View clinical trials related to Sleep Apnea.
Filter by:The purpose of this study is to look at how sleep disordered breathing (SDB) and not getting enough sleep each night contribute to daytime sleepiness. The investigators also want to determine the treatment that works best for improving daytime sleepiness. In this study, the investigators are comparing 2 programs that may improve symptoms of daytime sleepiness.
The aim of this feasibility study is to compare different settings of a custom-made automated bed with respect to their ability to induce a change in the sleeping position of the user. In particular, it is of interest whether the bed mechanism is able to change the position of a user from supine to lateral position. At the same time, the investigators want to know whether the intervention provided by the bed results in an arousal in sleeping users. In addition, feasibility of detecting the position of the user using the un-obtrusive pressure sensors, which are integrated in the bed, will be assessed. Within the experiment, the investigators will identify participants that are sleeping mainly in supine position by doing an acti-watch based screening measurement in their home setting. Those participants who are sleeping in supine position for more than 12.5% of the home recording with the acti-watch will be invited to come to the lab for one night measurement. The experimenter will trigger interventions of the bed manually when the participant is lying in supine position. The investigators will evaluate the position change using infrared cameras and the built in sensors of the bed. Furthermore, a commercially available home-measurement device to record polysomnography will be used to evaluate whether the intervention caused arousals.
The study is a thirty three week, prospective, open-label, randomized, parallel-group non-inferiority study. The study aims to investigate the Substantial Equivalence of a novel mandibular device called iSlprâ„¢, produced by BioAnalytics, to a currently approved device, SomnoDent® Classic, in the treatment of mild to moderate Obstructive Sleep Apnoea (OSA) and snoring.
This project will assess patients with diagnosed obstructive sleep apnea, to investigate the impact of poor sleep on central pain mechanisms. Furthermore, the project will explore if restoring good sleep hygiene can improve the central pain mechanisms that may be associated with the risk of chronic pain.
Obstructive sleep apnea (OSA) syndrome is associated with increased vascular dysfunction and atherosclerosis. Especially, it has been shown that OSA associated intermittent hypoxia represents a pro inflammatory stimulus resulting in macrophage polarization. Protein tyrosine phosphatase 1B (PTP1B) is a negative regulator of insulin signaling pathways involved in atherosclerosis. It has been shown that myeloid PTP1B deficiency protects against atherosclerosis. As hypoxia has also been shown to increase PTP1B expression and activity, this study will evaluate the myeloid PTP1B expression and activity in patients with OSA as compared to controls and will investigate myeloid PTP1B involvement in the vascular pro inflammatory precess described in OSA.
The purpose of this study is to better understand how sleep apnea contributes to the development of diabetes.
Despite the efficacy of intensive lifestyle interventions in prediabetes, the incidence of diabetes is rising, and thus there is a critical need for additional strategies to prevent diabetes and to reduce its cardiovascular complications in this high-risk population. Sleep apnea is a highly common condition in prediabetes, but it has been mostly ignored and undertreated in current practice. The proposed study will be the first to assess whether adding CPAP (continuous positive air pressure) treatment to a lifestyle intervention improves cardiometabolic outcomes beyond that achieved with lifestyle alone (i.e. current standard of care) in high-risk individuals with prediabetes.
Obesity and type 2 diabetes mellitus (T2DM) are reaching epidemic proportions in the developed world. In morbidly obese patients only surgical treatment (bariatric operations) leads to a sustained weight loss and relief of co-morbidities in the majority of patients. One of the most frequently performed operations is the laparoscopic proximal Roux-en-Y gastric bypass (LRYGB). There is still lack of knowledge why some patients respond much better than others to an identically performed procedure. Therefore, a number of variations of this operation have been introduced over the past 50 years. Increasing the length of small bowel being bypassed has the potential to improve the effect of the operation but buries the risk of nutrient deficiencies. The metabolic effect of LRYGB occurs, in part, independently of weight loss. The mechanisms underlying metabolic improvement through metabolic surgery are not yet fully understood.
This study will test a brief telephonic health coaching intervention to improve adherence to positive airway pressure therapy for treatment of obstructive sleep apnea.
The objective of this study is to evaluate the performance of a miniaturized sleep apnea test, called NightOwl. The system consists of a sensor placed on the fingertip and a cloud-based analytics software. The sensor acquires accelerometer and photoplethysmographic data. The software derives actigraphy from the former, and blood oxygen saturation and peripheral arterial tone (PAT), among other features, from the latter. In order to assess NightOwl's performance, the investigators will compare the respiratory event index (REI), defined as the number of respiratory events per hour of sleep, derived by the NightOwl system, to the apnea-hypopnea index (AHI) obtained from manual analysis of the polysomnography (PSG), which is the gold standard for sleep apnea diagnosis. The investigators will also compare the total sleep time (TST) derived by both systems. This study will be performed in a sleep lab environment.