Active clinical trials for "Sleep Apnea Syndromes"

This study is designed to test whether SCN5A mRNA processing is altered in OSA patients, which may contribute to their increased arrhythmic risk, and whether processing of SCN5A mRNA is modulated by CPAP treatment. Specific aims: Compare sodium channel splicing variants in mild, moderate, or severe OSA patients at baseline to at 1 month after CPAP treatment. In addition, the baseline splicing variants of SCN5A in the OSA patients will be compared to an age-matched control group. Hypoxia-associated upstream regulators of SCN5a mRNA splicing, Hypoxia-inducible factor 1-alpha (HIF-1α), RNA Binding Motif Protein 25 (RBM25) and LUC7-Like 3 Pre-MRNA Splicing Factor (LUC7L3), will be examined in OSA patients before and after 1 month of CPAP treatment.

To assess the diagnostic validity and cost-effectiveness of a home respiratory polygraphy (HRP) performed at home compared with the standard polysomnography (PSG) in children with clinically suspected Obstructive Sleep Apnea (OSA).

Obstructive sleep apnea (OSA) is the most common type of sleep apnea. OSA affects an estimated 18-40 million adults and 0.7-3% of all children in the US. The marketplace currently does not have an affordable, easy-to-use, over-the-counter, home-based OSA screening device. An affordable, available, FDA-approved and easy-to-use over-the-counter OSA screening tool would allow greater screening of at-risk individuals, especially in underserved communities with low socioeconomic status, hopefully encouraging a greater proportion of such individuals to seek treatment for their condition. The specific goal of this project is to compare the Zansors® micro sleep sensor screening device against gold-standard polysomnography to establish the device's preliminary validity to screen for OSA accurately.

Heart disease is a major cause of ill-health and death in adults. The risk factors for heart disease, if present in children, carry over into adult life. Childhood obesity has reached epidemic proportions in Canada and is associated with many heart disease risk factors such as high blood pressure. Another complication of obesity is obstructive sleep apnea. Sleep apnea is marked by snoring at night, pauses in breathing and low oxygen levels and occurs in up to 60% of obese children, but it is diagnosed in less than 20% of obese children. Importantly, sleep apnea in children, like obesity, is linked with high blood pressure and heart disease. Thus, children with sleep apnea who are obese are likely to have an increased risk for high blood pressure and heart disease. Currently, there is little knowledge of the extent of heart disease in obese children with sleep apnea. The best treatment for both obesity and sleep apnea is weight loss. Weight loss strategies are generally not very successful and since 75% of obese children will become obese adults, urgent treatments are needed to reduce heart disease in the long-term. Treating sleep apnea in obese children may be one of the ways to reduce heart disease. Sleep apnea can be treated with continuous positive airway pressure (CPAP), which involves wearing a mask attached to a breathing machine while asleep. It is unknown how effective CPAP is in reducing heart disease in obese children. The investigators will recruit children with sleep apnea who are obese and test for heart disease risk. The investigators will then treat these children with CPAP. After 6 months of CPAP, the investigators will repeat the tests to determine if CPAP lowers the risk for heart disease. At the end of the 6 months, those receiving CPAP will be randomized to either continue CPAP or discontinue CPAP for a 2 week period. At the end of the 2 week period the participants will repeat the tests again to determine the magnitude of the effect of CPAP. The investigators expect that CPAP treatment for sleep apnea in obese children will reduce blood pressure and lower heart disease. These results will increase awareness of the dangers of sleep apnea in obese children, which will facilitate early diagnosis and treatment, ultimately reducing heart disease long-term.

The study objectives are to demonstrate the ease and safety of bilateral cervically implanted phrenic nerve stimulators for Central Sleep Apnea in patients with Heart Failure. To demonstrate the efficacy, both in the short and long term, of implanted phrenic nerve stimulators in patients with Central Sleep Apnea and Heart Failure. Central Sleep Apnea is a form of hypoventilation syndrome, for which this device is FDA approved. We will also determine if the patient's quality and duration of life is improved by using the PNS to treat CSA in heart failure patients.

This is a small pilot study to look at the feasibility of creating a customized sleep mask for use with Continuous Positive Airway Pressure (CPAP) or other similar treatments for sleep apnea. The participant will have three dimensional (3D) pictures of the face taken by special cameras. The pictures will be sent to a 3D printer and a mask will be created based on the participant's face contours. The participant will use the mask for about 6 months. The study will measure the amount it is used during sleep and if there is an increase in reported comfort.

Central Sleep Apnoea (CSA) affects up to half of patients with severe heart failure and is associated with a poor prognosis. CSA is manifest as episodes of deep breathing interspersed with very shallow or absent breathing and is largely due to an exaggerated response to rising carbon dioxide in the blood, which normally drives how hard we breathe. Cardiac Resynchronization therapy (CRT), in which a pacemaker is implanted to improve co-ordinated contraction of the heart, has been shown to reduce the severity of CSA in some patient groups. We aim to determine whether this improvement is due to normalization of the body's response to carbon dioxide in the blood. Our hypothesis is that CRT improves CSA by normalizing the brain's response to carbon dioxide.

The IBSY04 clinical investigation is an European, prospective, multi-centre, non-randomized, longitudinal study.

The purpose of this study is to investigate if 3 months of interval training improves obstructive sleep apnea in obese patients diagnosed with moderate to severe obstructive sleep apnea. The working hypothesis is that 3 months of 3 weekly aerobic interval training sessions improve obstructive sleep apnea and sleep quality in obese patients.

Patients with both sleep apnea and COPD have overlap syndrome, but their optimal management is not known. We plan to conduct a randomized trial of of bi-level PAP vs. night time oxygen to asses the impact of intervention on cardiac MRI and biomarkers.