View clinical trials related to Apnea.
Filter by:This is a randomized controlled Trial to evaluate effect of a culturally and linguistically tailored, telephone-delivered behavioral intervention on adherence to recommended assessment and treatment of sleep apnea in Blacks with Metabolic Syndrome. The investigators believe low awareness of Sleep Apnea and the risk it imposes to an individual health plays an important role in underdiagnosis and low adherence to treatment among Blacks. Hence, culturally and linguistically tailored health education will decrease the knowledge gap and improve adherence to recommended assessment and treatment of sleep Apnea. the investigators believe the effect of adherence to treatment of Sleep apnea is shown to improve the components of Metabolic syndrome and hence promote well control of Hypertension, Diabetes, weight, triglyceride and cholesterol.
This study evaluates the intervention of the 1) sodium-restricted diet, or 2) diuretic, or 3) placebo pill in the treatment of obstructive sleep apnea in adults.
Sleep apnea syndrome is strongly associated to type 2 diabet, partly and this is partly due to obesity. Treatment of sleep apnea may improve hypertension, cardiovascular risk and in some studies diabetes status. Few data are available for type 1 diabetes but suggest that the prevalence of sleep apnea syndrome may be high. We plan to compare the prevalence of sleep apnea syndrome assessed by polysomnography in a sample of type 1 diabetic patients and a control group matched by age, gender and body mass index. The secondary objective is to determine if the presence of an autonomic neuropathy or poorly controlled diabetes (assessed by glycosylated haemoglobin) may or not contribute to the presence of sleep apnea in the diabetic group.
Obesity is very common worldwide and breathing problems at night (obstructive sleep apnea, OSA) are common in obesity. Despite the best treatment, obesity and OSA are linked to early death from heart problems. They are also associated with lower levels of physical activity. Exercise strategies for weight loss, increasing physical activity and improving fitness are needed for obesity. In Obese individuals with OSA 1. The investigators will compare corridor walking tests compared to laboratory exercise tests. The null hypothesis is that the peak oxygen uptake achieved and the cardiopulmonary response during both the six-minute walk test and Incremental Shuttle Walk Test would not be different from that observed during an Incremental Treadmill Test. 2. The investigators will investigate whether cycling or walking uses more calories for the same intensity. We hypothesise that cycling (weight supported) will be endured for long. 3. The investigators will compare commonly used exercise tests with levels of daily physical activity. The information from these three projects will help us set up the optimal exercise program for obese individuals.
OSA is a major chronic condition affecting the quality of life of millions of Americans. Per the Institute of Medicine new treatment adherence strategies are needed to help improve the quality of care, reduce social and economic costs, and help those with chronic conditions (such as OSA) live healthier and more productive lives through better management of their conditions. Using an mHealth tool to help deliver the investigators' Self-Management intervention and improve the frequency and quality of patient-provider communications is a central component of that discovery process.
In premature infants, apnea of prematurity is one of their major clinical problems. Caffeine is currently a worldwide therapy to reduce the number and severity of these apneas. This practice has shown to be safe on cognitive and neurodevelopmental outcomes at 18 to 21 months of age. However, caffeine is not 100% effective, and may have little effect on hypoxemia and bradycardia. Infants with intractable apneas unresponsive to caffeine treatment may require endotracheal intubation and mechanical ventilation. This procedure is invasive and has been associated with complications and increased risk for chronic lung disease and adverse neurodevelopmental outcome. Therefore, an alternative treatment modality would be preferable if it would prevent the infants from requiring endotracheal intubation. The investigators have been testing the overall hypothesis that small concentrations of inhaled CO2 (~1%) are effective in treating apnea of prematurity. The investigators have completed three studies in preterm infants showing that inhalation of low concentration of CO2, in infants not on caffeine, regularize breathing and decrease apneas significantly. The effects of inhalation of CO2 in infants already on caffeine, are unknown. The hypothesis to be tested is that inhalation of low concentration CO2 (1%) will significantly reduce apnea in infants treated with caffeine. The investigators have three specific aims in this proposal. 1) the investigators want to know if the apnea rate (number of apneas of ≥5 seconds/hour) is decreased with CO2 inhalation in preterm infants already on caffeine for the treatment of apnea of prematurity; 2) the investigators want to know whether inhalation of CO2 can make breathing more regular with less apneic time and whether it decreases prolonged apneas (>20 seconds) in infants already on caffeine for the treatment of apnea of prematurity; 3) the investigators want to assess the effect of inhalation of low concentration of CO2 on the regional oxygen saturation of the brain measured by near-infrared spectroscopy (NIRS) during apneas. This is to see whether CO2, by protecting cerebral blood flow, minimizes the decrease in cerebral oxygenation during apneas. This study entails a new and possibly more physiological method of treating apneas of prematurity that can be added to the present treatment of caffeine. These two treatments together, could minimize the number and severity of apneas and possibly decrease the need for mechanical ventilation in preterm infants.
Our group previously conducted a study looking at the performance of three styles of positive airway pressure masks during laboratory treatment studies for obstructive sleep apnea, and we found that patients using a full-mask mask required higher positive airway pressures than patients using nasal or nasal pillows style masks to achieve successful reduction of respiratory events. In the current study we want to randomly assign patients to either nasal or full-face masks and then switch to a different mask (if nasal was originally chosen than the mask will be switched to full-face and vise versa) after 3-weeks of use to see if the number of respiratory events change with the different mask style. We expect the number of respiratory events will increase with the use of full-face masks.
After routine induction of general anaesthesia peak airway pressure (= P max) and other respiratory parameters(i.e. expiratory tidal volume, expiratory CO2) are measured with and without head support in three different head positions: neutral position, reclination of the head, a position deemed ideal by the anaesthesist; primary study goal is pmax depending on different head positions;
The purpose of this research study is to develop a way of predicting with computers how surgery on the airway will affect night time breathing called Obstructive Sleep Apnea (OSA) in children with Down Syndrome. A research measurement for airway resistance will also be done during the clinical sleep MRI. The airway resistance measurement will take about 10 minutes and is done during sleep. The airway resistance measurement is called critical closing pressure (Pcrit).
Diabetes self-management is important to help adults with type 2 diabetes achieve glucose control. Obstructive sleep apnea often co-exists with type 2 diabetes and may act as a barrier to diabetes self-management and glucose control. We will examine if treatment of obstructive sleep apnea with continuous positive airway pressure (CPAP), combined with diabetes education, results in improved diabetes self-management and glucose control.