View clinical trials related to Sleep Apnea, Obstructive.
Filter by:In this study, which was planned to evaluate the effects of inspiratory and expiratory respiratory muscle training in addition to aerobic exercise in individuals with OSAS; 40 cases over the age of 40 who were diagnosed with severe (AHI: 30 and over) Obstructive Sleep Apnea Syndrome by polysomnography in the Sleep Laboratory of the Department of Chest Diseases of the Istanbul University Istanbul Medical Faculty Hospital will be included. The cases will be divided into two groups with the randomization system and the education of both groups will continue for a total of 8 weeks. In the literature, it is stated that there is a need for studies on the benefits and results of the use of respiratory muscle training as an adjunct therapy to CPAP or oral devices. No studies were found that evaluated the effects of inspiratory and expiratory respiratory muscle training in addition to aerobic exercise in patients with OSAS. For this reason, OSAS patients using regular CPAP were planned as two groups in the treatment part of this study. Control Group: For gradual aerobic exercise training, bicycle ergometer training in the hospital environment and brisk walking at home once a week (3 days a week, 20-40 minutes a day) will be given under supervision two days a week. Training Group: In addition to the aerobic exercise, the training group will be given respiratory muscle training once a day, 5 days a week, as a home program. Intraoral pressure measurements will be repeated once a week to calculate the new threshold load. Respiratory muscle training: Respiratory muscle training in 50% of MIP and 30% of MEP, as ICE + IME (5 days a week, 15 minutes per day, 15 minutes of IMI). Evaluations will be repeated before and after treatment. The original value of this study is that the effects of Respiratory Muscle Training Combined with Aerobic Exercise in addition to CPAP treatment will be investigated in individuals with OSAS.
A prospective, randomised, blinded pilot study comparing the Sunrise solution and overnight polygraphy for the diagnosis of OSA in adult patients. Patients under investigation for OSA will use both devices simultaneously for a single overnight sleep study. They will be randomised to receive their treatment decision based on either the Sunrise solution or polygraphy. A retrospective check of their diagnosis will be done.
Obstructive sleep apnea syndrome (OSA) is a pathology that affects 2 to 15% of the French adult population and more than 30% of subjects over 65 years old. It consists of repeated collapses of the upper airways during sleep leading to interruptions in ventilation (apneas) or significant reductions in ventilation (hypopneas). Balagny et al. have demonstrated the occurrence of hypertension in patients screened positive for sleep apnea syndrome in a French general population cohort. It is also established that sleep apnea increases the risk of cardiovascular disorders, such as metabolic syndrome (combining abdominal obesity and metabolic disorders), hypertension, heart rhythm disorders, especially at night, atherosclerosis (deposits of atheromatous plaques on the artery walls) or type 2 diabetes. These different complications increase the risk of cardiovascular accidents such as cardiac arrest, myocardial infarction, stroke, and expose to a risk of premature death (Inserm). The treatment of choice is night-time positive pressure ventilation, made possible by the use of a breathing apparatus (Continuous Positive Airway Pressure or CPAP). Alternatives to CPAP are the use of a nocturnal Mandibular Advancement Orthosis (MAO) which advances the jaw and allows a pharyngeal opening, and surgery in selected patients. The phenomenon at the origin of apneas is due to a relaxation of the muscles of the pharyngeal wall located at different heights. This obstruction is favored by anatomical particularities specific to each individual. The clinical examination can detect certain anomalies (enlarged tonsils, obstructive soft palate, prominent tongue base, abnormal epiglottis) and propose surgery to remove the obstruction. Nevertheless, it remains difficult to affirm that the detected anomaly is really at the origin of the obstruction and surgical failures are frequent. Endoscopy under induced sleep has been developed for about 10 years in France. This examination, widely used in the world, remains confidential in France. It consists, in the operating room, in inducing a medicated sleep (specific drugs delivered by an anesthetist) and performing a pharyngolaryngeal fibroscopy. The ENT physician can then visualize "live" the site and origin of the obstruction during an apnea. The main objective is to evaluate the interest of endoscopy under sleep before making a surgical indication in a patient presenting a sleep apnea syndrome. The secondary objective is to evaluate the reliability of sleep endoscopy.
The main aim of the study is to check the side effects from overnight treatment with danavorexton and assess the tolerability of varying doses of danavorexton administered intravenously. Before starting treatment with danavorexton, participants will keep a sleep diary and use an under-mattress sensor for at least 7 nights to check regular sleep habits. There will be 3 Treatment Period up to 14 days apart. In each Treatment Period, participants will receive an intravenous (through the vein) infusion of either danavorexton or a placebo starting in the evening and continuing over a 10-hour period. A placebo looks exactly like danavorexton but does not have any medicine in it. Participants will take part in a follow-up phone appointment about a week after the last Treatment Period.
Our study aims to determine the frequency of individuals at high risk of obstructive sleep apnea, and excessive daytime sleepiness, as well as any potential association between these conditions and traffic accidents among a sample of Ecuadorian bus drivers.
The objective of this study is to assess the efficacy of the Orthoapnea NOA® mandibular advancement device and describe the percentage of advancement (%) needed to reach efficacy, and to retrospectively compare with other MAD designs in the management of obstructive sleep apnea. Additionally, to describe patient compliance and adherence to the therapy with the Orthoapnea NOA® device, and to assess the incidence and prevalence of signs, symptoms, and diagnosis of temporomandibular disorders (TMD) associated to the use of the Orthoapnea NOA® mandibular advancement device.
The prevalence of Obstructive Sleep Apnea (OSA) is high in individuals after a stroke. There are few studies evaluating the effects of inspiratory muscle training (IMT) in individuals with OSA and the findings regarding the possible effect on Apneia/Hipopneia Index (AHI) reduction are still controversial. This study will test the hypothesis that training of the inspiratory muscles is effective in improving severity of OSA, sleep quality and daytime sleepiness in individuals after stroke participating in a rehabilitation program. Methods: For this prospective, sigle blinded, randomized clinical trial, people after stroke will be randomly allocated into either experimental or control groups. The experimental group will undertake training of the inspiratory muscles with the PowerBreath Medic Plus regulated at 75% of the subjects' maximal inspiratory pressure (MIP) values, five times/week over five weeks 5 sets of 5 repetitions with 1 set increasing each week. Both groups will participate in the rehabilitation program and will receive the same dose of physiotherapy, speech therapy and aerobic exercise sessions. At baseline and post intervention after the cessation of the interventions, researchers blinded to group allocations will collect all outcome measures. Study outcomes: Primary outcome will be OSA severity measured using the Apnea/Hypopnea Index (AHI). Secondary outcomes will include inspiratory endurance and pressure, functional independence, sleep quality and daytime sleepiness
The need for multiple night testing is well recognized in sleep medicine because of a considerable and relevant night-to-night variability. In a study with multiple recordings using WatchPAT®, the OSA severity of 24% of patients was misclassified when using one night compared to the average of three nights. On average, pAHI varied by 57% from night-to-night. The variability of pAHI could partially be explained by the variability of time spent in the supine position with more time supine leading to a higher pAHI (Tschopp et al 2021). Smith (2007) suggested that the AHI should be indicated with a confidence interval to indicate the uncertainty regarding its true value. The Minimal Detectable Difference (MDD) is of special interest in sleep medicine, especially when assessing treatment effects. MDD was found to be 12.8/h and the standard error of measurement was 4.6/h for 4 nights of polysomnography (Aarab et al. 2008). For WatchPAT®, measuring two and three nights showed a small reduction in MDD from 19.1/h to 18.0/h (Tschopp et al. 2021, in press). Only one study using pulse oximetry assessed the night-to-night variability over 14 days (Stöberl A. et al 2017). The study confirmed the enormous variability and focused mainly on its impact on OSA severity. While the night-to-night variability has been extensively studied for polysomnography, respiratory polygraphy, and WatchPAT®, little is known about the optimal number of nights to be recorded. There is convincing evidence from the literature, that the recording of multiple nights is the only way to assess the severity of the patient's disease with clinically reasonable accuracy. Moreover, the MDD with only one night's recording is astonishingly high. The question is how many nights should be recorded to achieve acceptable diagnostic accuracy. The precision of the OSA measurement depends on the clinical situation. For example, to diagnose severe OSA, a higher variability might be acceptable without influencing the treatment decision. However, when comparing treatment effects, the MDD should be as small as possible. The recording of multiple nights might be cumbersome for patients (e.g. with polysomnography or respiratory polygraphy) as well as costly. These factors have to be taken into consideration for the clinically feasible number of recordings. Sleepiz One Connect offers the unique opportunity for a contactless recording of breathing combined with conventional pulse oximetry and is a minimally invasive diagnostic tool that allows measurements over several nights. Studies with multiple night recordings will offer a basis for diagnostic recommendations in future guidelines. The study aims to investigate the variability of obstructive sleep apnea at-home sleep apnea testing. By investigating the variability, we want to quantify the improvement in diagnostic accuracy by additional measurements. The hypothesis is that additional recordings offer a significant improvement in diagnostic accuracy by reducing the variability. The reduction in variability will diminish with each additional recording.
Obstructive sleep apnea syndrome (OSA) is a sleep-related breathing disorder defined by repetitive episodes of apnea and hypopnea. These traits include anatomical (narrow/crowded/collapsible upper airway) and nonanatomical (waking up too easily during airway narrowing [a low respiratory arousal threshold], ineffective or reduced pharyngeal dilator muscle activity during sleep, and unstable ventilatory control [high loop gain]) components. Oropharyngeal training reduces the snoring times, Apnea-hypopnea Index (AHI) and daytime sleepiness. There is lack of good evaluating tools to distinguish different phenotypes of OSA and the efficacy of combined therapy. The purposes of our study are (1) to evaluate OSA patient by using Polysomonogrphy (PSG), force sensing resistor (FRS), Drug induce sleep endoscopy (DISE) and CT and muscle strength testing, (2) to know the exercise times by using FSR and (3) the efficacy of exercise in different groups.
A two-year study design is formulated. The overall aim of this study is to examine the effectiveness of the care model combing smartphone application on improve obstructive apnea in obesity adults.