View clinical trials related to Sleep Apnea Syndromes.
Filter by:The purpose of this study is to investigate the effects of mandibular occlusal stabilization splint (OSS) and modified farrar splint on sleep bruxism and respiratory indices and the effects of occlusal splints on the airway volume through imaging.
Shared decision-making helps patients to establish a treatment plan with clinicians together. Our goal was to determine if the tools we developed could reduced decisional conflict for patients with obstructive sleep apnea.
Sleep apnoea (SA) is a common condition in adults and children that causes disturbed sleep and daytime symptoms. It is characterised by disrupted breathing with disturbed sleep patterns. In adults this can lead to dangerous daytime sleepiness affecting for example driving performance. In children it may lead to hyperactivity in the day and poor school performance. There are a number of techniques for diagnosing the disorder but they can affect the quality of sleep which sometimes makes them inaccurate. Most are unsuitable for small children who cannot understand the value of the tests and tend to remove the monitoring wires and devices in the night. This study aims to validate a new non contact device "Safescan", based on low power radar technology, which can be put under a bed and record breathing patterns with no measuring device in contact with the sleeper. In this initial study the device will be validated in adults, against the gold standard of polysomnography (PSG) in the sleep laboratory at Royal Papworth Hospital.
This study tested a low-resource, brief telephonic health coaching intervention to improve adherence to positive airway pressure therapy for treatment of sleep apnea.
The AMISLEEP study is nested in the "FRENCHIE" registry. The objective is to use routine clinical and polygraphic data to capture SDB/SAS (Sleep Disordered Breathing/Sleep Apnea Syndrome) physiological heterogeneity in relation to clinically relevant cardiovascular outcomes. Specifically, the investigators hypothesize that unique clusters (phenotypes) of patients could be identified by applying unsupervised learning methods to these data and that the clusters would be differentially associated with risk of adverse cardiovascular outcomes (ACS), TIA, stroke or death). The ultimate goal is to identify patients more at risk that could be included in interventional studies that would test whether SDB/SAS treatment can improve this risk.
The primary objective of the PLUTO study is to evaluate the safety and tolerability of the ZENS transcutaneous nerve stimulator device in primary snorers and those with mild obstructive sleep apnea. The study will assess the impact of ZENS on snoring frequency, duration, and other relevant sleep parameters. The intended purpose of the investigational device is to deliver a transcutaneous electrical stimulation signal to the hypoglossal nerve in the "ON" phase in order to alter the apnea hypopnea index (AHI), as well as mean snoring burden (intensity, duration), and to deliver no signal in the "OFF" phase of the study as a means for comparison. Subjects utilizing the ZENS Device will experience a reduction in snoring during the "ON" versus "OFF" phase, as quantified by a reduction in the percentage of time per hour of snoring (≥40 dB) in the active ZENS Device ("ON" phase) versus the inactive ZENS Device ("OFF" phase).
This clinical trial is designed to evaluate the performance, comfort, and usability of a new nasal pillows mask for the treatment of obstructive sleep apnea (OSA) in a home environment.
Comparison of the prevalence of obstructive sleep apnea (OSA), measured by polysomnography in normal weight patients with central obesity by body mass index (BMI) and waist hip ratio (WHR), with normal weight patients without central obesity by BMI and WHR. Evaluation of arterial stiffness and vascular age in normal weight patients with central obesity and in normal weight patients without central obesity. Determination of the exercise response characteristics in OSA patients.
Continuous positive airway pressure (CPAP) is the first line therapy for Obstructive Sleep Apnea Syndrome (OSAS) but has limited impact for reducing cardio-metabolic risk. Combined treatment strategies including physical activity and weight loss management have emerged in association with CPAP. Patient's engagement might be supported by connected devices and smartphone applications measuring physical activity, blood pressure, weight and sleep duration. Data fusion of these parameters with CPAP-remote telemonitoring will allow personalized coaching and integrated care of OSAS with cardio-metabolic co-morbidities.
The purpose of this study is to evaluate the effect of Asate Silent Sleep Training on obstructive sleep apnea (OSA) severity in patients with mild to moderate OSA. The Asate Silent Sleep Training is a muscle strengthening program that uses exercise equipment (a musical instrument that is based on the didgeridoo). The equipment is connected to an application, which provides instruction on how to perform the strengthening exercises, measures the sound produced by the musical instrument, which enables the app to provide feedback on whether the individual should blow less or more and also tracks adherence to the strengthening program.