View clinical trials related to Obstructive Sleep Apnea.
Filter by:Diagnosis and treatment of sleep apnea with continuous positive airway pressure (CPAP) therapy has been shown to decrease arrhythmia recurrence in patients with AF following ablation. However, patients with AF undergoing ablation are not routinely screened for sleep apnea, despite an estimated sleep apnea prevalence of 25% in the general population, and perhaps higher among patients with AF. Home sleep testing is frequently used for evaluation of sleep apnea.
The coordination of swallowing and breathing is an important mechanism because the route for air and deglutition is partly shared in the pharynx. Tongue Stabilizing Device (TSD) is a preformed appliance for Obstructive Sleep Apnea (OSA) that protrudes the tongue and improves upper airway structure and function during sleep. Investigators will attempt to assess efficacy of TSD therapy on OSA and the physiological change of swallowing and breathing routes in OSA patients during sleep.
Background: Patients with obstructive sleep apnea run an increased risk of cardiovascular disease including hypertension. Continuous positive airway pressure (CPAP) is the first line of treatment. However, many patients skip CPAP for some nights. Aims: The primary aim was to investigate the cardiovascular effects of short-term CPAP withdrawal for five nights because of obstructive sleep apnea. Design: Randomized, parallel controlled trial Inclusion criteria: 100 patients with successful CPAP treatment for moderate to severe obstructive sleep apnea. Exclusion criteria: Dementia, heart infarction within 3 months, apnea hypopnea index > 10 with CPAP treatment. Randomization: 50 patients are randomized to sleep 5 days without CPAP and 50 patients to continue with CPAP treatment during the trial. Primary outcomes: Arterial stiffness, 24-hour blood pressure. Secondary outcomes: Effects of gender on outcome. Effects on brain natriuretic peptide, apnea-hypopnea index, oxygen desaturation-index, urine-catecholamines, blood lipids, C-reactive protein, glucose metabolism (S-glc, HBA1c), insulin resistance, serum creatinine, hemoglobin, daytime sleepiness (ESS, KSS), lung function (FVC, FEV1), airway inflammation (exhaled NO) Procedures: Sleep apnea investigation while patients are treated with CPAP for one night. Urinary samplings during the same night. They are also investigated with 24 h blood pressure measurements. Blood samples are taking fasting in the morning followed by measuring the arterial stiffness (Vicorder, Skidmore Medical UK) including pulse wave analysis using sphygmomanometer (Omron Japan). The same investigations are done at follow-up 5 days later where half of the patients have continued using CPAP treatment and half of them has slept without CPAP.
Obstructive sleep apnea (OSA) is common and is a risk factor for postoperative complications, including respiratory and cardiac events and delirium. Despite this risk, however, there are currently no accepted biomarkers that can predict poor outcomes, making it unclear to see which patients will have complications after surgery, and who might need prolonged monitoring or an extended hospital stay. An improved understanding of the pathophysiology of OSA is required to identify potential biomarkers for outcomes after surgery, as well as to develop new treatments. The aim of this pilot study is to identify serum and cerebrospinal (CSF) biomarkers associated with obstructive sleep apnea (OSA). The presence of cytokines and neurotrophins will be determined and quantified in both patients with OSA and in controls. The CSF samples will additionally be analyzed by proteomic methods to identify potential biomarkers with significantly different levels present in patients with and without OSA. The working hypothesis is that OSA patients who are non-CPAP-compliant will have higher levels of circulating cytokines and lower levels of circulating neurotrophins in serum and CSF, compared to patients who are CPAP-compliant and/or controls.
This investigation is designed to evaluate the at-home usability, performance, user acceptance and reliability of the Headgear with a CPAP Mask for a duration of 2-4 weeks.
This is a pilot to review the feasibility of a program that assists patients towards therapy compliance by scheduled intervention through the first month of therapy. The hypothesis of this study is that the trial program will function as intended and average patient adherence will be over 4 hours per night.
Currently Fisher & Paykel Healthcare (FPH) is developing a new full face mask. The objective of this clinical investigation is to evaluate the usability and acceptance of the investigative mask, the effectiveness of the seal and headgear. The participant will be randomised to use either full face mask prototype 1 or 2 as according to the randomization log for 7 ± 3 days in home. The participant will then crossover to the other full face mask prototype to use in home for 7 ± 3 days. Neither the investigators or the participants will be blinded to the study.
The purpose of this study is to obtain additional safety and efficacy data on the use of Inspire® therapy for the treatment of subjects with moderate to severe Obstructive Sleep Apnea.
Although obstructive sleep apnea (OSA) is common, most of the patients are undiagnosed. OSA is associated with a large number of co-morbidities, and thus, it is of great importance to identify the patients and start treatment in order to reduce the risks for complications. Current screening tools are quite unspecific and the golden standard methodology for diagnosis, polysomnography, is expensive and time consuming, thus not suitable for screening. In perioperative medicine the STOP BANG screening questionnaire is currently the recomended screening tool, however this questionnaire has only been evaluated in a sleep clinic in a very limited numbers of patients.
The primary and well-known challenge with continuous positive airway pressure (CPAP) is the incomplete adherence of patients to this therapy. Successfully improving CPAP use is likely through emphasizing patient education regarding the risks associated with obstructive sleep apnea (OSA), potential benefits of therapy, teaching techniques to acclimate to CPAP, and providing a system of accountability through a follow-up process. With the changing landscape of healthcare reimbursement which emphasizes achieving positive clinical outcomes, discovering more automated and self-directed methods of educating and follow-up is needed. The investigators plan to investigate the impact of adjunct Web education and automated follow-up on CPAP use and other measurements of patient engagement. The specific aims of this pilot study are as follows: 1. Assess impact of Telemedicine mechanisms on CPAP use 3 months after initiating therapy in comparison to usual standard of care. 2. Assess impact of Telemedicine mechanisms on functional outcomes and parameters of healthcare utilization at 3 months after initiation of therapy in comparison to usual standard of care.