View clinical trials related to Sleep Apnea.
Filter by:Laryngomalacia is the most frequent cause of stridor in children under 1 year. The airway obstruction generates turbulent airway flow and creates the characteristic high-frequency stridor sound. In addition, the airway obstruction can cause apnea, a following drop in oxygen saturation and sleep disturbances. The symptoms of laryngomalacia are often worsened by activity, feeding, crying and lying flat on the back. The diagnosis is made with flexible laryngoscopy when the child is awake. The children are most often treated with expectation, information and guidance, observation with help with feeding and reflux treatment. Up to 20% of patients have a severe degree of laryngomalacia with apneas, which is an indication for surgical treatment. The investigators want to examine whether sleep examinations can help us deciding which child benefit from surgery, and follow-up the child again after 4-6 weeks and 1 year. The sleep examinations are carried out with polygraphy and/or polysomnography with simultaneous audio records and video monitoring and with Somnofy from VitalThings. The investigators want to use artificial intelligence and machine learning when analyzing the sleep examinations. The investigators also want to have a control group examining the sleep and breathing during night at home. In both groups the investigators want to examine the quality of life with the questionnaire ITQoL-SF47.
This single arm clinical trial will assess whether continuous positive airway pressure (CPAP) therapy in the management of moderate-to-severe sleep-related breathing disorders (SRBDs) among para-athletes living with cervical/thoracic, complete or incomplete spinal cord injury (SCI) is effective in improving cognitive impairment, in reducing fatigue, depression, anxiety, and overall quality of life. Further, the study will evaluate the effectiveness of CPAP therapy in improving their performance in sports and the perceived risk of injuries.
This is an investigator-initiated virtual (or decentralized) trial that includes a postal parcel (mail-in) containing sensors for SA diagnosis (NightOwlâ„¢) and physical activity (SENS Motion), in addition to smart-phone based heart rhythm (FibriCheck) monitoring in participants with paroxysmal or persistent AF. A case-coordinator (the investigators) will manage all participant contacts virtually during the study from inclusion to follow-up.
An initial small study on 15 children that are already being investigated for central sleep apnoea in the sleep unit at Sheffield Children's Hospital. The central apnoea monitor will be placed around the child's abdomen overnight alongside the sensors already being used for the clinical sleep study and the signals from the two systems will be compared to evaluate the accuracy of the new device.
The purpose of this research is to see how effective the Personalized obstructive sleep apnea (OSA) Treatment Adherence Model called PRAISE is in helping the patient stick to the physician recommended OSA treatment plan Positive Airway Pressure (PAP).
This is a prospective, observational study evaluating the relationship between severity of sleep apnea with severity of cognitive fog and if treatment of sleep apnea with CPAP improves cognitive fog in a cohort of post COVID patients with sleep apnea.
During sleep, many people have times when they breathe shallowly or completely stop. If a person stops breathing for more than 10 seconds, this is called an 'apnoea'. If shallow breathing lasts for more than 10 seconds, it is called a 'hypopnoea'. If a person has these events frequently, it disrupts their sleep and they do not awake refreshed. It can also put strain on the heart, leading to cardiovascular conditions. These sleep disorders, usually called 'Sleep Apnoea', can be treated for most people using 'continuous positive airways pressure', CPAP. Current tests for sleep apnoea, usually used at home, are expensive, complicated for patients to use and do not monitor actual breathing. The new test, called Apne-Scan, is very simple and will cost less than the standard tests. It just requires the user to wear a mask, similar to ones used for CPAP treatment, overnight and then send the mask off for data analysis. The Apne-Scan mask, developed with taxpayer funding, is fitted with a pressure sensor to monitor actual breathing. People between the ages of 18-70 who have been referred to the sleep clinic at Royal Stoke University Hospital are eligible to participate in this exploratory study. They will wear the Apne-Scan mask at the same time as their standard overnight sleep apnoea test. The breathing data collected by Apne-Scan will be analysed by Apnea-Tech Limited, the device manufacturers, so that it can be compared to the data captured by the standard sleep apnoea test.
This observational study aims to learn about the correlation between the improving comorbidities associated with obesity after MGB (Mini-Gastric Bypass) surgery and changes in body composition in morbidly obese patients. The main questions it aims to answer are: To study the correlation between the improving comorbidities associated with obesity after MGB(Mini-Gastric Bypass) surgery and changes in body composition. Other objectives are: - Changes in the parameters of the metabolic syndrome after surgery - Changes in the cardiovascular risk biomarkers after metabolic surgery - Emergence in complications arising out of surgery requiring any intervention or causing a prolonged hospital stay, or requiring additional outpatient visits. Type of Study: An observational study in which participants with morbid obesity will undergo mini-gastric bypass surgery as per routine protocol. No separate experimental interventions will be done in the study for the participants.
The standard for treatment for people suffering from obstructive sleep apnea (OSA) syndrome involves the use of Continuous, or Automatic Positive Airway Pressure (CPAP, APAP) machines, which work by delivering air via tubing and mask to a patient at pressures of up to 20cmH2O. This increased pressure is meant to stabilize the airway to reduce obstruction events. APAP machines are generally more effective and more comfortable for patients than CPAP machines because these devices automatically adjust pressure to treat an apnea. As a result of the high rate of patient dissatisfaction with conventional PAP therapy, alternative treatments for sleep apnea have been developed. One therapeutic target for OSA is stimulation of the genioglossus muscle, a phasic respiratory muscle important in maintaining upper airway patency. Recently, it has been shown that genioglossus reflex responses can be achieved through the application of negative pressure pulses as well as changes in airway pressure. These studies focused on activating pressure-sensitive mechanoreceptors within the upper airway known to contribute to genioglossus activity. Together, these studies have demonstrated that both brief pulses of negative airway pressure and changes in airway pressure are capable of eliciting genioglossus reflex responses. The goal of this interventional study is to evaluate the potential of airway muscle activation on sleep-disordered breathing during sleep therapy by applying brief maneuvers of air pressure using existing pressure and flow sensors in conventional CPAP machines.
The goal of the study is to determine the feasibility of a behavioral intervention to improve CPAP adherence among African American patients with obstructive sleep apnea.