View clinical trials related to Sleep Apnea Syndromes.
Filter by:TELEAP1 is a multicenter cohort pilot-study designed to evaluate the impact of a published SFRMS/SPLF CPAP-telemonitoring diagnosis/therapeutic algorithm on the CPAP-compliance of newly treated patients with obstructive sleep apnea..
The objective of the study is to define an optimal threshold of the SEMSA-15 scale for obstructive sleep apnea (OSA) perception in patients with OSA to predict 3-month and 1-year continuous positive airway pressure adherence.
During a polysomnography test (PSG) previously prescribed by a physician, the patient also wears the Gaby Baby Band (GBB) during an entire night of sleep. After the test, data from the device and from the PSG (HR, SpO2, BR) will be saved and analysed in the aim to assess the actual accuracy of the GBB with golden standard values (ECG, Oximeter, belly belt). In a second analysis, the aim is to improve the accuracy of the GBB algorithm.
OSA is commonly diagnosed with either attended in-lab polysomnography (PSG) or unattended home sleep apnea testing (HSAT). The BLS-100 (Belun Technology Company Limited, Hong Kong) is a novel neural network-based HSAT platform consists of a ring shape pulse oximeter sensor, a cradle, and an improved proprietary analytic algorithm. This study investigates the hypothesis that the BLS-100 is a reasonable HSAT device for OSA assessment.
Patients are invited to participate in a trial to test a new way to optimise long-term use of non-invasive ventilation using remote monitoring. Breathing difficulties during sleep are frequently treated using home mechanical ventilation, also called non-invasive ventilation (NIV). Breathing difficulties during sleep affect many patients with conditions such as chronic pulmonary obstructive disease (COPD), neuromuscular conditions and obesity hypoventilation syndrome. Left untreated they can cause breathlessness, headaches, sleepiness and lead to hospitalisations and other severe adverse health outcomes. The best available treatment for chronic types of sleep-disordered breathing is NIV. However, not every patient eligible tolerates this treatment because it requires patients to sleep with a nasal or full-face mask that is connected with a tube to a machine. Although NIV is recommended by the National Institute for Health and Clinical Excellence (NICE), many patients who should be on NIV use the treatment insufficiently within months. Using remote monitoring to identify problems with treatment adherence early on may help to identify clinical problems, troubleshoot user- or device-dependent problems, avoid delays in treatment and safe healthcare resources in the long-term. The investigators invite patients who use NIV to participate in this trial when they have difficulties with the treatment (NIV). This study will evaluate compliance and efficacy of a remote monitoring device (T4P device, SRETT, Paris/France) that will be connected to the standard NIV machine to remotely monitor usage. Patients will be randomly assigned to the remote monitoring using NIV for three months at home, or to usual care which is NIV without this monitoring. The primary outcome measure of this study is the improvement in adherence and compliance, as indicated by the average usage of NIV, as well as symptom scores to assess treatment effects.
The aging process tends to promote an overall increase in inflammation compromising the immunologic system regulation, sleep/wakefulness pattern, and neurocognitive performance. In elders, there is an increase in repetitive arousals during sleep, secondary to breathing interruption by pharynx collapse, generating a transient reduction in oxygen delivery to the brain known as obstructive sleep apnea. This lack in oxygen supply results in an inflammatory process producing brain damage. Some substances present in the blood seem to be associated to neurocognitive damage, like S100β protein, cortisol, interleukin 1-β,6 and TNF-α. In the other way, a substance called brain-derived neurotrophic factor (BDNF) enhances cognitive function, and memory consolidation improvement.
Background: Obstructive Sleep Apnea Syndrome (OSA) is a kind of sleep disorder. The symptoms are intermittent, partial or complete upper airway collapse, seriously impacting oxygen saturation and oxidative stress. Some patients choose to do upper airway surgeries, but the success rate is only 60-70%. The symptoms might relapse because of aging and gaining weights. The purpose of our study is to compare the effect of transoral robotic surgery (TORS) and oropharyngeal rehabilitation (OPR) on patients after TORS. Methods: Participants above 20 years old who are newly diagnosed with mild to severe OSA (Apnea-hypopnea Index >5/h), and the physician will explain the treatment programs to every subject in clinic. Expected results: The hypothesis of this study is the success rate of surgery will be enhance by increasing tongue and jaw-opening muscle strength after OPR. The biomarkers of cardiovascular disease may decrease and both the collapse of upper airway and sleep quality may be improved after TORS and OPR.
A prospective, multi-centre, single-arm, open-label, interventional study with a non-marketed medical device. The primary study objective is to assess the efficacy of the keepMED PAP device on modification of respiratory characteristics in patients with OSA at one therapy night in a sleep lab. Secondarily, the safety of the use of the device in this setting is assessed.
This study will investigate why some people have Obstructive Sleep Apnea (OSA) and how the underlying cause may relate to OSA manifestations (including sleepiness and high blood pressure) and response to different therapeutic approaches (ie CPAP, eszopiclone, and supplemental oxygen). Understanding why someone has OSA could affect how best to treat that individual, but may also have an impact on what problems the disease might cause.
The anatomical changes of the upper airway in a standing vs pseudo-supine position using Carestream Orthodontic Imaging (Volumetric) and Carestream Orthodontic Imaging module (AP measurements) of the patient's airway respectively, have been taken and the obtained results compared. In order to simulate the supine position, patients are placed in a supine position (180 degrees) in a dental exam chair, and asked to relax their lower jaw, allowing it to drop back, simulating their jaw falling back while sleeping. That bite is then captured with a Correct Plus™ Impression Material Superfast. Once the bite material hardens, it locks the bite in place. The patient then stands upright, and CBCT is taken standing while the jaw placement is still pseudo sleep-supine, supported by the bite material.