View clinical trials related to Apnea.
Filter by:Obstructive sleep apnea (OSA) affects up to 1% of the general pediatric population and is associated with adverse behavior and quality of life, as well as long term cardiopulmonary system complications. Trisomy 21 (Down Syndrome) is the most common chromosomal disorder, with a incidence of approximately 1 per 660-800 births. Patients with Down Syndrome have a higher incidence of OSA than the general pediatric population, with rates of 30-60%, resulting in increased morbidity and decreased quality of life for affected individuals. In children, adenotonsillectomy (T&A) is often a contributing factor to OSA, and adenotonsillectomy is a first line treatment. Children with Down Syndrome often undergo T&A for obstructive sleep apnea, however 30-50% will have persistent obstructive sleep patterns requiring continuous positive pressure airway support (CPAP) or tracheotomy. Persistent obstruction is attributed to anatomic and physiologic differences in this population, including reduced muscular tone, macroglossia, maxillary hypoplasia, and lingual tonsil hypertrophy. This pilot study is designed to determine if the Inspire® Upper Airway Simulation System, Model 3024 IPG, and any subsequent iteration thereof that are approved under P130008 for the treatment of obstructive sleep apnea, which has already been approved for use in adults with OSA, can be safely implanted and used in adolescents and young adults with Down Syndrome.
Diagnosis and treatment of sleep apnea with continuous positive airway pressure (CPAP) therapy has been shown to decrease arrhythmia recurrence in patients with AF following ablation. However, patients with AF undergoing ablation are not routinely screened for sleep apnea, despite an estimated sleep apnea prevalence of 25% in the general population, and perhaps higher among patients with AF. Home sleep testing is frequently used for evaluation of sleep apnea.
The coordination of swallowing and breathing is an important mechanism because the route for air and deglutition is partly shared in the pharynx. Tongue Stabilizing Device (TSD) is a preformed appliance for Obstructive Sleep Apnea (OSA) that protrudes the tongue and improves upper airway structure and function during sleep. Investigators will attempt to assess efficacy of TSD therapy on OSA and the physiological change of swallowing and breathing routes in OSA patients during sleep.
Background: Patients with obstructive sleep apnea run an increased risk of cardiovascular disease including hypertension. Continuous positive airway pressure (CPAP) is the first line of treatment. However, many patients skip CPAP for some nights. Aims: The primary aim was to investigate the cardiovascular effects of short-term CPAP withdrawal for five nights because of obstructive sleep apnea. Design: Randomized, parallel controlled trial Inclusion criteria: 100 patients with successful CPAP treatment for moderate to severe obstructive sleep apnea. Exclusion criteria: Dementia, heart infarction within 3 months, apnea hypopnea index > 10 with CPAP treatment. Randomization: 50 patients are randomized to sleep 5 days without CPAP and 50 patients to continue with CPAP treatment during the trial. Primary outcomes: Arterial stiffness, 24-hour blood pressure. Secondary outcomes: Effects of gender on outcome. Effects on brain natriuretic peptide, apnea-hypopnea index, oxygen desaturation-index, urine-catecholamines, blood lipids, C-reactive protein, glucose metabolism (S-glc, HBA1c), insulin resistance, serum creatinine, hemoglobin, daytime sleepiness (ESS, KSS), lung function (FVC, FEV1), airway inflammation (exhaled NO) Procedures: Sleep apnea investigation while patients are treated with CPAP for one night. Urinary samplings during the same night. They are also investigated with 24 h blood pressure measurements. Blood samples are taking fasting in the morning followed by measuring the arterial stiffness (Vicorder, Skidmore Medical UK) including pulse wave analysis using sphygmomanometer (Omron Japan). The same investigations are done at follow-up 5 days later where half of the patients have continued using CPAP treatment and half of them has slept without CPAP.
Obstructive sleep apnea (OSA) is common and is a risk factor for postoperative complications, including respiratory and cardiac events and delirium. Despite this risk, however, there are currently no accepted biomarkers that can predict poor outcomes, making it unclear to see which patients will have complications after surgery, and who might need prolonged monitoring or an extended hospital stay. An improved understanding of the pathophysiology of OSA is required to identify potential biomarkers for outcomes after surgery, as well as to develop new treatments. The aim of this pilot study is to identify serum and cerebrospinal (CSF) biomarkers associated with obstructive sleep apnea (OSA). The presence of cytokines and neurotrophins will be determined and quantified in both patients with OSA and in controls. The CSF samples will additionally be analyzed by proteomic methods to identify potential biomarkers with significantly different levels present in patients with and without OSA. The working hypothesis is that OSA patients who are non-CPAP-compliant will have higher levels of circulating cytokines and lower levels of circulating neurotrophins in serum and CSF, compared to patients who are CPAP-compliant and/or controls.
200 patients with colorectal cancer will be investigated before surgery and 100 of them after surgery. Investigations will include polysomonographic sleep apnea recordings during one night, lung function measurements, blood gas samples and questionnaires. Controls: Men and women from two population-based cohort studies
The prevalence of sleep-disordered breathing is common in patients with stable chronic heart failure (up to 83%). Basically, the SAS is divided into two categories: central SAS (CSAS) and obstructive SAS (OSAS). The two can coexist. In patients with CHF, the presence of SAS is associated with higher mortality. CHF is associated with a high rate of re-hospitalization and significant morbidity and mortality and is considered as a major medical and economic problem. To date, few studies have investigated the prevalence, severity, persistence and the role of SAS during cardiac decompensation. For different pathophysiological considerations, it is assumed that SAS is exacerbated during AHF. Therefore SAS is not conventionally screened during this phase. This assumption has been questioned recently by some studies which showed stability of the type of SAS and its severity between the decompensation episode and the stable HF. Our hypothesis is that SAS during an AHF episode of CHF will remain stable both in terms of severity and type at three months of decompensation. Thus early polygraphy may be reliable for identifying HF patients with SAS.
Hypothesis: To address the role of continuous positive airway pressure (CPAP)on nocturnal glycemia in patients having type 1 diabetes and sleep apnea syndrome. Investigators make the hypothesis that sleep apnea syndrome impacts nocturnal glycemia in type 1 diabetic patients and that continuous positive airway pressure treatment will permit to improve the nocturnal glycemic profile. Study design: Adult patients with type 1 diabetes will be recruited for an extensive study of sleep habits and assessment of sleep breathing disorders. When patients will present with severe sleep apnea syndrome (apnea-hypopnea index above 30 events/hour) and insufficient glycemic control (HbA1c > 7.5%), they will be randomized in continuous positive airway pressure treatment or sham-continuous positive airway pressure treatment group for three months. Main outcome: Nocturnal glycemic control will be assessed for 5 days before and after three months of the allocated treatment.
Obstructive Sleep Apnea (OSA) is seen in approximately 6% of Americans. It is a serious medical condition with significant medical and psychological consequences, including diabetes, hypertension, and cardiovascular disease. The treatment of choice for OSA is Positive Airway Pressure therapy (PAP). PAP supplies positive pressure to the upper airway creating a "pneumatic splint" to keep the airway open during sleep. Adherence to PAP is notoriously low, with as few as 50% reaching minimal guidelines for adherence. One comprehensive review of adherence research found that adherence to PAP was less than that for any other medical disorder. The problem of adherence is significant not only because of the medical consequences that can ensue, but also because third party payers have begun to refuse to pay for PAP therapy when adherence is less than optimal, even in the face of clinical improvement. This is a critical time to address this problem. This research study is designed to identify methods that may help people respond to PAP, the most common therapy for OSA. Identifying these methods may be an important way to better care for patients with obstructive sleep apnea. With this research, the investigators hope to find ways to help people have a better response to treatment and a better quality of life.
Sleep apnea, characterized by abnormal breathing at night, is often untreated in patients with heart failure. Helping patients to effectively use the most common form of treatment for sleep apnea, positive airway pressure therapy, can improve their heart function. This can reduce the likelihood that the patient will be re-admitted to the hospital. AirCareLabs has developed an innovative solution that allows patients to communicate with health care providers 24 hours a day, thus allowing them to get the help they need to effectively use positive airway pressure and thereby reduce the risk of being re-admitted to the hospital.