View clinical trials related to Parasomnias.
Filter by:The purpose of this study is to determine whether personalized lifestyle coaching minimizes the negative impact of circadian disruption on performance and recovery in emergency medicine physician trainees during night shifts.
The purpose of this study is to see if it is feasible for midlife women to wear a brain activity sensing headband (Muse-S) for management of sleep disturbances such as insomnia and sleep disruption
The goal of this trial is to learn about how restricted sleep and not bearing weight on the leg affects muscle strength and posture control. Participants will walk exclusively on one leg, sleep at differing intervals, and complete posture tests, muscle strength tests, and muscle imaging. Researchers will compare adequate sleep and restricted sleep to see if muscle strength and posture are affected.
The goal of this clinical trial is to compare the efficacy of non-pharmacological treatments (medical hypnosis and standard treatment) in patients with a non-REM parasomnia diagnosis. Participants are randomly assigned to one of the two treatments. Treatment consists of 3 sessions. Participants receiving the standard treatment (i.e., sleep hygiene and episode risk reduction) may subsequently receive medical hypnosis. Participation in the study involves 5 visits in total: 3 treatment visits and 2 study visits to the hospital (CHUV). - An initial study visit to provide information and collect questionnaires prior to the start of treatment. An initial non-therapeutic hypnosis session will be carried out during electroencephalography. Estimated duration: 2h. - A second study visit at the end of treatment, including questionnaires about your sleep and treatment. A shorter non-therapeutic hypnosis session and a second electroencephalography will be performed. Estimated duration: 1h30. This visit may also be followed by an overnight polysomnography, according to patient's choice (if performed, estimated total duration 12 hrs). This study also involves monitoring patients' sleep for 10 nights before and after treatment: they will fill in a sleep diary and use an infrared camera.
The severity of sleep disorders in patients with Chiari malformations can vary. The investigators propose to establish a correlation between the severity of sleep-disordered breathing (SDB) and the quantitative neuroradiological data of the airways, cranial base foramina, and posterior cranial fossae
Sleep difficulties are common following stroke yet effective evidence-based interventions for improving sleep in this population are lacking. A small number of studies have investigated the use of music listening as a way to improve sleep in adults with insomnia. This study aims to examine whether a mindful music-listening intervention can reduce subjective and objective insomnia symptoms and improve mood and fatigue post-stroke. Six adults with a clinical diagnosis of stroke presenting with an insomnia disorder will be recruited from stroke services within NHS Greater Glasgow and Clyde. A multiple baseline single case experimental design will be employed. Participants will be randomly allocated to a baseline phase of 7, 11 or 15 days, followed by a five-week mindful music-listening intervention incorporating sleep hygiene. Changes in subjective and objective sleep will be measured using questionnaires and actigraphy, respectively. Mood and fatigue will also be measured. The data will be analysed using visual inspection, Tau-U and multi-level modelling.
The goal of this case-control study is to compare clinical characteristics in help-seeking individuals with paraphilic disorders or sexsomnia (sexual behaviors during sleep- a diagnosis in the American Psychiatric Association's Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, (DSM-5)), as compared to healthy controls. The main questions this study aims to answer are: (1a) Is there a difference in experience of violence between the clinical population and healthy controls? Is there a difference between the clinical groups? (1b) What are the clinical characteristics of these conditions (psychiatric, sociodemographic, and genetic/epigenetic factors)? Does the clinical population differ from healthy controls? (1c) How are the psychometric properties of the assessment forms (primarily those addressing sexual deviance and compulsive sexuality) in the project? (1d) How has sexual interest developed over time among patients with paraphilic disorders? (including the person's own description of e.g. triggers and expectations). Follow-up of clinical population: (2) What is the typical treatment as usual (TAU) for the patient population? (e.g., average length of care, the percentage of dropouts and what kind of treatment has been given) (3) Are there any factors at baseline (e.g., presence of neuropsychiatric symptoms, age, symptom burden) that predict treatment outcome? (i.e., symptom burden based on self-assessments at follow-up 3, 6 and 12 months from the start of treatment and records in offence registers after 10 years).
The study will be conducted to determine the effect of aerobic training on sleep problems and pulmonary functions in children with Down syndrome.
Sleep deprivation has long been thought to modulate thermoregulatory function. Seminal work on sleep deprivation and thermoregulation has demonstrated that sleep-deprived individuals experience greater elevations in core temperature during exercise-heat stress due to reductions in the activation of local heat loss responses of cutaneous vasodilation and sweating. However, it remains unclear 1) if reductions in local heat loss responses would compromise whole-body heat loss (evaporative + dry heat exchange) and 2) if differences exist, are they dependent on the heat load generated by exercise (increases in metabolic rate augments the rate that heat must be dissipated by the body). Further, much of the understanding of the effects of sleep deprivation on thermoregulation has been limited to assessments in young adults. Studies show that aging is associated with reduction in cutaneous vasodilation and sweating that compromise whole-body heat loss exacerbating body heat storage during moderate- and especially more vigorous-intensity exercise in the heat. However, it remains unclear if sleep deprivation may worsen this response in older adults. The purpose of this study is therefore to evaluate the effects of sleep-deprivation on whole-body total heat loss during light, moderate, and vigorous exercise-heat stress and to assess if aging may mediate this response. To achieve this objective, direct calorimetry will be employed to measure whole-body total heat loss in young (18-30 years) and older (50-65 years) men during exercise at increasing, fixed rates of metabolic heat production of 150 (light), 200 (moderate), and 250 W/m2 (vigorous) in dry heat (40°C, ~15% relative humidity) with and without 24 hours of sleep deprivation.
Aim 2 will investigate the effect of 3 different light exposure lengths on sleep, mood and agitation in persons with Alzheimer's disease. Participants will be randomly assigned to one of three conditions of light exposure: 1) 2-h morning light exposure; 2) 4-h morning light exposure; and 3) all day light exposure.