View clinical trials related to Sleep Apnea, Obstructive.
Filter by:Obstructive sleep apnoea (OSA) is characterised by a partial or complete collapse of the upper airway during sleep. The treatment of choice for OSA is Continuous Positive Airway Pressure (CPAP). CPAP acts as a positive airway splint, delivering a fixed positive airway pressure to the upper airway via a tube and mask. Compliance, however, to therapy requires that the mask is suitably comfortable so as not to disturb sleep. A key contributor to comfort is the seal component of the mask system. Current mask seals are mainly silicone elastomers, which though well understood and accepted, are often uncomfortable. It is proposed to replace the solid elastomer with a soft polymer foam. The foam is highly porous, and has open cells at its surface. It is therefore more likely to accumulate biological material with repeated use. The current (silicone) material does not present any problematic bioburden issues. Therefore it is important to investigate whether the foam will present bioburden problems to patients, within specified usage parameters. The aims of this study therefore are: 1. to observe the rate of bacterial accumulation on foam mask seal material (polyether polyurethane,) 2. to determine the replacement interval for a foam mask seal, and 3. assess the comfort and function of a foam mask seal.
Primary Endpoints: •Comparison of difference in AHI at one-week in-lab polysomnography between "device on" and "device off" nights, controlling for sleep position (supine vs. non-supine) Secondary Endpoints: By polysomnography, reduction in: - AHI with device on vs. off at 3 months, controlling for sleep position - Oxygen desaturation index with device on vs. off - Arousal index with device on vs. off - Duration of snoring with device on vs. off - Epworth Sleepiness Scale Patient acceptance, in terms of: - Refusal rate at screening - Discontinuation rate during follow-up - Daily compliance rate - Device-related adverse events - Serious adverse events
The purpose of this study is to determine whether patients with obstructive sleep apnea have any changes in left ventricular function and structure after 06 months of continuous positive airway pressure treatment.
Sleep disordered breathing (SDB) is a common problem in the adult population. By conservative estimates, 4% of the adult female population has SDB. SDB is a recognized cause of hypertension and treating SDB can improve blood pressure control in people with hypertension. More recently, research efforts have looked at SDB as a possible cause of pregnancy induced hypertension (PIH), a condition which complicates 10% of pregnancies. Traditionally, the best way to assess SDB required patients to spend a night sleeping in the Sleep Laboratory. This is inconvenient and for pregnant women often impossible to arrange, considering the short time frame that exists between time of PIH diagnosis and eventual delivery. Researchers at the University of Saskatchewan are now looking at whether an adequate sleep assessment can be performed at the bedside - either in a patient's home or on the hospital ward. The researchers will also look at different treatment options for sleep apnea, to see if these can improve blood pressure control in this patient population, and delay the need for early delivery. The information from this study may result in a detailed sleep assessment becoming part of the complete assessment of women with PIH. There is an association between sleep disordered breathing (SDB) and gestational hypertension (GHTN). Treatment for the SDB may represent an effective addition to the management of the cardiovascular and metabolic perturbations of GHTN We plan to assess women whether treating SDB with one of two methods will improve the management of GHTN. We will also assess if one method is more effective than the other.
Heart failure affects approximately 5-6 million North Americans and is increasing in prevalence. Sleep-related disorders, such as obstructive sleep apnea (OSA) often coexist (11-37% incidence) with heart failure. OSA is the repeated temporary interruption of breathing during sleep and occurs when the air passages in the upper respiratory tract become blocked during sleep. OSA adversely affects the cardiovascular system resulting in hypoxia (decrease in oxygen supply), which decreases the oxygen supply to the heart. Patients with OSA are treated with continuous positive airway pressure (CPAP). It has also been shown that CPAP reduces angina during sleep, minimizes sympathetic nervous system (SNS) activation and improves left ventricular (LV) function, although the mechanism of action is not clear. Carbon-11 acetate PET imaging allows for the assessment of how the heart works and how efficiently the heart uses oxygen in certain circumstances. Carbon-11 hydroxyephedrine (HED) measures cardiac nervous system activity, which may have an effect on heart rate. The study will evaluate the term effects of continuous positive airway pressure (CPAP), a common treatment for patients with OSA, on the heart's efficiency or ability to work and its effect on the nervous system activity of the heart. Two patient groups will be evaluated 1.) patients with congestive heart failure and obstructive sleep apnea will be randomized to early or late CPAP to address the primary hypothesis of the study and 2.) patients with congestive heart failure only (matched control group). Both the primary randomized study group and secondary study group will be evaluated using [11C]acetate PET, [11C]HED PET and echocardiography. Measurements will be obtained at baseline, 1 week (where possible) and 6-8 weeks.
Oral appliances, which can maintain patients' jaw forwards during sleep, become more popular in treating obstructive sleep apnea (OSA). However, the exact mechanism of mandible forward on upper airway is not completely known. In this study we will use both static and dynamic MRI to study the 3D morphological changes and dynamic behavior of the upper respiratory tract at different mandible posits. Because in asian society non-obese OSA patients are not uncommonly seen, in this study we focus only on non-obese severe OSA patients.
That ThermoSMart humidification will result in greater compliance (mask on time, objective and subjective sleep quality than conventional humidification.
Nasal Continuous Positive Airway Pressure (CPAP) is the standard therapy for obstructive sleep apnea hypopnea syndrome (OSAHS). This is most commonly administered as a single positive pressure that has been individualized for the patient to prevent obstructive respiratory events. However, the therapeutic pressure may vary by sleep stage and body position within a single night and may change over the course of several nights. One approach to dealing with this variability is the use of automatically adjusting CPAP that responds to patient breathing patterns with alterations in the delivered pressure. This study is designed to determine the effectiveness of using the energy spectrum analysis of flow signals to automatically adjust CPAP pressure and improve sleep variables. Thirty subjects who require CPAP will be recruited from the NYU sleep disorders center. Following diagnostic studies (either split night or full night) the subject will undergo a night of treatment with the Fisher and Paykel Healthcare AutoPAP. Efficacy of treatment will be evaluated based on normalization of sleep disordered breathing while treated with the AutoPAP.
The primary objectives of this study are to evaluate the safety and efficacy of VI-0521 compared to placebo in the treatment of obese adults with obstructive sleep apnea (OSA) and to assess the relative contributions of weight loss on parameters of OSA in these subjects.
Recent evidences suggest that obstructive sleep apnea (OSA) can contribute to cardiovascular disease even in the absence of hypertension. However, there are few data regarding the impact of OSA on the preHypertension and Masked Hypertension in apparently normotensive patients with OSA as well as the impact of treatment with continuous positive airway pressure.