View clinical trials related to Sleep Apnea Syndromes.
Filter by:This is a prospective longitudinal cohort study whereby pregnant individuals are asked to complete an 8-day testing protocol to measure their sleep and cardiovascular health at two timepoints during pregnancy.
Obstructive Sleep Apnea is a common medical condition in children. Diagnosis is based on polysomnography . We conducted an open prospective non randomised clinical trial to assess the efficacy of a new medical device called SUNRISE.
The goal of this clinical trial is to test whether a health communication message (infographic about obstructive sleep apnea; OSA) seen by parents whose children have OSA symptoms will be helpful in identifying children with OSA. The main questions it aims to answer are: - Will parents who see this health communication message be more likely to talk to their child's health care provider about OSA? - Does the use of a health communication message help health care systems identify more children with OSA? Participants are parents and children who are patients in a specific health care center. As part of clinical care, parents will answer screening questions about OSA symptoms (e.g., snoring, sleepiness) before their child's primary care visit. If their child has OSA symptoms, the health care provider will receive an alert suggesting further evaluation and possible referral for a sleep study or to a specialist. In this study, children with OSA symptoms whose parents answer screening questions will be randomized to one of two conditions: 1) Health communication message (parent sees message before their child's visit with a primary care provider); or 2) Usual care (no information about OSA or their child's risk). Researchers will compare groups to see if the health communication message helps identify more children with OSA.
To be able to diagnose obstructive sleep apnea syndrome (OSAS) in a patient, polysomnography (PSG) remains the gold standard. However, this is expensive, involves a considerable workload and is quite complex. Additionally, the wait time from when the patient was referred for PSG to when it is done can take up to 5-6 months. Simpler screening tools have therefore been developed, such as questionnaires. The questionnaires are subjective tools completed by the parents based on the observation of the child's sleep, behavioral problems, etc. These questionnaires have shown usefulness in sorting out patients to be referred to a sleep specialist, an Oto-Rhino-Laryngologist (ENT) or an orthodontist before performing a PSG in view of the difficulty of access to it. The Pediatric Sleep Questionnaire (PSQ) is a tool that was developed by Chervin and his colleagues to screen children with OSAS. This questionnaire is a reliable and scientifically validated tool. In addition, the PSQ is the most accurate questionnaire from a screening point of view. However, the American Academy of Pediatric Dentistry (AAPD) considers that the questionnaires, among others, the PSQ, are not sensitive enough to detect OSAS in a child. They offer an anamnesis as well as a clinical examination to be carried out in addition to the few questions taken from the PSQ that they consider useful for screening patients at risk. The investigators can therefore ask themselves the following question: "Is the PSQ sufficient on its own or do the investigators obtain better results when the investigators carry out a complete anamnesis as well as a clinical examination? "
The investigators planned to investigate the effect of close monitoring on compliance and the factors affecting compliance among patients receiving PAP treatment due to OSA.This study was a single-center, prospective, randomized, controlled study approved by the hospital's ethics committee.One hundred twenty-eight patients were randomized as group one or two as group 1 is the study and group 2 is the control group. The first group was called by phone on the 15th day to ask if there were any complaints or problems with the device. Sequentially, they were called for controls at the end of the first, third, and sixth months. The second group was accepted as the control group, following our clinic's standard procedure in the first and sixth months. The patients who came to the control were asked if there were any problems with the device and any difficulties in use, and they were again informed about the devices and masks.
The purpose of this study is to analyze and summarize the characteristics of arrhythmia and heart rate variability of Chinese patients with three different types of heart failure combined with sleep disordered breathing based on the clinical data, to provide new diagnosis and treatment ideas for domestic patients, and then to improve the prognosis of patients betterly.
The participants in the study will be adult patients with suspected sleep-disordered breathing. A one-night polysomnography will be performed using the NOXA1 device (NOX Medical, Reykjavík, Iceland). During the polysomnographic examination, sleep, breathing, heart rate and activity of the masticatory muscles will be recorded. Blood sample will be taken from each of the participants qualified to the study and control group to determine the level of dopamine and used to perform genetic tests of selected single nucleotide polymorphisms occurring within the genes regulating the concentration of dopamine and genes encoding dopamine receptors.
The aim of this study is to explore the role of diet/lifestyle intervention on Positive airway pressure (PAP) treatment adherence in patients with obstructive sleep apnea (OSA).Specifically, we evaluated the effects of a combination of PAP and weight-loss Mediterranean diet intervention on improving PAP adherence, Body mass index (ΒΜΙ), daytime symptoms, mainly sleepiness and arterial blood pressure measurements over the effect of standard care alone.
Early feasibility study to estimate the functionality of a novel intervention based on non-invasive transcutaneous electrical stimulation of the hypoglossal nerve to reduce the Apnea Hypopnea Index (AHI).
Children with medical complexity (CMC) often have trouble breathing at night and need to use a breathing machine. This breathing machine is called noninvasive positive pressure ventilation (NiPPV). The use of NiPPV has been shown to improve quality of life and survival in children. Before it is used, NiPPV must first be tested to see what the correct 'machine settings' are for each child. This is usually done in the sleep laboratory at the hospital during a one-night stay. However, sleep studies in the hospital are disruptive and hard for CMC and their families because of the new environment and limited access to the equipment, supplies, comfort items and the routine their child has at home. Patients and families would prefer to start NiPPV at home but there needs to be more research on this to make sure it is possible and safe. This study will evaluate a new model of care to start NiPPV in the home. CMC aged 5-17 years old and starting NiPPV will be assigned at random, like a coin toss, to start NiPPV in the home or to start NiPPV in the sleep laboratory. The investigators will assess the feasibility and safety of the two ways to start NiPPV. This study will be the first step towards developing a study to evaluate if home NiPPV starts are effective. Starting NiPPV at home has the potential to improve the use of NiPPV (ie early adherence predicts long-term use) resulting in both medical benefits as well as improved quality of life for CMC and their families.