View clinical trials related to Apnea.
Filter by:Continuous positive airway pressure (CPAP) continues to be the primary therapy prescribed for the treatment of obstructive sleep apnea (OSA). Although effective, adherence to CPAP is suboptimal in many patients, making alternative therapies desirable. Recently, a novel device (Proventâ„¢) has been developed for the treatment of snoring and OSA. The purpose of the current study is to examine how well the Proventâ„¢ device treats OSA with particular attention to the how the it may treat sleep apnea and who may most likely benefit from the use of this treatment.
Obstructive sleep apnea syndrome (OSAS) is a common disorder in children (2-3%). OSAS in turn, is associated with significant behavioral, learning, and heart problems. Adenotonsillectomy (T&A, meaning the removal of tonsils and adenoids) is the most common treatment for the problem .Diagnosis of OSAS in children is based on overnight polysomnography (sleep study). Recent studies suggest that upper airway and systemic inflammatory changes exists in school-age children and adults with OSAS, and that anti inflammatory therapy can improve respiratory parameters during sleep and reduce adenoid size, similar to surgery. However, there are no data in the literature on inflammatory changes in infants with the disorder. Healthcare resources utilization, a sensitive marker for diseases is consumed by young children (<3y) with OSAS more then healthy children, from their first year of life We hypothesize that infants and young children with OSAS present local inflammatory changes of the airways as well as systemic inflammation (in the blood or urine) that contribute to the learning, growing and heart associated medical problems. The Aims of the present study are to characterize the local and systemic inflammatory changes of young children with OSAS, and to evaluate their associated medical problems at diagnosis and after therapy (T&A) If indeed inflammation is "responsible" for the development of OSAS at such a young age it should be reduced following therapy (i.e. T&A). In such a case bio-markers may become a part of the algorithms for diagnosis and follow up of such patients.
Single site study: The goal of the study is to determine the incidence of new onset atrial fibrillation (AF) in patients with severe obstructive sleep apnea (OSA) syndrome through the use of a Medtronic Reveal XT implantable Loop recorder (ILR). The ILR device is approved for use in Canada, for the assessment of atrial fibrillation.
There is a clear link between obstructive sleep apnea (OSA) and cardiovascular disease. However, there has been no clear link between OSA and venous thromboembolism (VTE). The objective of this study is to evaluate such a link.
The objective of the study is to determine if treatment with Ramelteon will help to improve insomnia in older adults with co-existent insomnia and sleep apnea. The primary study objective is sleep latency (a measure of insomnia). The hypothesis is that sleep latency will be reduced in subjects taking Ramelteon relative to the placebo arm. The secondary study objective is to determine if subject compliance with CPAP treatment of their sleep apnea is improved in subjects taking Ramelteon (their compliance may be improved because they would have less insomnia due to Ramelteon treatment when using their CPAP). The hypothesis is that compliance with CPAP will be improved in subjects taking Ramelteon relative to the placebo arm.
The primary objective is to evaluate the relative effectiveness of fixed CPAP in comparison to APAP in reducing arterial blood pressure in patients with resistant hypertension and obstructive sleep apnea (OSA). The secondary objectives are: a) to evaluate the relative effectiveness of fixed CPAP versus APAP in improving arterial stiffness, sleep-disordered breathing, sleep quality, inflammatory markers and glucose regulation; b) to identify specific characteristic of persons who respond to the two CPAP modalities in order to identify which device is better for each subject.
Normally breathing is controlled by a reflex that responds to the levels of carbon dioxide (CO2) in the blood. In heart failure, where the heart muscle is damaged and therefore does not pump as well, this reflex is exaggerated. The result is a vicious circle: blood CO2 levels fluctuate wildly and as a result breathing also fluctuates with patients hyperventilating at times and briefly stopping breathing at others. During sleep this is called central sleep apnoea (CSA). Patients with CSA wake up throughout the night and whilst some patients are oblivious to this, others are consciously breathless and many patients are tired during the day and feel unable to perform their daily activities. As part of the body's stress response to the erratic pattern of breathing, both blood pressure and heart rate may rise to a level that is harmful in a failing heart, exacerbating the underlying heart failure. Indeed patients who demonstrate this CSA die sooner than those who have heart failure and stable breathing. There are no proven specific therapies for CSA that stabilise breathing, improve sleep quality, and prolong life. We have designed a system which delivers very small doses of CO2, when the blood level of CO2 is predicted to be low. During short daytime recordings, using this system, we have demonstrated that it is possible to stabilise the body's CO2 levels. We aim to test what happens when CO2 is given overnight whilst the patient is sleeping to see whether we can stabilise their breathing over longer durations and whether sleep quality could be improved so that patients are less tired during the day. In addition, we would like to measure whether the stress response is lessened if the breathing is successfully stabilised.
The aim of the present study is to compare the effects of different types of antihypertensive drugs (angiotensin II receptor blockers and long-acting calcium channel blockers) in patients with hypertension and obstructive sleep apnea who are not controlled well with their hypertension after continuous positive airway pressure therapy.
The investigators leading hypotheses are: - Oral therapy with montelukast may lead to improved sleep study findings in children with mild to moderate Obstructive Sleep Apnea Syndrome (OSAS) who require surgical removal of adenoids and tonsils for OSAS. - A significant proportion of the children with OSAS treated with montelukast will show reduced severity of OSAS, and this will remove the need for surgical intervention.
The investigators hypothesized that patients with Obstructive Sleep Apnea (OSA) who are free of any cardiovascular disease will have early microcirculatory changes that are unique to OSA, and therefore would resolve with treatment of OSA.