View clinical trials related to Sleep Disorders.
Filter by:Sleep is essential for health and well-being. The quality of sleep impacts physical and cognitive aspects, including memory, immune system, and neuroendocrine function, with abnormalities associated with cardiovascular changes, neuropsychiatric disorders, and mortality. Additionally, sleep disorders are related to an increased incidence of delirium in Intensive Care Units (ICUs). Routines to control environmental factors in ICUs seem to have an impact on reducing the incidence of acute brain dysfunction - delirium - and could help prevent sleep disturbances in critically ill patients. This study aims to demonstrate an improvement in sleep quality in critically ill patients through the reduction of the Richards-Campbell Sleep Questionnaire score and propose a package of measures to improve sleep practices in ICU-admitted patients.
A randomized, double-blind, placebo-controlled clinical trial on the ability of a dietary supplement containing melatonin and herbal products to improve sleep quality in subjects with insomnia problems with a 15-day follow-up period.
The study "Nutritional Trial With Probiotic Fortified Milk in Women Affected by Insomnia" is a part of a complex and multi-sectoral development research project (PROS.IT) with the participation of University Research Institutes and small/medium Italian enterprises. The general objective of the Project is to promote the collaboration between the best scientific research, both epidemiological and experimental, and the most advanced technologies to develop fortified foods that meeting the specific nutritional requirements of adult consumers. This objective will be achieved by the nutritional improvement of primary production, the development of innovative functional foods at high added value, in addition to traditional products functionalized, which are peculiar of the Italian local districts.
Among the patients with Parkinson's disease, about 40%~50% will suffer from depression, 40% will suffer from anxiety, and 40%~60% will suffer from sleep disorder. These non-motor symptoms of Parkinson's disease will cause great physical and psychological pain and affect the quality of life seriously. Commonly used therapeutic drugs, such as selective serotonin reuptake inhibitor (SSRI) and clonazepam, can cause a variety of side effects, including serotonin syndrome, sexual dysfunction, daytime fatigue, insomnia, residual effects and increased risk of falls. Therefore, a new and more reasonable therapeutic choice should be sought. Agomelatine is a new type of antidepressant with novel mechanism, and can improve sleep structure and circadian rhythm. The aim of this multi-center randomized controlled trial (RCT) is to clarify the role of agomelatine in improving sleep disorders and depression in patients with Parkinson's disease
Cerebral palsy (CP) is the most common cause of child disability. Nearly 40% of PC children suffer from sleep disorders, which are not routinely screened. The neuro-cognitive, physical and environmental morbidity of sleep disorders should require their diagnosis and management. Limited access to the reference exam (polysomnography or PSG) delays the diagnosis and only allows screening of these disorders for a limited number of PC children. The hypothesis of our study is that connected technologies could optimize screening for sleep disorders in PC children by selecting children requiring PSG exploration and specific management.
The light has visual and non-visual effects on organism and can act on the behavior, the mood, the cognition and the sleep. These effects are mediated by "classical" retina photoreceptors which allow vision (rods, cones) but also melanopsin cells. The non-visual effects of light seems to be altered in many neurological, psychiatric or ophtalmological conditions but their exact role in the pathogenesis remains poorly understand. The purpose of the study is to increase our knowledge of the non-visual effects of light and establish new therapeutic applications
The purpose of the study is to compare vascular and functional neurological changes of acupuncture in patients with Parkinson's Disease and Sleep Disorders. In the randomized controlled clinical trial study, patients meeting the criteria for inclusion will be randomly enrolled and divided into two groups in a 1:1 ratio: the acupuncture group and the sham acupuncture group. The intervention is going to be executed using the acupoints GV14(Dazhui)and GB20 (Fengchi).The acupuncture needles will be inserted to a depth of 0.8 to 1 cm using GV14(Dazhui)and GB20 (Fengchi) in the acupuncture group. The sham acupuncture group's needles will be inserted to a depth of 0.1 to 0.2 cm with nonacupuncture points located 0.5 cm in lateral to the real acupoint or to the right for midline points.During the study, researchers will observe changes in cerebral blood vessels and neuroimaging before and after acupuncture in the two groups. Using multimodal fusion advanced vascular-neuronal imaging techniques could evaluate the effect of acupuncture on brain blood vessels and function in patients with Parkinson's disease and Sleep Disorders and provide an objective neuroimaging basis for assessing the effectiveness of acupuncture.
Sleep disturbances frequently occur in intensive care unit (ICU) patients undergoing mechanical ventilation. In a previous study, sedative dose dexmedetomidine (median 0.6 microgram/kg/h) improved sleep quality in mechanically ventilated patients. However, for mechanically ventilated patients, light sedation is better than deep sedation for the outcomes, which is manifested as shortened length of ICU stay, shortened duration of mechanical ventilation, and decreased mortality. In a recent study of the investigators, non-sedative low-dose dexmedetomidine (0.1 microgram/kg/h) improved sleep quality in non-mechanically ventilated elderly patients admitted to the ICU after surgery. The investigators hypothesize that, in mechanically ventilated patients who are admitted to the ICU after surgery, low-dose dexmedetomidine may also improve sleep quality.
Brain Entrainment Technology (BET), also known as Binaural Beat Technology (BBT); is an auditory-neurophysiologic technique which uses auditory tones (often embedded in music, nature sounds or white noise) dichotically via stereo headphones to manipulate brainwave activity in turn affecting the listener's mental, physical and/or emotional state. Although this technology is widely marketed to the general public and can be found free in on the internet, only a hand full of scientific studies have shown its efficacy. This study is a follow-on study to the "Sound Mind Warrior (SMW) Study" (ClinicalTrials.gov [NCT02328690]) conducted 2012-2015 which assessed the efficacy of the technology (in the "theta" brainwave frequency) on the cardiovascular stress response in a group of service members with complaint of chronic stress. This study will now assess BET (in the "delta" brainwave frequency) on sleep quality in a population of military healthcare beneficiaries with complaint of poor sleep quality.
Measure pulse wave velocity stability in relation to time of day, day of the week, physical activity, sleep quality, stress levels and blood pressure.