View clinical trials related to Sleep.
Filter by:The goal of this study is to characterize the ability of the NextSense ear-EEG device to detect pathologic electrographic signatures of epilepsy and physiologic signatures of sleep in subjects undergoing simultaneous inpatient continuous EEG monitoring, polysomnography, or ambulatory EEG monitoring at home.
Higher education students 18 years or older will participate in 8- virtual mindfulness meditation sessions over 3 to 4 weeks (minimum of 3 sessions per week). Each session will be 30 minutes long, 15 minutes for guided mindfulness meditation run by researchers, followed by a short discussion period to understand mindfulness meditation better. Before starting the mindfulness meditation session, baseline data will be collected.
The aim of the proposed randomised, double-blind, controlled, parallel groups trial is to assess the sleep, gut microbiome, cognitive, immune and stress effects of 56 days administration of three formulations of a prebiotic-based intervention, in comparison to a placebo control, in a cohort of healthy adults reporting poor sleep quality.
Cognitive Empathy is relevant in clinical practice and will be assessed based on the accuracy of pain recognition and the pain intensity evaluation in a computerised task using facial expressions. Repeated measures across day and night shifts will provide the basis to understand the impact of shift work on those abilities in health care professionals.
This is a double blind, randomised, placebo-controlled clinical trial aiming to assess the effectiveness of Caralluma fimbriata on stress, sleep and neurotransmitters in a healthy adult population.
This is a single-blinded observational randomized-control trial to study the efficacy of a dietary supplement and its effect on sleep quality, recovery, and workout performance.
This between-subject, longitudinal pilot study in healthy college students aims to explore the acceptability and preliminary outcomes of two novel and complementary interventions that may improve stress and sleep: transcutaneous vagus nerve stimulation (tVNS) and a mobile mindfulness intervention.
The proposed research and training will allow Dr. Alana Biggers to obtain critical research skills and study a mindfulness meditation program designed to improve sleep and reduce stress in African-American adults with diabetes. If effective, this program may reduce the risk of cardiovascular disease among African-Americans with type 2 diabetes who are at high risk of cardiovascular disease.
The purpose of this project is to compare a newly developed automatic reversing dynamic air mattress, with a regular care mattress, which is in daily use at the hospital. Focus will be on pressure relief in relation to occurrence of pressure injury, user satisfaction, and the mattresses impact on sleep and pain. The participants will be randomized to start with the intervention mattress or the control mattress. Outcomes will be measured via validated forms regarding pressure related injuries, quality of life, pain, and mattress comfort. Custom made forms will be used regarding resource use and comfort in the nursing service, especially in relation to position changes in the participants .
Mania is a serious condition. Symptoms of mania include decreased sleep, increased energy, changes in mood, thinking, and behavior. Dark therapy, which involves placing patients in a dark room for 14 hours overnight, can effectively treat mania, but is not practical. Dark therapy is also unpleasant. However, similar effects on the brain can be created from blocking only blue light with glasses. This preserves the wearer's ability to see and move safely. A trial of blue-blocking glasses for mania in Norway produced dramatic improvements in manic symptoms within three days of hospitalization. Mania both disrupts the sleep-wake cycle and is triggered by short and interrupted sleep. Examples of triggers include shift work and travel across time zones. Therefore, mania involves the "day-night" clock in the brain. The rhythm of the brain's clock is set by special sensors in the eye that identify daytime from blue light. If light does not include this blue spectrum, this informs the brain it is nighttime. In spite of the obvious potential of blue blocking glasses for mania, there has been no confirmatory study of this simple treatment in the five years since the initial Norwegian trial. Without a second study, this treatment will not find its way into routine clinical care. The investigators will conduct a randomized controlled trial of blue-blocking glasses for mania in hospitalized patients. The investigators will also assess activity, sleep, and saliva melatonin (a hormone secreted in the brain at night) to see how this treatment works. If our trial confirms that blue-blocking glasses are effective, this treatment could help those suffering with mania return to their life more quickly. Medications for mania can also cause serious side-effects and having glasses as a treatment option might also reduce the amount of medicine needed to get well. Blue-blocking glasses could be a low-cost non-medication treatment. The investigators will look at how they could put this treatment into practice as part of everyday care.