View clinical trials related to Apnea.
Filter by:This is a randomized clinical trial in U.S. Veterans to evaluate the impact of treatment for obstructive sleep apnea (OSA) on the effectiveness of cardiac rehabilitation, including impact on exercise capacity, disability, and quality of life.
The SIESTA Home Sleep Study is a pragmatic, multi-centre randomized single-blinded two arm trial, assisted by a Decision Analytic Model, primarily designed to assess the accuracy, effectiveness and cost-effectiveness of diagnosing OSA assisted by ApneaDx™ as compared to PSG as a reference standard.
Patients with Congestive Heart Failure (CHF) on non-Intensive Care Unit medical services and/or visiting our outpatient Congestive Heart Failure Clinic will be screened using the STOP-BANG Scoring Model. (STOP-BANG stands for Snoring, Tiredness, Observed Apnea, Blood Pressure, Body Mass Index, Age, Neck Circumference, Gender.) Patients with high risk of Obstructive Sleep Apnea (OSA) will be referred for evaluation and treatment of Sleep Apnea. They will be followed to determine if treatment of Sleep Apnea improves their quality of life and decreases their utilization of the Hospital and Emergency Department (ED).
Obstructive Sleep Apnea (OSA) is under-diagnosed and is associated with increased cardiovascular morbidity and mortality. Laboratory-based overnight polysomnography (PSG) is the gold standard in clinical practice to diagnose OSA but has availability, cost, and resource limitations. In the last decade, an alternative diagnostic strategy, Portable Monitoring (PM) has emerged with the goal of reducing expense and delays in clinical management. In contrast to PSG, PM maybe performed unattended in homes, utilize different neurophysiologic and cardiorespiratory parameters, and may synthesize these data differently. PM is feasible and is approved by Centers for Medicare and Medicaid Services (CMS) in the United States. However, the diagnostic utility of PM in minority and underserved populations is not defined. African-Americans are more severely affected by hypertension and cardiovascular disease (CVD) than other ethnic groups and OSA is more common in this population. OSA is a treatable cause of hypertension. Despite this the impact of timely interventions for OSA on health outcomes and risk reduction specific to African Americans is unknown. Purpose of this research: In view of the vulnerability of this population and the potential for improvement in healthcare access for OSA with home-based diagnosis, this study aims to establish the feasibility and identify the potential advantages and limitations of home-based diagnosis of OSA in a high-risk urban African-American population including veterans with frequently limited access to healthcare. Hypothesis: The investigators hypothesize that home-based PM is not inferior to standard laboratory-based PSG in effectively diagnosing OSA in urban African Americans.
This study will provide capnography monitoring during routine upper endoscopy and colonoscopy with moderate sedation in order to see if it improves safety.
Obstructive sleep apnea (OSA) can impars body weight reduction by changes in body composition and energy expenditure. The objective of this study is to evaluate the influence of OSA in energy metabolism and body mass loss in obese subjects. Ninety obese volunteers of both genders, 45 diagnosed with OSA and 45 without OSA, will be submitted to a dietary intervention of one months. Volunteers will be distributed into four groups: obese OSA PTN with moderate protein diet (1.6 g / kg protein / day), obese OSA CHO diet (0.8 g / kg protein / day) with standard composition diet, obese NSAOS PTN diet moderate in protein and CHO NSAOS obese standard diet. All groups will be instructed to perform a restricted energy diet (less 30% of daily energy expenditure). At baseline and one month after the beginning of the program the following evaluations will be conducted: total energy expenditure measured by doubly labeled water method, resting energy expenditure and thermic effect of food by calorimetry, polysomnography analysis, body composition by pletysmography, food consumption by three days of food diary, blood collection for analysis of lipid profile, visceral proteins, hormones related to control of body weight and inflammation. As hypothesis we believe that apneic obese individuals have greater difficult in weight loss and loss more free fat mass than the obese no apneic and that diets with more protein can contribute to greater weight loss, better body composition and energy expenditure in these population.
The study objective is to collect heart rate, respiration rate and motion data of patients admitted to sleep lab and to determine the accuracy level of the EarlySense system vs. the monitors used in sleep lab (e.g., Polysomnography, respiratory belts, ECG, etc..) . Data regarding sleep condition, scoring and quality of sleep and in and out of bed status, patient turns will also be collected and compared to data collected by EarlySense contactless monitor. Different patient population will be monitored including obese, morbidly obese, patients with or without obstructive/central apnea, patients with or without arrhythmia as well as healthy population who arrive to sleep lab for general evaluation will be monitored
Severe obstructive sleep apnea (OSA) is associated with increased cardiovascular morbidity and mortality. Endothelial dysfunction, an early marker of vascular disease has been demonstrated in OSA. Regular treatment of OSA by continuous positive airway pressure (CPAP) improves endothelial function and is associated with a reduction in cardiovascular risk. Approximately 40% of patients with OSA are intolerant or insufficiently adherent to CPAP. Alternative treatments or adjuvants to the CPAP are needed. The polyphenols have demonstrated their effectiveness in improving endothelial function in patients with CV disease. No randomized controlled studies have evaluated the impact of PPR on the endothelial dysfunction associated with OSAHS.
This study is being conducted to determine whether inhaling exhaled carbon dioxide is effective for the treatment of sleep apnea. A mild increase in this gas can stimulate the respiratory drive by 2-3 fold, which in turn can stimulate the upper airway dilator muscles and decrease the severity of obstructive sleep apnea by at least 50% in selected patients.
The purpose of this study is to investigate the effect of 3 months of continuous positive airway pressure (CPAP) treatment of obstructive sleep apnea (OSA) in moderate to severe cases in patients with chronic kidney disease. The effect is evaluated on blood pressure levels, particularly nocturnal blood pressure, both central and peripheral, and renal function, including the kidneys treatment of salt and water. Hypothesis: 1. Central 24-h blood pressure measuring is a reveals fluctuations in blood pressure during the day more accurately than peripheral 24-h blood pressure measuring because the measurement is painless and does not interfere with the patient activities during the daytime or nighttime sleep. 2. Central blood pressure is elevated in patients with OSA and falls during treatment with CPAP. 3. The renal tubular function relating to the treatment of water and sodium is abnormal in patients with OSA with increased tubular absorption of water via the U-aquaporin 2 (u-AQP2) and of sodium by epithelial sodium channel (ENAC) and is normalized during treatment with CPAP. 4 Quality of life is improved during treatment with CPAP.