View clinical trials related to Sleep Apnea.
Filter by:The aim of this randomized controlled trial is to test the effect of 12 weeks Adaptive Servo-Ventilation (ASV) therapy (additionally to optimal medical management of myocardial infarction) on myocardial salvage (MSI=myocardial salvage/area at risk, primary endpoint).
The purpose of this study is to compare cardiovascular physiological adaptation to intermittent hypoxia (IH) of nonobese healthy subjects. The exposure will be two periods of two weeks (IH versus exposure "placebo hypoxia"). The investigators will use pharmacological tools, peripheral vasodilator (amlodipine) or specific blocker of angiotensin receptor (valsartan) versus the taking of a placebo. The allocation of the tool and the exhibition will be randomized (HI / placebo, valsartan / amlodipine). The outcome measures evaluated concern the cardiovascular system, systemic inflammation and tissular and glucose metabolism. The investigators assume an increase in arterial resistance during the intermittent hypoxia compared to the control group, these being dependent on sympathetic tone. The investigators hypothesize that the metabolic alterations that will be observed after experimental simulation (IH and fragmentation of sleep for 15 consecutive nights) will be less severe in the valsartan group than in the amlodipine group in comparison with the placebo group. A serum bank and a gene bank will be performed for the requirements of subsequent studies if necessary.
To relate two different predictive values of sleep apnea: the STOP score (snoring while sleeping, daytime tiredness, observed breathing stoppages, and high blood pressure) and the estimated respiratory disturbance index (eRDI) with the occurrence of apnea-hypopnea during propofol sedation,thirty four middle-aged male patients who underwent urologic surgery under spinal anaesthesia will be enrolled. Before surgery, patients will be asked to complete a STOP-questionnaire. The eRDI will be calculated using the modified Mallampati's grade, tonsil grade, and the body mass index. After performing spinal anaesthesia, propofol will be infused and adjusted to BIS 70-75. An ApneaLinkTM, which measures airflow through a nasal cannula, will be then applied to estimate the level of apnea-hypopnea.
This is a multi-center, prospective registry designed to monitor the outcomes of renal denervation with the OneShot Device in a real-world patient population.
Sleep apnea syndrome (SAS) is a common comorbidity of type 1 and type 2 diabetes. A low transcutaneous oxygen tension (PtcO2) measured on the foot is pejorative prognostic factor for the healing of a diabetic foot wound. SAS causes intermittent nocturnal hypoxia and sympathetic overactivity. The investigators hypothesized that SAS could be a factor reducing the PtcO2.Therefore, the main objective of this study is to assess the variation in PtcO2 between the end of the night and midday in patients with -or at risk of- diabetic foot wound according to the presence or not of sleep apnea syndrome.The secondary objective is to address the microvascularisation of diabetic patients having foot wounds according to their status regarding sleep apnea syndrome.
Sleep apnea syndrome is clinically defined by frequent pauses in breathing during sleep and symptoms, such as being tired. It can decrease the restfulness of sleep and decreases the level of oxygen in the blood. Sleep apnea patients suffer from daytime sleepiness, hypertension, coronary artery disease (CAD), stroke, ischemic heart disease, arrhythmias, pulmonary hypertension, heart failure, and premature death. There is significant evidence suggesting that nighttime decreases in blood oxygen levels are the primary cause of many of the abnormalities associated with this disease. Epidemiological studies have demonstrated a surprisingly high prevalence of sleep apnea. Mild sleep apnea is present in 17% of adults in the general population and moderate to severe sleep apnea is present in 5.7% of adults. Among patients with heart failure the prevalence skyrockets. Multiple studies have found the prevalence of moderate to severe sleep apnea to be anywhere from 11-53% in heart failure patients. Continuous positive airway pressure (CPAP) therapy is currently the standard of care for sleep apnea sufferers regardless of the severity of their disease. In patients without heart failure, CPAP therapy has numerous benefits and several long term studies have reported that CPAP causes less cardiovascular disease as well as a long term improvement in cardiovascular symptoms and mortality among patient with severe sleep apnea. In heart failure patients, CPAP has shown some beneficial short term effects but evidence of long term improvements in symptoms and mortality are lacking. Compliance with CPAP therapy reduces systolic blood pressure, improves cardiac function, raises oxygen levels, and increases exercise tolerance. On the other hand, CPAP has not been shown to affect survival or number of hospitalizations in heart failure patients. Moreover, compliance with CPAP is often poor and many people cannot tolerate it. This further limits the therapeutic effectiveness of this intervention. The purpose of this study is to assess whether nocturnal oxygen administration via nasal cannula alone can improve outcomes in congestive heart failure patients with moderate to severe sleep apnea. The effects of nocturnal oxygen administration will be assessed by using biomarkers of heart stress and markers of whole body inflammation.
Sleep Apnea (SA) is a disorder that causes pauses in breathing during sleep that expose the heart to oxygen deprivation. It is common in patients with heart failure (HF) where it is associated with increased risk of hospitalizations and death. It is not known however whether treating SA reduces these risks. This study is looking at whether a respiratory device known as Adaptive Servo Ventilation (ASV) can reduce the rate of cardiovascular hospitalizations and death in subjects with HF and SA. Study subjects will randomly receive either their regular medications OR their regular medications plus ASV. They will be followed for approximately 5 years and information relevant to their health will be collected and compared.
The role of continuous positive airway pressure (CPAP) in cardiac function in patients with CSA and OSA has been studied with varying results. Nevertheless, it is not clear whether CPAP treatment for respiratory sleep disorders in CHF could slow down deterioration or improve the cardiovascular function. In an attempt to yield further insight into this subject, we undertook a multicentre study to analyze the role of CPAP therapy (optimal vs sham) in the LVEF and in other cardiac measurements in patients with CHF.Aim. We evaluated in a randomized multicentre placebo (sham-CPAP) controlled study the effect of CPAP treatment on the left ventricle ejection fraction (LVEF) among other cardiological related variables.