View clinical trials related to OSA.
Filter by:Obstructive sleep apnea (OSA) is common and associated with many adverse health consequences, but many patients are unable to tolerate standard therapies such as continuous positive airway pressure (CPAP) and thus remain untreated. Single-drug therapies have shown promising results in treating sleep apnea, but on average patients have only experienced partial relief. Multi-drug therapy may offer a more effective treatment approach. The goal of this study is to test the effect of combination therapy with three FDA-approved drugs (Diamox [acetazolamide], Lunesta [eszopiclone] +/- Effexor [venlafaxine]) on OSA severity and physiology.
This is the study entitled "Comparison for oral negative pressure therapy and CPAP for OSA under sleep endoscopy assistance: A randomized controlled trial". CPAP is first line golden standard treatment for Obstructive sleep apnea (OSA). However, the overall CPAP compliance is poor. Recent study reveals that oral negative pressure therapy improves apnea severity in OSA patients with good compliance. However, no study is designed to compare oral negative pressure therapy and CPAP for OSA patients. In addition, the effect of oral negative pressure therapy for hypopharynx is unclear. Therefore, we will perform druginduced sleep endoscopy to evaluate upper airway obstruction of OSA patients before treatment. OSA patients will be assigned into oral negative pressure group or CPAP group for 2 months. Sleepiness, sleep quality, residual apnea severity and compliance will be evaluated.
The goal of the study is to test the role of telemedicine combined with humidification to check CPAP treatment during the first month to improve adherence and reduce unsolved side effects of therapy.
Obstructive sleep apnea syndrome (OSAS) was associated with upper and lower respiratory tract inflammation, Fractional exhaled nitric oxide (FeNO) proposed as a marker of airway inflammation, few studies were done on the impact of continuous positive airway pressure (CPAP) on FeNO. Aim of the work: to study the impact of continued positive airway pressure therapy on exhaled NO and using Hs-CRP as a marker of inflammation in obstructive sleep apnea syndrome. Patient and Methods: This study is a case-control study including participants were newly diagnosed as OSAS and control recruited from sleep outpatient clinic, full night PSG was done, fractional exhaled nitric oxide and Hs-CRP were measured next morning of PSG, CPAP for moderate to severe OSA patient was advised with measurement of FeNO and Hs-CRP after 3months of CPAP Keywords: FeNO; Hs-CRP; CPAP; OSA. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.
Aim of this multicenter prospective cohort study is the evaluation of the multidimensional qualities of dyspnea in a number of diseases using the Multidimensional Dyspnea Profile (Banzett et al, ERJ 2015).
The presence of protein in urine is a common laboratory finding in children. Although proteinuria is usually benign, it can be a marker of a serious underlying renal disease or systemic disorder. Microalbuminuria can be one of the first subclinical manifestations of endothelial dysfunction and is associated with low grade systemic inflammation. Multiple studies from the adult population suggest that microalbuminuria above the upper quartile is linked with increased risk of coronary heart disease and death even after adjustment for the presence of diabetes mellitus, obesity and hypertension. Obstructive sleep apnea (OSA) has been recognized as an independent risk factor for cardiovascular morbidity related to sympathetic nervous system overflow, metabolic dysregulation, inflammation and endothelial dysfunction secondary to repetitive hypoxia -reoxygenation events. Therefore, there is a need for further studies to investigate the association between OSA and microalbuminuria in children. Furthermore, no studies have thus far investigated the association between other sleep disorders such as periodic limb movement (PLMD) and microalbuminuria in children. Our hypothesis is that children with sleep disorders or short sleep duration have increased risk of proteinuria/microalbuminuria and that treatment and resolution of the sleep problem will be followed by improvement in proteinuria levels.
The standard sleep study for diagnosing obstructive sleep apnea (OSA) in patients with co-existing illness is by conducting an attended polysomnography (PSG) with more than 7 channels for recording physiological parameters in the sleep center, as recommended by international guidelines. However the guidelines are more than 10 year old without update. With the growing and aging of the population, there is a need to explore if portable monitoring devices could be used in this group of population, so this group of patients can be managed in a timely manner. Portable monitoring devices have been used widely in patients without significant co-existing illness. These devices record at least 4 physiological parameters for diagnosing OSA and can be performed in an unattended setting e.g. at home because of the simplicity. This can shorten the waiting time for making a diagnosis using PSG. Eighty patients suspected of OSA, with stable co-existing illnesses, will be recruited for the study. Informed consent will be signed before participation. They will be offered a standard attended PSG in the sleep center. A portable monitoring device "Nox T3" will be hooked up to the patients concurrently during the PSG.
By clinical record review, this retrospective study aims to compare the different age groups of patients with obstructive sleep apnea, who were diagnosed and treated in Taipei Veterans General Hospital, Taiwan.
ABSTRACT OBJECTIVES: To study the correlation between pharyngeal airway volume (PAV), the clinical indicators of obstructive sleep apnea (AHI, ESS), and the impact of orthognathic surgery on them. METHODS: A prospective, descriptive, unicentric study carried out by a multidisciplinary team to evaluate the following parameters in patients undergoing orthognathic surgery at Maxillofacial institute Teknon medical center. During the study period: - Record of the type, magnitude and direction of surgical movements of the maxillofacial complex made during the surgery (Day 0-Month 1). - Assessment of PAS/PAV stability (relapse) at short term (1 month). 3D PAV assessment by cranial voxel-based superimposition protocol before and one month and 12 months after orthognathic surgery. - Household polysomnography (PSG) registry/ apnea-hypopnea index (Day 0, Month 1 and Month 12). (AHI evaluation bu neurophysiologist) - Assessment of the clinical indicators of obstructive sleep apnea at day 0, month 1 and month 12:, blood pressure (mm Hg) , and daytime hypersomnia test (Epworth sleepiness scale, ESS) (Day 0, Month 1 and Month 12). - Record of body mass index (BMI) (cm/Kg2) Main Objective: • Evaluate the impact of orthognathic surgery (bimaxillary or monomaxillary) and its movements on the PAV and the clinical indicators of OSA. Specific objectives: • Interrelate the degree of dentofacial deformity with the IAH. - Study the potential correlation between the volume of the VAS and the IAH. - Correlate the type, direction and magnitude of the surgical movements of the maxillofacial complex with PAV/PAS increase Correlate the type, direction and magnitude of the surgical movements of the maxillofacial complex with the cure of OSA (household PSG AHI assessment) and the following clinical indicators of OSA: diurnal hypersomnia test (ESD, ESS). - Evaluate negative effects of either maxillary or mandibular surgical movements in PAS/PAV increase and the cures of OSA. Evaluate negative effects of either maxillary or mandibular surgical movements in the improvement of the clinical symptoms and the cure of OSA. - To study the possible effect of surgical complications on PAS/PAV stability at long term and the clinical symptoms of OSA. - Demonstrate that maxillomandibular surgery is a defined, predictable and a definitive cure for OSA. - Demonstrate that skeletal, linear, and cross-sectional volume parameters remain stable at long-term. - Demonstrate that AHI and OSA-related parameters stay stable at long term after mono- or bimaxillary surgery. Hypothesis - H1a: Maxillomandibular advancement (orthognathic surgery) does correlate with the volume of the upper airway, at both short or long term. - H2a: Maxillomandibular advancement (orthognathic surgery) does correlate with the clinical indicators of obstructive sleep apnea, at both short or long term.
Elucidating the effects of obstructive sleep apnea (OSA) on cardiovascular outcomes in acute coronary syndrome (ACS) is crucial in risk assessments and therapeutic recommendations for affected individuals. Although large epidemiological studies have reported an association between OSA and both coronary heart disease (CHD) and heart failure (HF), its effect on outcomes in ACS is still unclear. In contrast to previous theories attributing causation to OSA, recent studies have hypothesized a cardio protective role of OSA. Repetitive hypoxemic episodes noted in OSA may lead to myocardial ischemic preconditioning, possibly by increasing coronary collateral vessel recruitment, conferring protection from acute coronary events. We propose a prospective, observational, single center study in patients presenting with ACS, including ST segment elevation (STEMI), non-ST segment elevation (NSTEMI) and unstable angina who undergo coronary revascularization to determine the impact of OSA on clinical outcomes after ACS. Adult patients above age 18 years who present with myocardial infarction are eligible. Recruited patients will undergo an overnight sleep study using a level III portable diagnostic device before hospital discharge. The sleep tracings will be analyzed and audited by a certified sleep physician. The patients will be divided into 2 groups based on apnea-hypopnea index (AHI): OSA (AHI ≥ 15) and non-OSA (AHI < 15) groups. The primary end points of this study were in-hospital, 30 day and 6 month major adverse cardiovascular events (MACE), defined as a composite endpoint of cardiovascular death, non-fatal MI, stroke and the need for unplanned repeat revascularization. Secondary endpoints include individual MACE outcomes of cardiovascular death, non-fatal MI, stroke, need for unplanned repeat revascularization, heart failure requiring hospitalization, and all-cause mortality.