View clinical trials related to Parasomnias.
Filter by:Mental health issues in post-treatment adult cancer survivors are associated with multiple adverse outcomes and may represent a cancer health disparity for rural survivors. The purpose of this study is to test a stepped-care approach tailored to symptom severity based on recent American Society of Clinical Oncology guidelines for reducing emotional distress (anxiety and/or depressive symptoms) and improving secondary outcomes (sleep disturbance, fatigue, fear of recurrence, quality of life) in rural, post-treatment cancer survivors in community oncology settings and to examine intervention costs. The resultant intervention will have great potential for widespread dissemination since it will be manualized, delivered by telephone, and comprised of modules to allow customized treatments for individuals with different cancer types.
The purpose of the study is to evaluate effects of high rebound mattress toppers (i.e., airweave®) on sleep and sleep-related symptoms. The study will compare effects of use of high rebound mattress toppers versus use of low rebound mattress toppers on sleep and sleep related symptoms and core body temperature during diagnostic sleep studies.
In a prospective, observational study the investigators compared resistance values measured using the airway perturbation device (APD) to impulse oscillometry and spirometry. The investigators also created reference equations for normal APD resistance ranges using the data from clinically normal volunteers.
Cognitive Behavioral Therapy (CBT) is treatment of choice for insomnia (CBT-i). Many patients in psychiatric care have sleep problems including insomnia, but are rarely given the choice to participate in CBT to improve their sleep. Patients with ADHD is a patient group with high levels of sleep difficulties. Sleep problems in this patient group can be both more general such as insomnia, but can also be related to the ADHD itself and to the use of ADHD medication. In a previous pilot study, the investigators developed a version of CBT-i that would target sleep problems in this population. The basis was CBT-i, but with more emphasis on sleep promoting behaviors specific to ADHD (e.g. appropriate timing of ADHD-medication), techniques that would also alleviate sleep phase problems, (e.g. the systematic use of light and darkness), and techniques to target more general sleep disturbing habits (e.g. not winding down before bed time), that are also common in patients with ADHD. This treatment was well tolerated and gave moderate effects on insomnia severity in the pilot study. In a naturalistic randomized controlled trial, the investigators now evaluate the effects of this psychological treatment on sleep and symptoms of ADHD in patients at the ADHD-clinics, Northern Stockholm Psychiatry, Sweden.
The purpose of this study is to determine whether night time eating that coincides with elevated endogenous melatonin impairs glucose tolerance, particularly in carriers of the MTNR1B risk allele.
The investigators long-term goal is to improve outcomes for children with Down syndrome (DS) and their caregivers. Towards that goal, the investigators propose a randomized clinical trial of a behavioral sleep treatment designed specifically for children with DS, documenting the impact not only on sleep, but also on the child's daytime inhibitory control and behavior problems, and the caregiver's sleep and stress levels. The investigators will randomize 80 families of children with DS ages 6-17 to receive either a 5-session behavioral sleep treatment (BST; targeting sleep education, behavioral principles and visual supports) or a general-education control condition (CON). The BST will cater to the unique needs of children with DS, adapting an intervention that successfully treats behavioral sleep disturbances in children with autism1. Pre- and post-intervention, children will undergo comprehensive assessments of cognitive, behavioral, and adaptive functioning involving direct testing and input from parents and teachers. Child and parent sleep will be monitored via actigraphy and parent-completed sleep diaries, and parents will report on their stress levels and mood.
The aim of the study is to evaluate the effect of a one-month supplementation with Phytostandard® Eschscholtzia and valerian on the Insomnia Severity Index (ISI), in insomniac so-called adjustment subjects (occasional or short-term insomnia)
Emergence delirium (ED), also called emergence agitation or post-anesthetic excitement, is defined as a dissociated state of consciousness, occurring on awakening from general anesthesia, in which children exhibit psychomotor agitation, crying and thrashing and are not consolable for a period of time, usually 5-15 minutes. Emergence delirium is a common problem in pre-school children, with estimates of the incidence ranging from 10-70% of children in this age group. These children are agitated, seemingly unaware of their surroundings, and typically do not respond to parents or caregivers. They are therefore at risk for self-inflicted traumatic injury and complications secondary to disruptions of intravenous lines, surgical incisions, or drains. Children with ED typically require more resources in the postoperative period than children who do not exhibit ED. Predicting the likelihood of ED would allow for better allocation of resources in the post-anesthetic care unit (PACU). The peak incidence of ED in children occurs in the same age range at which the peak incidence of parasomnias (PS) occurs. The description of parasomnias is strikingly similar to the description of ED; the American Academy of Sleep Medicine defines parasomnias as "undesirable physical events or experiences that occur during entry into sleep, within sleep or during arousals from sleep." Parasomnias can be diagnosed using a sleep questionnaire. The purpose of this pilot study is to determine the incidence of ED and PS in our population, in order to determine the number of patients necessary to enroll in a larger study to either confirm or reject the hypothesis that ED and PS are correlated.
A drop off in improvement over the months and years after treatment is common. One contributor may be poor memory for the contents of treatment. This study seeks to determine whether text messages containing reminders of the content of sessions will improve treatment outcomes.
Light exposure is on the rise in recent years. In large part because of unintentional illumination from screens that emit light directly into the eyes. Millions of computers, tablets, televisions, and smart-phones are sold worldwide every month and the usage time of these devices is increasing constantly. Today, people are exposed to ongoing light exposure from these device screens, emitting short wave length (SWL) during day and night hours, whether as active or passive users. In sum, artificial light at night (ALAN) seem to affect human circadian rhythmicity (melatonin and thermoregulation) and sleep, with two major factors. First, wavelength of light, with SWL being most detrimental to sleep and rhythms, when compared to LWL (Brianard et al., 2001). Second, a dose-response relationship exists between increasing light intensity and poorer sleep/circadian rhythms (Brianard et al., 1988; West et al., 2011). Based on existing knowledge, we hypothesize that when compared to long wavelength LWL illumination, short wavelength SWL illumination from computer screen will have a more damaging effect on melatonin (MLT) production and secretion, interfering body temperature regulation and affecting sleep quality, efficiency and sleep architecture. In addition, we hypothesized that intensity of the screen illumination will play another important factor on these outcomes, we assume that high intensity compared to low intensity will have more damaging effect on: melatonin, thermoregulation and sleep.