View clinical trials related to Sleep Disordered Breathing.
Filter by:SLeeP AID4 is a single-group, single-arm, Canada-wide, non-randomised, unblinded, in-home, observational study to prospectively collect and build a data set of natural sleep behaviour and physiology in maternal-fetal dyads (and bed partners, if applicable) in the third trimester of pregnancy in the home setting and subsequently investigate the feasibility of using computer vision technology (CVT) to monitor sleep during and across the third trimester of pregnancy in the home setting for research purposes by eliciting participants' attitudes toward CVT and training, validating, and testing a CVT model to accurately, unobtrusively, non-invasively, and objectively detect and quantify various sleep behaviours, disturbances, and disorders.
Despite improved survival of extremely premature infants in recent decades, neonatal intensive care unit (NICU) graduates are diagnosed with asthma, sleep disordered breathing (SDB) in childhood, and neurodevelopmental impairments (NDI) at significant rates, disproportionate to their term peers. Early detection and intervention are critical to mitigate the impact of these impairments. Mechanisms leading from premature birth to these undesirable outcomes remain unclear, and accurate prognostic measures are lacking. This study wants to learn if these problems are related to certain patterns of breathing that babies had while they were in the NICU.
The purpose of this study is to assess the efficacy of using intelligent volume assured pressure support (iVAPS-AE) versus spontaneous timed (ST) modes of non-invasive ventilation (NIV) in patients diagnosed with amyotrophic lateral sclerosis (ALS). The investigators believe that the use of iVAPS-AE mode NIV over a 90 day period will produce NIV compliance data and health-related quality of life (HRQOL) scores that are equivalent or no worse compared to ST mode NIV.
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 SIESTA-Rehabilitation protocol combines two sleep-promoting interventions, (1) empowering nurses to reduce unnecessary disruptions and (2) a systematic protocol to screen, diagnose, and treat sleep-disordered breathing, to determine its impact on relevant sleep and rehabilitation outcomes in the acute inpatient stroke rehabilitation setting compared to the standard of care. Our primary outcome is change in Quality Indicator (QI) score, a measure that has replaced the Functional Independence Measure (FIM) in the inpatient setting at the Shirley Ryan AbilityLab, between admission and discharge.
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.
Sickle cell disease (SCD) is a genetic blood condition causing long term health problems including pain and brain problems which affect quality of life. These may be made worse if patients have low night-time oxygen levels when the upper airways close repeatedly during the night (obstructive sleep apnoea). This is associated with increased pain, poorer concentration and increased kidney problems. Montelukast, widely used in the treatment of Asthma, has been shown to improve symptoms of obstructive sleep apnoea in patients without sickle cell anaemia. Investigators think this treatment could be useful in patients with sickle cell disease too. Early intervention with Montelukast could help prevent deterioration in concentration and thinking skills. The aim of this trial is to see whether young children with sickle cell disease randomised (randomise: the same as tossing a coin and not knowing whether it will come up heads or tails) to Montelukast treatment have better thinking skills compared with people randomised to placebo (tablet with no active medical ingredients - i.e. "sugar pill"). This means that the child could be on Montelukast treatment or he/she might be on placebo tablets.
The READ-ASV Registry (short name) will investigate the use of Adaptive Servo-Ventilation in non-heart failure conditions. The purpose is to examine the effects of ASV on quality of life, daytime symptoms and sleep, to describe usage patterns of ASV with regards to patient characteristics and to document adverse events related to therapy for a therapy safety analysis.
This study is a single site pilot and feasibility study. We propose that 3D printing could be used to create customised masks for patients requiring Positive Airway Pressure (PAP) therapy. We hypothesise that the use of this technology may result inÍž improved compliance with therapy, increased comfort, reduced side effects, increased quality of life and reduced healthcare costs.