View clinical trials related to Dyssomnias.
Filter by:Investigators will enroll up to 120 parent-child dyads from Children's Hospital of Philadelphia (CHOP) urban primary care clinics. The primary objective of this randomized clinical trial is to determine the whether the Sleep Well! behavioral sleep intervention is feasible and acceptable to families. The investigators will also examine the direction and magnitude in any change in child sleep and child behavior.
This study evaluates the effectiveness of a Positive Psychology intervention, that is focused on increasing the positive emotions and strengths of human beings. It is compared to the effectiveness of an online treatment with the change of the same participants before and after receiving the treatment accompanied by a chat support service vs. the treatment solely. The changes are being assessed through worldwide validated measures such as psychometrics.
Insomnia is known to be one of the most common health concerns in in the general population and has been associated with several health consequences. Medications are known to be effective, and currently serve as the primary treatment for insomnia but their use is limited due to the risk of adverse events. Cognitive Behavioral Therapy (CBT-1) has also been shown to be effective and safer in the treatment of insomnia but presents its own limitations such as the time, cost, and training required. The relationship between vestibular stimulation and sleep continues to be explored, however its usefulness in the treatment of insomnia is still unknown. Vestibular stimulation itself has been shown to be safe across multiple populations. If vestibular stimulation is shown to be effective in the treatment of insomnia, it could serve as a safer alternative to medications. It could also require less cost, time, and training than CBT-1, providing a treatment option that is not only safe and effective, but broadly available to the general population. Consequently this trial seeks to evaluate the efficacy of non-invasive electrical vestibular nerve stimulation as a method of improving sleep quality and quantity, as compared to a sham control, in patients newly diagnosed with insomnia.
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 purpose of the study is to evaluate the efficacy of exogenous melatonin in improving sleep quality in HD gene carriers.
Sleep deprivation is common in critical patients and it can cause impair consolidation of memory, cognitive function, metabolic function, immune, neurological and respiratory system as well as worsen the quality of life after discharge. It has been demonstrated that reducing sleep disturbance could attenuate the development of delirium in ICU patients. However, sleep evaluation is only personal perception. There are various methods for sleep monitoring, in which the most commonly mentioned methods include polysomnography, actigraphy, and the Richards-Campbell Sleep Questionnaire (RCSQ). The aims of this study is to validate the accuracy of the Thai-version RCSQ and actigraphy for sleep measurement compared to polysomnography, which is considered as the gold-standard in Thai critically ill patients admitted to surgical intensive care unit.
Objectives: To determine the effectiveness of a warm foot bath on sleep quality and comfort level among elderly individuals with sleep problems. Design and methods: This study was a randomized controlled trial. A total of 217 elderly individual who stayed in two nursing homes. The sample consisted of 60 elderly individuals with sleep problem who were randomly assigned to either the warm foot bath group (n= 30) and control group (n=30).The study was completed with 60 elderly individuals. The primary outcome was an information questionnaire, the Pittsburgh Sleep Quality Index, the General Comfort Questionnaire and the Numerical Rating Scale.
The purpose of this study is to investigate whether an empirically validated treatment for insomnia (CBT-I) administered early in the course of sleep disturbance can prevent insomnia disorder or lessen negative mental health outcomes in the wake of the COVID-19 crisis in adults.
Sleep deprivation (SD) has a powerful degrading effect on cognitive performance, particularly psychomotor vigilance (PV) and reaction time. Caffeine is well known to be an effective countermeasure to the effects of SD. However, individuals differ in both their response to SD and to the administration of caffeine. This has made it difficult to provide individualized recommendations regarding the use of caffeine to sustain alertness when needed. For the past two decades, the Army's Biotechnology HPC Institute (BHSAI), in collaboration with the Walter Reed Army Institute of Research, have been developing statistical models to predict individual performance during prolonged SD. Recently, this resulted in the publication of the 2B-Alert app, a computer algorithm based on large datasets that can learn an individual's response to SD by combining actigraphic sleep data with simultaneously acquired PV performance data. The 2B-Alert algorithm can predict an individual's sleep need and performance after ~2 weeks of training the model. Recently, the model has been extended to incorporate individualized responses to caffeine. This was recently validated in a retrospective study published by BHSAI in 2019. The present study is designed to test the predictive capacity of the 2B-Alert app in real time. During Phase 1 a total of 21 healthy participants will wear an actigraph & complete multiple daily PV tests on a personal cell phone. After 2 weeks, these individuals will attend Phase 2 involving an in-laboratory stay & SD. Participants will have an 8-hour period of sleep in the laboratory, followed by 62 hours of continuous wakefulness. During these 62 hours, participants will complete PV and mood testing every 3 hours. The 2B-Alert app will be used to predict individual caffeine need to sustain performance at near-baseline levels based on the statistical model. At 44 hours SD, participants will undergo a 6-hour "alertness window" where they may receive individualized doses of caffeine based on the recommendations of the model. After 62 hours of SD, Phase 3 begins, involving a night of monitored recovery sleep and additional sessions of PV and mood testing until release from the study at 6 pm on the final day. It is hypothesized that the 2B-Alert app will be effective at providing caffeine dosing recommendations that return PV and mood performance to normal levels during the alertness window.
The purpose of this study is to determine whether sleep disturbances in children aged 7 to 12 during COVID-19 containment are more prevalent in children who received routine psychiatric care before containment compared to children who don't have any psychiatric care.