Active clinical trials for "Sleepiness"

An Open Label Study to Evaluate Long-Term Safety and Tolerability of a Once Nightly Formulation of Sodium Oxybate for Extended-Release Oral Suspension (FT218) and the ability to switch from twice-nightly immediate release sodium oxybate to once-nightly FT218 for the Treatment of Excessive Daytime Sleepiness and Cataplexy in Subjects with Narcolepsy

The primary objective of this study is to assess the long-term safety and effectiveness of pitolisant in patients with idiopathic hypersomnia (IH) who completed the Double-Blind Randomized Withdrawal Phase of study HBS-101-CL-010.

Sleep is a physiological function that plays an essential role in many somatic, cognitive or psychological processes. Although the criteria for sleep effectiveness are multiple, its quantity is unanimously recognized as a major determinant of health. Too little sleep time is indeed associated with an increase in metabolic, cardiovascular and accidental morbidity and mortality, caused by sleepiness during journeys or at the workplace. In the wake of recent work in the general French population, a specific study on the prevalence and factors associated with sleeping time and chronic insomnia among flight members appears relevant. Chronic insomnia and sleep debt can thus be assumed to be more common among aircrews than in the general population, due to these specific operational constraints. Better consideration of certain sleep disorders in professional flight members could make it possible to adapt prevention or countermeasures strategies intended to optimize risk management with regard to flight safety.

Excessive daytime sleepiness which still remains after an effective treatment with nocturnal ventilotherapy or with other specific treatments (positional therapy, oro-mandibular devices) in patients with obstructive sleep apnea syndrome has a prevalence of 55% of treated cases, representing a notable theme of clinical and research interest. In recent years there have been several studies on the use of wakefulness-promoting drugs generally prescribed in patients with narcolepsy, in this disorder with promising results. Right in consideration of the forthcoming approval of these drugs, it is important to find biomarkers able to predict which patients will develop daytime sleepiness resistant to ventilatory treatment. Several studies have highlighted the association between obstructive sleep apnea syndrome and the increase of cerebral amyloid beta deposits, concluding that apnoic disorder can be considered a risk factor for the development of cognitive impairment and Alzheimer';s disease. In this scenario, it would be useful to identify biological markers able to underline which clinical phenotypes of sleep apnea syndrome are more associated with residual excessive daytime sleepiness and/or cognitive impairment. In recent years several kits for the assay of biomarkers of neurodegeneration have been developed not only in CSF, but also in human serum. Among them, the most important are light chain neurofilaments (NFL), amyloid isoforms 40 and 42 (Ab40 and Ab42). Other biomarkers found in neurodegenerative diseases associated with excessive daytime sleepiness are orexin A (OXA) and histamine (HA). In this view, the aim of this study is to evaluate the role of biomarkers of neurodegeneration in characterizing disease severity and response to treatment of obstructive sleep apnea syndrome with residual excessive daytime sleepiness.

Chronic sleep disorders result from multiple pathophysiological mechanisms and are often associated with severe hypersomnolence, responsible for major disability. Hypersomnolence may be secondary to sleep disturbances at night by sleep fragmentation, both overall in restless leg syndrome (RLS) or specific to slow or paradoxical sleep in parasomnias (sleepwalking, sleep behavior disorder). paradoxical). Attention-Deficit / Hyperactivity Disorder (ADHD) is another cause of secondary hypersomnolence, unsolved pathophysiology, leading to a major disturbance of alertness. More rarely, hypersomnolence may be primary (central hypersomnia), representing then the most severe form existing in humans. The best-known central hypersomnia is narcolepsy type 1 (NT1), affecting 0.02% of the population. It is thanks to the existence of well-characterized clinical, biological and neuropathological patients that its pathophysiology is better understood. It is due to a selective loss of hypothalamic neurons secreting orexin / hypocretin, in connection with a probable autoimmune process, in genetically predisposed subjects. Narcolepsy type 2 (NT2), idiopathic hypersomnia (HI) and Kleine-Levin syndrome (SKL), are rarer forms of central hypersomnia, the pathophysiology of which is still unknown, due to the small number of patients studied.

Improvement of patients' care and outcome is largely based on development and validation of drugs and technologies, especially in rapidly evolving fields as Interventional Cardiology. In fact, even though the optimal efficiency of a cathlab can be influenced by Interventional Cardiologist's mental workload, stress' accumulation and performance, little if any attention is paid to the monitoring and optimization of his/her mental status. Electroencephalogram (EEG)-based neural-interfaces are able to estimate workload, fatigue and the degree of sleepiness through spectral analysis techniques. In particular, the amplitude of alpha waves is a widely validated indicator of mental engagement's level. Developing a low cost and highly feasible device to monitor and analyze operator's mental engagement level and performance could be extremely appealing, especially considering both the lack of data in literature for interventional disciplines and the recent technology developments.

The Epworth Sleepiness Scale (ESS) is undoubtedly the most commonly used tool in daily clinical practice to assess daytime sleepiness in patients of all ages by means of a self-administered questionnaire. In elderly subjects, the clinician is often confronted with difficulties in accurately estimating the ESS score and measuring subjective daytime sleepiness. Indeed, according to Onen et al, the ESS tends to underestimate the prevalence of sleep disorders in the geriatric population, mainly due to non-response to problematic items, namely: Item 3: Sitting, inactive in a public place (cinema, theater, meeting) Item 8: In a car that has been stopped for a few minutes. In order to overcome this problem, Janine Gronewold's German team has developed and begun work on the validation of an alternative version of the ESS, the ESS-ALT, adapted to the population of interest, in German. The aim of the present work is to adapt the ESS-ALT in French, then to study its correlation with sleep data recorded by nocturnal polysomnography, and among the secondary objectives, to correlate it with sleep latency during iterative sleep latency tests, in order to propose to the clinician a simple, reproducible tool, allowing to measure daytime sleepiness in elderly subjects.

Excessive diurnal sleepiness is characterized by an incapacity to stay awake, in favour of sleep occurrence. This sleepiness might be secondary to a sleep disorder; when it is not the case, it is primary hypersomnia (including narcolepsy and idiopathic hypersomnia). To date, objective measures of sleepiness can only be achieved in laboratory. Subjective techniques as scales and questionnaires are highly sensitive to inter-individual differences and cannot constitute a reliable diagnosis tool of sleepiness. Recent studies suggested that some salivary biomarkers are sensitive to sleep characteristics and thus, may allow the objective and easy evaluation of sleepiness. The objective of the study is to explore the usability of salivary biomarkers (a-amylase and oxalate) as a new non-invasive technique to evaluate sleepiness and to diagnose primary hypersomnia in children. The hypothesis of this study is that there will be a modification of salivary biomarkers concentrations with the variations of diurnal sleepiness.

The goal of this interventional study is to investigate effects of a2 Full Cream Milk on Breastmilk composition and subsequent Infant gut health, crying frequency and sleep patterns in Healthy Full-term Infants. 50 mothers and thier infants will be enrolled into 2 study sites, mother and her child as one subject will be randomized to 2 groups for assigned interventions, a2 Full Cream Milk and conventional Milk (Weidendorf). The study will continue for 14 days, and 3 site visits will be made duing the study period. All data specified in the protocol will be captured and recorded into CTMS for analysis. Researchers will compare the two groups of participants to see if a2 Full Cream Milk has significantly better breastmilk composition and improve infant's gut health, crying frequency and sleep patterns.

This research project consists of a three part study with five embedded sub studies. The first study phase identifies "body rhythms" of sleepiness/wakefulness and of melatonin levels for each subject (including sub-study 1). The second study phase identifies the optimum dose and timing of melatonin for regulating each individual's 24-hour sleep/waking cycle (including sub-study 2). The third study phase introduces a new independent variable, light (including sub-studies 3 and 4). Sub-study 5 is an optional longitudinal study. Sub-study 1 looks at how keeping a regular sleep schedule affects the body's natural rhythm. Sub-study 2 looks at how individuals metabolize melatonin. Sub-study 3 tests how individuals' endogenous melatonin production responds to bright outdoor light and Sub-study 4 tests a previous finding that artificial bright light exposed daily behind the knee can regulate the body clock. Sub-study 5 is an optional longitudinal study, an extension of the first study stage, for subjects whose rhythms are not clearly free-running.