View clinical trials related to Sleep Apnea Syndromes.
Filter by:OBJECTIVES To train and test a mathematical model to predict complete concentric collapse at the level of the palate (CCCp, primary) and other sites of upper airway collapse (secondary) during drug-induced sleep endoscopy (DISE) using the data captured during a diagnostic polysomnography (PSG). HYPOTHESIS The site, pattern and degree of upper airway collapse is associated with distinct flow features as captured during a baseline PSG. STUDY DESIGN Retrospective trial. STUDY POPULATION 200 patients with moderate to severe obstructive sleep apnea (OSA, AHI ≥ 15/h) who underwent both a DISE and a diagnostic PSG at the Antwerp University Hospital (UZA) between January 2018 and December 2020. OUTCOME MEASURES: Raw data as captured during a diagnostic PSG, including electroencephalography (EEG), flow, electrocardiography (ECG), electromyography (EMG), oxygen desaturation and breathing effort. SAMPLE SIZE / DATA ANALYSIS Data of 200 patients will be retrospectively included into this study protocol. Different machine learning techniques will be adopted to select features, train the model and test the model. TIME SCHEDULE January 30, 2021 - November 30, 2021
A feasibility randomized controlled trial will be conducted with a 6-month follow up to: Examine the impact of early intensive telemedicine motivational enhancement (TIME) vs standard of care on PAP adherence (n=40/group) and continuity of care at 3 and 6 months post-discharge in patients admitted with ADHF with a new inpatient diagnosis of OSA(REI>5). Assess the effect of early telemedicine integrated with motivational enhancement (TIME) vs standard of care on patient reported outcomes including Functional Outcomes of Sleep questionnaire (FOSQ-10), Kansas City Cardiomyopathy Questionnaire (KCCQ-12). Investigate the impact of early TIME vs standard of care on 6-month hospital readmissions.
A study to evaluate the respiratory safety of TS-142 in patients with mild obstructive sleep apnea hypopnea.
This study will take between 4-6 months (with first patient first visit to last patient last visit expected to span 3-4 months across all study sites). Each participant will use the investigational PAP device with their own mask for a period of up to 7 nights and will complete a series of questionnaires upon completion. The study will evaluate the usability and efficacy of the investigational device in the intended use environment by the intended use population.
This prospective, observational cohort study aims to explore the influence of obstructive sleep apnea(OSA) on the efficacy of PD-1-based immunotherapy in patients with non-small cell lung cancer(NSCLC). Patients who had no prior treatment for advanced NSCLC and are intended to receive PD-1/PD-L1 antibody will be recruited. According to sleep monitor results, participants will be divided into Group NSCLC and Group OSA+NSCLC. Primary outcome is the objective remission rate(ORR).
Obstructive sleep apnea (OSA) and attention-deficit/hyperactivity disorder (ADHD) are two common, severe disorders in children. Unfortunately, pediatric OSA is closely associated with ADHD, and both diseases can cause cognitive impairment, behavior problems, and low academic performance. OSA can damage the brain and induce autonomic dysfunction, and then cause cognitive, behavioral, and quality-of-life problems. The presence of ADHD can further exacerbate these adverse effects of OSA. Therefore, the identification of robust biomarkers of OSA and ADHD is a key imperative to facilitate early identification of the pathological features and mechanisms and to optimize the treatment of OSA and ADHD for the pediatric population. Diffusion MRI of the brain is one of the most widely used technology for assessment of brain tissue integrity and heart rate variability is one of the most widely used measurements of autonomic function. However, the effects of ADHD and adenotonsillectomy on MRI and HRV biomarkers in children with OSA have not been reported. We hypothesize that comorbid ADHD can deteriorate brain damage and autonomic dysfunction, and adenotonsillectomy can reverse these alternations in children with OSA. The aims of this study are (1) to investigate the differences in pediatric brain tissue integrity, autonomic function, attention, behavior, quality-of-life, and sleep factors between the 'OSA with ADHD', 'OSA without ADHD', and 'healthy control' group; (2) to evaluate the efficacy of adenotonsillectomy versus watchful waiting with supportive care, with respect to the same variables of interest; (3) to evaluate whether the relative efficacy of the treatment differs according to baseline ADHD, weight, or OSA severity; and (4) to develop a predictive model for surgical success rate using both conventional well-known factors and MRI/HRV biomarkers. This is a 3-year prospective study that includes two parts. The Part I study is a cross-sectional study recruiting 100 children (5 to 9 years of age) to investigate the differences in brain tissue integrity (voxel-based morphometry and fractional anisotropy; assessed by structure MRI [T1] for volumetric alternations of gray and white matter, resting-state functional MRI for functional connectivity, and diffusion MRI for white matter integrity), autonomic function (time-domain and frequency-domain analyses; assessed by a wearable, real-time HRV measurement), severity pf attentive and behavioral problems (assessed by the Swanson, Nolan and Pelham IV-Teacher and Parent Rating Scale), quality-of-life (assessed by OSA-18), and sleep factors (apnea-hypopnea index, obstructive apnea index, arousal index, mean and least oxygen saturation, and sleep stage; assessed by polysomnography) between the OSA with ADHD group (Study Group 1; n = 40), the OSA without ADHD group (Study Group 2; n = 40), and the healthy control group (Control Group; n = 20). The Part II study is a randomized controlled trial includes a total of 64 children with OSA (32 children will be recruited from Study Group 1 and Study Group 2, respectively). We randomly assigned (1:1) these 64 pediatric patients with OSA to adenotonsillectomy or a strategy of watchful waiting with supportive care, matched by ADHD, obesity, and severe OSA. Variables of interest using the same methodology are assessed at baseline and at 7 months.
Sleep apneic episodes increase after general anaesthesia up to the third postoperative night. A mandibular advancement device, called MAD, is a small device that is inserted in the patient's mouth during the night and allows the advancement of the mandible, preventing sleep apneic episodes. The objective of this randomized controlled trial is to determine whether a MAD reduces the impact of general anaesthesia on the increase of the sleep apneic episodes in the postoperative period. All patients will have their sleep-related respiratory data measured using a portable respiratory polygraphy recorder (ResMed Embletta® system). This portable recorder allows a non-invasive recording of nasal airflow through a nasal cannula, oxygen saturation (SpO2) via finger pulse oximetry, respiratory efforts through thoracic and abdominal belts, and body position.
Drug-induced sleep endoscopy (DISE) is the most used technique for identifying the obstruction site associated with obstructive sleep apnea (OSA). This is due to the fact that it allows many patients to be examined in a daytime setting. This procedure uses sedative drugs to mimic natural sleep. However, associations with the site of upper airway (UA) collapse during natural sleep remain unclear. The aim of this explorative study is to identify UA collapse in patients with OSA using endoscopic techniques as well as flow shape characteristics and sound analyses during natural and drug-induced sleep. Furthermore, we want to optimize the measurement set-up of natural sleep endoscopy (NSE).
CBCT is considered an innovative imaging modality that can view the upper respiratory airway anatomy in a 3D manner. Recent studies tried to evaluate the accuracy of CBCT in analyzing the upper respiratory airway and its related structures. Although, most of these studies aimed to evaluate the 3D imaging of upper respiratory airway in OSA patients and their healthy counterparts, the determination of its level of collapse with the aid of CBCT wasn't clearly evaluated. DISE is considered a dynamic approach to determine the level of upper respiratory airway collapse accurately, but CBCT can offer better evaluation of anatomical upper respiratory airway characteristics and morphology which in turn affects treatment planning and patients' satisfaction after surgery. The hypothesis is agreed with other studies who found that retroglossal collapse appears more frequently during the end of expiration imaged by dynamic MRI. Our hypothesis is the validity of CBCT in determining the level of collapse through assessing different orthogonal planes at end of inspiration and expiration especially in those patients having a tongue/palate interaction or lengthy palate where this anatomical variation wasn't been probably evaluated with DISE.
Acetazolamide, a carbonic anhydrase inhibitor, has received some attention as potential treatment for obstructive sleep apnea (OSA). It produces a metabolic acidosis by excreting bicarbonate, thereby stimulating baseline ventilation. Evidence suggests that acetazolamide primarily improves ventilatory control instability (expressed as loop gain), which is an important contributor to the pathophysiology of OSA. Few studies have assessed the efficacy of acetazolamide in patients with OSA. Since most of them had a small sample size and used different therapeutic dosages, clinical applications are currently limited. Therefore, this study aims to compare the effect of two acetazolamide dosages on the severity and pathophysiology of OSA.