventromedial medulla. A diencephalospinal DA system may have an additional important role in mediating state-specific sensorimotor activity that is relevant to periodic limb movements and restless legs syndrome.

Hallucinations and sleep disturbances in Parkinson's disease.

Visual hallucinations (VHs) occur frequently in Parkinson's disease (PD). VHs occur more frequently in elderly patients with longer duration of illness, cognitive impairment, and sleep disturbances. The relationship between the use of antiparkinsonian drugs and VHs is complicated, but most drugs used to treat parkinsonian motor symptoms induce VHs and psychosis in some PD patients. The "continuum hypothesis" proposing that medication-induced psychiatric symptoms in PD begin with drug-induced sleep disturbances, followed by vivid dreams, with progression to hallucinatory and delusional experiences has been challenged. In some patients, VHs may represent intrusion of REM sleep-related imagery into wakefulness. Improving REM sleep abnormalities in PD (e.g., stimulants, anticholinesterase inhibitors) is one strategy now being tested to improve VHs in PD.

Melatonin acutely improves the neuroendocrine architecture of sleep in blind individuals.

In blind individuals, the absence of light cues results in disturbances of sleep and sleep-related neuroendocrine patterns. The Zeitgeber influence of light on the timing of sleep is assumed to be mediated by melatonin, a hormone of the pineal gland, whose secretion is inhibited by light and enhanced during darkness. Here, we investigated whether a single administration of melatonin improves sleep and associated neuroendocrine patterns in blind individuals. In a double-blind crossover study, 12 totally blind subjects received 5 mg melatonin and placebo orally 1 h before bedtime starting at 2300 h. The dose used enhanced blood melatonin concentrations to clearly supraphysiological levels. Melatonin increased total sleep time and sleep efficiency (P < 0.05, respectively) and reduced time awake (P < 0.05). The increment in total sleep time was primarily due to an increase in stage 2 sleep (P < 0.01) and a slight increase in rapid eye movement sleep (P < 0.06). Most important, melatonin normalized in parallel the temporal pattern of ACTH and cortisol plasma concentration. While after placebo, ACTH and cortisol levels did not differ between early and late sleep, melatonin induced the typical suppression of pituitary-adrenal activity during early sleep and a distinct rise during late sleep (P < 0.01, respectively). Cortisol nadir values were also decreased after melatonin (P < 0.05). We conclude from these data that in totally blind individuals the single administration of a clearly pharmacological dose of melatonin can improve sleep function by synchronizing in time the inhibition of pituitary-adrenal activity with central nervous sleep processes.