Active clinical trials for "Sleep Apnea, Obstructive"

Obstructive sleep apnoea (OSA) is a breathing problem that happens when you sleep. It is treated by a machine called continuous positive airway pressure (CPAP) therapy. The goal of this observational trial is to test how well a new wearable device can detect ongoing OSA in patients undergoing treatment with CPAP. The main questions it aims to answer are: Does the new wearable device detect OSA in patients undergoing treatment with CPAP as well as gold standard sleep studies? Does the new wearable device detect OSA in patients undergoing treatment with CPAP more accurately than the CPAP machine can itself. Participants will be asked to wear the following two devices while using their CPAP machine for 2 nights: AcuPebble SA100 (the new wearable device). This device is the size of a 2-pence coin and sits on the front of the neck and attaches via some double sided sticky tape. It is connected via bluetooth to a mobile phone application (app). A multi-channel sleep study, which is the gold standard way of performing sleep studies. Researchers will then compare how much OSA is left in participants, comparing the values from the new device, gold standard sleep study and the CPAP machine itself.

People with type 2 diabetes are at risk of complications linked with high blood sugars and these are monitored for in healthcare appointments. However, people with type 2 diabetes commonly suffer with additional health conditions that can affect the liver, heart and their breathing while sleeping. These conditions are thought to be caused by a similar underlying process that causes type 2 diabetes, as a result they are very common in people type 2 diabetes. Despite this they are not part of the routine health check for these people. Worryingly, current research suggests that the risk for developing these health problems, and direct complications of type 2 diabetes, can start at blood sugar levels below the threshold of type 2 diabetes. In a group of people said to have prediabetes. These people do not currently undergo annual healthcare appointments to monitor for these health complications or other linked health conditions. This study aims to pilot a new style of clinic to address these issues. The investigators will perform a multi-morbidity assessment, where they will look for several different health problems at the same time. The investigators will be looking at health problems linked with high blood sugars, this will include problems with the liver, heart, nerves, eyes, and participants breathing overnight. They have developed a clinic visit which uses questionnaires, simple examination techniques and modern devices to try and identify these health problems. An important part of healthcare is the burden it places on people with health problems, with this in mind the investigators will be giving the people involved in their study a voice to try and direct future research and healthcare, the investigators will ask them to provide feedback on their experience in taking part in the study and what their thoughts are in undergoing a longer but more comprehensive health appointment.

More than 10% of the US population have obstructive sleep apnea (OSA). Standard of care is therapy with CPAP (continuous positive airway pressure) which virtually eliminates OSA. However, most patients use CPAP only for part of the night (4-5hours) and about 50% patients discontinue CPAP long-term. Alternative therapies are limited, thus many OSA patients remain at risk of OSA sequelae (e.g. sleepiness, memory issues, high blood pressure, etc.). Importantly, different patients get OSA for different reasons, and recent data show that some of the underlying causes of OSA ("endotypes") such as having a low arousal threshold (i.e. waking up easily) are associated with lower CPAP adherence. Using a randomized controlled trial design, this will be the first study using a targeted intervention to manipulate the underlying OSA causes (i.e., giving a safe hypnotic to patients with OSA to increase the arousal threshold) to test the hypothesis that endotype-targeted therapy increases CPAP-adherence in patients who have low but continued CPAP usage. Ultimately, this strategy may improve the care and outcomes of millions of undertreated OSA patients.

This study will evaluate the influence of sleep apnea on clinical and radiological features of MS. Sleep apnea is associated with hypoxemia during sleep, which is likely detrimental to MS. Clinical data (MRI, lab results, medical history, labs, and sleep studies) of MS patients will be collected and analyzed. This will be done to study correlations between MRI, clinical data, lab studies and sleep studies. There is specific interest in the type of sleep apnea associated with MS, and whether MRI or clinical metrics of MS severity correlate with presence or absence of sleep apnea.

Objectives: To assess the cardiovascular outcomes of children with obstructive sleep apnoea (OSA) at a mean of 5 years after they had undergone adenotonsillectomy (AT), compared to OSA children who did not undergo AT, and normal controls without OSA. Hypothesis to be tested: (1) children with OSA underwent AT would have lower cardiovascular risks, namely lower ambulatory blood pressure (ABP), better cardiac function, lower carotid intima-media thickness (CIMT) and lower carotid arterial thickness when compared to those with OSA but did not undergo AT, and that (2) children with OSA, despite treatment with AT, would have higher cardiovascular risks than non-OSA controls. Design: A two-centre prospective case-control follow-up study Subjects: Potential subjects for this follow-up study have been identified from two local hospitals, Prince of Wales and Kwong Wah Hospitals. AT-treated group (n=90) - Children had moderate-to-severe OSA (obstructive apnoea hypopnoea index (OAHI) >=3 events/h) and underwent AT when they were aged 5-12 years. Refused AT group (n=45) - Children had moderate-to-severe OSA but refused AT. Non-OSA control group (n=45) - Non-snoring controls with OAHI <1 event/h . Main outcome measures: 24-hour ABP, cardiac function measured by echocardiography, CIMT and carotid arterial stiffness. Data analysis: Apart from group comparisons, multiple linear regression and logistic regression analysis will also be used to examine whether cardiovascular outcomes are associated with AT, pre- and post-AT OAHI while adjusted for confounders. Expected results: AT improves cardiovascular outcomes of children with OSA. However they still had higher cardiovascular risks than normal controls even after AT.

Obstructive sleep apnea (OSA) is a major public health issue in both children and adults, present in 1-5% of children and 10-30% of adults. It is characterized by repeated episodes of airway obstruction during sleep, leading to brain arousal, sympathetic activation, oxygen desaturation, sleep fragmentation, and non-restorative sleep. Patients report daytime tiredness, insomnia, and morning headaches. Children with OSA experience daytime somnolence, difficulties at school, behavioral problems, enuresis, and reduced quality of life. If left untreated, OSA can lead to numerous complications including hypertension, cardiovascular disease, stroke, and insulin resistance. Sleep partners are also affected, with patients viewing their disorder as a burden and sleeping in separate rooms. Further, disease prevalence is increasing as obesity increases. Continuous positive airway pressure (CPAP) is the current gold standard treatment for OSA. If used effectively and consistently, it can improve patient symptoms. However, adherence is generally poor, with patients experiencing physical discomfort, chest discomfort, and dry mouth. For those patients that cannot tolerate CPAP, surgical intervention is an option. In children, this typically starts with adenotonsillectomy. However, 20-75% of children will have persistent symptoms after adenotonsillectomy. In adults, anatomic factors including tonsil hypertrophy and redundant pharyngeal tissue can contribute to upper airway obstruction and may also necessitate higher pressures for effective CPAP treatment. Even if surgical intervention does not cure the OSA, it may make CPAP more tolerable and improve CPAP adherence. Sleep-related airway obstruction is a complex phenomenon potentially involving multiple anatomic levels. For patients with persistent symptoms despite initial therapy or intolerance to CPAP, further evaluation of the upper airway is clinically valuable. Polysomnography (PSG) is the gold standard for diagnosing OSA, but it does not provide information on the location(s) of upper airway obstruction. Knowledge of the precise sites of obstruction is critical to planning effective sleep surgery. Currently, this is accomplished with drug-induced sleep endoscopy (DISE). DISE was originally proposed in 1991 and involves administering anesthetic to a patient to simulate a sleep state, and then visualizing the upper airway using transnasal flexible endoscopy. Sites of obstruction at key locations including the adenoids, soft palate, lateral oropharynx, tongue base, and epiglottis can be identified. Though DISE offers valuable clinical information, it has notable limitations. First, it cannot evaluate the entire upper airway simultaneously, as any obstruction occurring superiorly precludes visualization of any obstruction occurring more inferiorly. Second, interpretation of DISE is subjective and there is no universally accepted system for analysis. Rating systems are qualitative, using grades such as complete, partial, or no obstruction as opposed to quantitative measurements. The optimal sleep assessment would be quantitative, reliable, and provide information on the entire upper airway simultaneously. A potential alternative to DISE which could meet these criteria is sleep manometry. Measurement of upper airway pressures captures the effects of obstruction along the entire upper airway, from the nasopharynx to larynx. Prior studies have attempted to employ manometry, but have been limited primarily by inadequate equipment and suboptimal methods of data analysis. Woodson et al. used a solid-state manometer with diameter of 2.3 mm and 5 sensors to detect palatal obstruction and tongue base obstruction in patients with OSA. They also used the same approach to detect persistent tongue base obstruction following uvulopalatopharyngoplasty. While these studies help demonstrate that manometry can be a useful adjunct to OSA assessment, they are severely limited both by the type of manometer used as well as the lack of a clear, detailed description of the method of data analysis. High-resolution manometry (HRM) uses pressure censors spaced 1 cm apart to allow for pressure measurement along the entire upper airway. The investigators have previously applied HRM to assessment of swallow physiology. Sophisticated methods of automated data analysis have been developed that have been shown to be reliable for both expert and novice users . Further, pattern recognition techniques have been applied to identify dysphagia and specific swallowing abnormalities. Application of this technology and modification of existing data analysis platforms will allow for a quantitative, reliable, and comprehensive assessment of upper airway obstruction during sleep in both children and adults, with potential for development of algorithms to predict effects of targeted surgical therapy at all levels of the upper airway.

The POACH study is part of the Cardiosleep research program. It is a prospective, observational, multicentre study conducted in Singapore. The recruitment target is 1365 patients. Eligible patients with AF and high cardiovascular risk will be recruited for a home-based sleep study using a FDA-approved portable device. The patients will be divided into 2 groups based on the presence or absence of OSA using apnoea-hypopnoea index ≥ 15 events/hour. The AF will be treated as per local standard practice. Participation in the POACH study will not affect the management of AF. Follow-up will be conducted every 6 months until the median follow-up duration has reached 2 years. The primary endpoint is a four-component composite of all-cause mortality, myocardial infarction, stroke and heart failure hospitalisation. Antecubital venous blood samples will be taken from the patients in the morning after the sleep study for targeted mass spectrometry which will measure 83 circulating metabolites. Sparse Principal Component Analysis will be used for data reduction. Identification of distinct associations between metabolic perturbations and OSA will be performed.

This study seeks to enhance long-term positive airway pressure (PAP) adherence among Spanish-speaking Hispanics, a group with known PAP outcomes disparities. This study will assess the feasibility of a linguistically and culturally adapted tele-management intervention (Automated Management, AM) for Spanish-speaking Hispanic adults with OSA.

Chronic obstructive pulmonary disease (COPD) is a chronic lung disease affecting an estimated 1 in 10 Canadians. Symptoms include persistent shortness of breath, cough and sputum production. The symptoms can be serious when people with COPD experience a flare of their disease and may lead to hospitalization or death. Improving other conditions that affect COPD control is one way to improve the health of people with COPD. Obstructive sleep apnea (OSA) is the most common breathing problem during sleep, and commonly co-exists with COPD. Although diagnosing and treating OSA is encouraged, it has not been highlighted in guidelines that recommend ideal COPD care. People with COPD and OSA have lower sleep quality and lower oxygen levels during sleep compared to people with OSA. Despite these differences, treatment of OSA in people with COPD is modeled after treatment of OSA in the general population, generally using treatment with continuous positive airway pressure (CPAP) with the possible addition of oxygen through the CPAP machine. There are few studies looking at other types of treatment including noninvasive ventilation (NIV) in people with COPD and OSA. The majority of studies of NIV in COPD has been for people with other reasons to use NIV including acute respiratory failure or chronic hypercarbic respiratory failure and did not include people with risk factors for OSA or who had undergone overnight sleep studies. In Alberta, NIV is provided province wide for people who have both OSA who do not meet certain physiologic targets in their oxygen levels or breathing patterns after CPAP is applied on an overnight sleep study. NIV is provided preferentially to CPAP and oxygen, providing an opportunity to look at health outcomes when NIV is used instead of CPAP for the treatment of patients with COPD. Through this study, we will measure whether people with COPD and a sleep related breathing disorder such as OSA have fewer severe flares of COPD after starting CPAP or NIV. We will evaluate whether the number of Emergency Department visits, hospitalizations or deaths lowers after starting CPAP or NIV.

Obstructive sleep apnea (OSA) is a type of disordered breathing defined by the repetitive obstruction of airflow during sleep due to upper airway collapse. Each obstructive event contributes to decreased blood oxygen, or hypoxia. OSA has been associated with various cardiovascular diseases, including hypertension, stroke, heart failure, and coronary artery disease. A factor in this association may be the decrease in blood vessel health and the marked over activation of the sympathetic nervous system that is observed in OSA due to nighttime hypoxia. The sympathetic nervous system is responsible for maintaining heart and blood vessel (cardiovascular) balance. Elevated sympathetic nervous activity (SNA) is a likely cause of hypertension and subsequent cardiovascular disease. Continuous positive airway pressure (CPAP) therapy is the most accepted treatment for OSA and has been shown to improve high blood pressure and SNA in patients. An alternative therapy for OSA is a type of removable oral appliance known as a mandibular advancement device (MAD). Currently, there is no research directly measuring SNA in OSA patients using MADs. In addition to other cardiovascular markers, the investigators would like to directly assess SNA during a MAD intervention using the gold standard technique of microneurography. The investigators believe this will provide important information for the management of OSA, as levels of SNA are known to respond to both acute and chronic levels of hypoxia. Improved heart and blood vessel markers could further support MAD use, providing an important alternative therapy for those that can not tolerate CPAP.