View clinical trials related to Sleep Apnea, Obstructive.
Filter by:Stroke affects 16.9 million individuals each year and is the second leading cause of death worldwide. Despite advances in pharmacologic therapy, morbidity , mortality and rates of hospitalization for stroke remain high. These data emphasize the importance of identifying all treatable conditions that could aggravate stroke. One such condition is obstructive sleep apnea (OSA). Sleep-related breathing disorders, including obstructive and central sleep apnea, often coexist with stroke. Compared to the general population, in whom OSA is the most common form of this breathing disorder with recent prevalence estimates of 22% of male and 17% of female , in the stroke population, the prevalence of OSA is much greater at 70% . Several randomized controlledtrials on OSA patients with stroke in acute or sub-acute stage showed that treating OSA with continuous positive airway pressure (CPAP) improved motor and functional outcomes, accelerated neurological recovery.Apart from the benefits in better neurological outcomes, secondary analyses of SAVE study suggested that CPAP treatment potentially help to reduce recurrence of stroke. Nevertheless, we don't have evidence yet from randomized control studies to prove CPAP treatment would reduce the recurrence of cardiovascular or cerebrovascular events. Traditionally, recurrence of cardiovascular or cerebrovascular events uses documented mortality, morbidity or hospitalization for heart failure, acute coronary syndrome or stroke as clinical endpoints. Recently, several studies showed that enlarged left atrium (LA) can serve as a predictor for recurrent stroke or cardiovascular events. On the other hand, a growing body of studies demonstrated that CPAP treatment reduce size of LA in those with OSA. Notably, all of these studies above are observational or retrospective in nature. To date, there are no prospective longitudinal randomized controlled trials reporting the effect of CPAP treatment of OSA on the change of size of LA. We therefore will undertake a randomized , controlled trial involving patients with stroke to test the primary hypothesis that treatment of OSA with CPAP would reduce the size of LA.
This registry is a prospective, multi-center, single-arm study of pediatric subjects (ages 18-21 years) who are undergoing implant of the Inspire Upper Airway Stimulation (UAS) System for the treatment of moderate or severe obstructive sleep apnea (OSA). Implanted subjects will be followed for 5 years post-implant.
The investigator compared the sedative effects of propofol alone and ketamine added to propofol in drug induced sleep endoscopy
Clinical trial on the effect of continuous positive pressure (CPAP). Objectives: 1) To assess the total or partial recovery of oxidative and inflammatory damage after recovering IH. 2) To check whether the results obtained in vitro on the recovery of the damage according to the form of manifestation of IH are validated in SAHS patients. 3) To determine if CPAP reduces nighttime blood pressure and arterial stiffness depending on whether or not patients have a non-dipping pattern of blood pressure and depending on the degree of correction of IH. 4) To clarify whether residual nocturnal hypoxemia influences the recovery of oxidative and inflammatory damage in patients. 5) To determine nasal and intestinal microbioma and the effect of CPAP treatment
The study's aim is to determinate the prevalence of obstructive sleep apnea hypopnea syndrome after treatment by combined chemoradiotherapy in a locally advanced stages treated population of oropharyngeal cancer. Indeed, the level of knowledge about the consequences of oropharyngeal cancer treatment on sleep quality remains poor but the few studies published on the subject suggest an increased risk of development of OSAHS for these patients.
This prospective cohort study aims to compare the proportion of cardiac or cerebrovascular events after a first stroke, a first transient ischemic attack (TIA) or recurrent TIA, between sleep-disordered breathing (SDB) and non-SDB (control) patients, one year after SDB diagnosis, performed 3 months after stroke onset. The primary outcome is a composite endpoint composed of cardiac or cerebrovascular events regrouping: death from any cardiac or cerebrovascular cause, non-fatal stroke, and non-fatal acute coronary disease. 1620 patients, in the acute phase of a first stroke, TIA or recurrent TIA will be included in the cohort. Clinical, neuroimaging, sensorimotor, cognitive and biological parameters will be collected at inclusion. Three months after stroke or TIA onset, polysomnography will be performed for SDB diagnosis. Patients will be considered as having SDB for an Apnea-Hypopnea Index (AHI) > 15 events/hour, or to the control group otherwise. The same clinical, imaging, cognitive and biological assessments than during the first visit will be performed; incident (new) cardiovascular events will be collected. Three months later, and at 1, 2, 3, 4 and 5 years after SDB diagnosis, the same clinical, cognitive, sensorimotor, and sleep-related evaluations will be performed. In addition to the aforementioned parameters, incident cardiovascular outcomes will be collected, at the same time points. The primary study outcome will be retrieved one year after stroke onset.
Obstructive Sleep apnea carries a variety of complications and implications. While the disease could be treated using continuous positive airway pressure (CPAP) and lifestyle changes, many patients find it difficult to adjust to the mask, and turn to surgical options. The conventional surgical options to date ranges from radical (UPPP) to individualized, with or without Drug-induced sleep endoscopy (DISE). Previous studies showed that dise directed surgery can be useful for specific conditions. No trials were found to test in-office encompassing minimal invasive surgical treatment (RF palatoplasty , RF tonsillotomy, RF turbinectomy, and RF base-of-tongue reduction) as a viable alternative..
The aim of this study was to compare an overnight digital monitoring device (ODM) with home sleep apnea testing (HSAT) using respiratory flow and effort parameters in a large population sample, who were in a waiting list for Polysomnography (PSG).
The aims of the study is to assess the diagnostic utility of home respiratory polygraphy (HRP) complemented with polysomnography (PSG) in childhood Obstructive Sleep Apnea-Hypopnea Syndrome (OSAS), as well as its usefulness in the therapeutic decisions. Methods: Children referred with suspected OSAS will be evaluated during one year performing home respiratory polygraphy in all cases. PSG will be chosen in patients with concomitant pathology or according to medical criteria, or complemented with HRP in doubtful cases. Clinical and anthropometric data, severity, technical quality and treatment will be obtained. Patients will be divided in two groups (HRP vs PSG) and compared, and the accuracy from HRP to establish a therapeutic decision it wil calculated. The investigator's hypothesis is that PSG should be recommended only for complex or doubtful cases.
Obstructive sleep apnea (OSA), which causes abnormal pauses in breathing during sleep, is common in patients with vascular cognitive impairment (VCI) and Alzheimer's disease (AD), and exacerbates the cognitive deficits seen in these conditions. OSA is typically treated with continuous positive airway pressure (CPAP), which has been shown to improve cognition in VCI and slow cognitive decline in AD. Despite the need to identify OSA in patients with VCI/AD, these patients often do not undergo testing for OSA. One major barrier is that in-laboratory polysomnography (iPSG), the current standard for diagnosing OSA, is inconvenient for patients with VCI/AD who may be reliant on others for care or require familiar sleep environments. A convenient and cheaper alternative to iPSG is home sleep apnea testing (HSAT), which has been validated against iPSG to diagnose OSA and has proven feasible for use in VCI/AD. Our primary objective is to determine whether the use of HSAT is superior to iPSG in terms of the proportion of patients who complete sleep testing by 6 months post-randomization. We will also investigate cost-effectiveness, patient satisfaction, proportion of patients treated with CPAP, changes in cognition, mood, sleep-related and functional outcomes between HSAT and iPSG at 6 months.