View clinical trials related to Sleep Apnea, Obstructive.
Filter by:Although obstructive sleep apnea (OSA) is a common disorder, there are no blood biomarkers for identification and management of these patients. This project will study microRNAs in order to develop and validate blood biomarkers that are specific to OSA, useful for identification of cases with OSA, reflective of efficacy of therapy, and able to predict blood pressure response to treatment of OSA.
The purpose of this research study is to collect health and physiological data using commercially available wristband fitness tracker devices (FitBit and Garmin devices) to help determine their accuracy and reliability at measuring percent of night spent in REM sleep, oxygen desaturation, and apnea hypopnea index compared with currently available methods of in-laboratory polysomnogram and home sleep testing.
This is a pre-market study for ongoing product development aiming to explore the usability and performance of the study PAP systems to guide product development.
The nocturnal short-term BPV induced by sleep-breathing events is affected by many factors. The purpose of the study is as follows: (1) to explore the relationship between nocturnal short-term BPV and vascular endothelial function and sympathetic activity in patients with OSA respectively, (2) to explore which play the key role in BP fluctuation, (3) how to prevent the frequent BP fluctuation and arrive at a safe point.
Sleep is an important factor that influences long-term quality of life with known health consequences. Obstructive sleep apnea, the most prevalent disease that disturbs sleep, is considered a public health problem. Treatment with continuous positive airway pressure is cost effective and reverses the clinical consequences but there is a percentage of patients who do not tolerate it or leave it without treatment and with potential future health complications. Mandibular advancement device can be a valid and well tolerated alternative, it is known that it reduces apnea-hypopnea index, but its effect on the improvement of sleep quality is evaluated by polysomnography that interferes with the quality of sleep. There is an ambulatory monitoring device for sleep quality and circadian rhythms, which can register prolonged periods of time, under natural conditions and at a lower cost than a polysomnography. This pilot project assesses whether mandibular advancement device is an effective and well tolerated alternative in the treatment of obstructive sleep apnea to improve the quality of life and sleep in the medium and long term.
The goal of this observational study is to investigate biomarkers and neurocognitive markers of neurodegenerative processes in obstructive sleep apnea patients. The main questions the study aims to answer are: - Does neurodegeneration assessed by neurobiological markers and neurocognitive test performance exists in obstructive sleep apnea? - Are these neurodegenerative markers are associated with the adherence to clinical prescribed positive airway pressure therapy? Newly diagnosed patients with obstructive sleep apnea will be observed during the use of clinical prescribed positive pressure therapy. Different study related investigations take place before and six months after treatment start. Researchers will compare after six months the group of adherent treatment participants with the non-adherent treatment participants group to investigate if differences in the observed neurobiological or neurocognitive parameters exist.
Hypoglossal nerve stimulation (HNS) plays an increasingly important role in managing patients with obstructive sleep apnea (OSA) who do not tolerate CPAP therapy and are not eligible for other alternative treatment options, such as mandibular advancement devices or positional therapy. The posterior upper airway space dimensions are crucial in managing patients with HNS in the patient selection process and therapy control. The lateral collapse of the upper airway is of crucial importance. Lateral collapse at the palatal level and of the oropharyngeal walls is a well-established negative predictive factor for therapeutic success. Patients with complete concentric collapse at the palatal level (pCCC) in drug-induced sedation endoscopy (DISE) must be excluded from the implantation of HNS, which is cumbersome and invasive. Endoscopy has the inherent limitation that only one level can be observed at a given time, and assessment is possibly hampered by phlegm. During activation and titration of HNS, tongue protrusion is observed in the awake patient. However, this method does not allow for assessing the opening of the retroglossal (RG) and retropalatal (RP) airway space, which is the ultimate therapeutic goal. Insufficient opening of the airway is the reason for non-responders with HNS. Insufficient upper airway opening can be either at the retropalatal or retroglossal level. The study aims to identify insufficient airway openings better using sub-mental ultrasonography. Sub-mental standardized and orientated ultrasonography offers a quantitative, reproducible way of assessing transverse upper airway dimensions and anatomic features of the upper airway in a rapid and non-invasive manner. In addition, anatomic characteristics of the airway's adjacent tissue, such as the size and shape of the tongue, may also have an impact on the effectiveness of HNS. Tongue morphology and posterior airway space assessment could be used in preoperative evaluation and during therapeutic titration of HNS. The clinical routine could be included tongue morphology and posterior airway space assessment without additional patient risks. However, the clinical value of assessing posterior airway space and tongue morphology in patients with HNS is yet unknown.
The purpose of this study is to evaluate the influence of sleep apnea-hypopnea syndrome (SAHS) syndrome and treatment with continuous air pressure (CPAP) on the circadian intraocular pressure (IOP) patterns and its structural impact on the nerve fiber layer of the retina to analize the relationship between SAHS and glaucoma. OBJECTIVES: 1. To study the PIO and its fluctuations in patients with SAHS before starting treatment with CPAP. Objective 2. To assess the effect of CPAP on circadian IOP patterns. 3. Evaluate the effect of changes in IOP in patients with OSA treated with CPAP in the nerve fiber layer of the retina. METHODS: A prospective study to be monitored continuously for 24 hours IOP by contact lens device Sensimed Triggerfish (Sensimed AG, Switzerland). Objective 1. To monitore and compare the IOP for 24 hours at 74 patients diagnosed with SAHS before starting treatment with CPAP and 37 patients without OSA. Objective 2. To study the impact of CPAP treatment by a study design in two stages CPAP / sham CPAP. A first monitoring of IOP will be compared before starting treatment with CPAP, with monitoring a month (CPAP-sham CPAP) and 12 months after initiation of treatment with CPAP. Objective 3. To correlate the values obtained from the monitoring of IOP in the thickness of the nerve fiber layer of the retina, as measured by optical coherence tomography, at baseline and at 12 months after starting treatment with CPAP.
Obstructive sleep apnea (OSA) is recurrent episodes of partial or complete obstruction of the upper airway during sleep that causes intermittent hypoxia and sleep fragmentation and potentially lead to cardiometabolic and neurocognitive sequelae. Chronic intermittent hypoxia, sleep fragmentation of OSA, and insufficient sleep have been significantly associated with higher risks of neurocognitive impairment, including mild cognitive impairment (MCI) and Alzheimer's disease. Thus, sleep and sleep apnea might be modifiable factors to neurocognitive impairment. Positive airway pressure (PAP) is the first line of treatment to maintain open airways for patients with OSA. Improving sleep, sleep apnea and circadian function could be a high-value intervention target to alleviate cognitive impairment and decline in subjects with mild neurocognitive impairment. Amyloid accumulation in brain tissue is a distinct feature of Alzheimers' disease, which is associated with potential impairment of neurocognition clinically. It predicts memory decline in initially cognitively unimpaired individuals. The study explores the associations between sleep apnea, cognitive function and cerebral imaging and the role of PAP therapy on neurocognitive trajectory in these patients with subjective cognitive impairment /mild cognitive impairment (SCI/MCI).
The goal of this randomised, double-blind phase II/III clinical trial is to determine the safety and efficacy of IHL-42X in subjects with obstructive sleep apnoea who are intolerant, non-compliant, or naïve to positive airway pressure. Phase II study will be a 4-week dose-finding study comparing two dose strengths of IHL-42X to placebo. The optimal dose strength will be selected based on comparing the safety and efficacy of the two IHL-42X dose strengths to placebo over a 4-week treatment period. The three treatment groups are; IHL-42X Low dose (2.5mg dronabinol, 125mg acetazolamide), IHL-42X High dose (5mg dronabinol, 250mg acetazolamide) and Placebo. Each treatment group will enrol approximately 40 patients per treatment arm, for a total of approximately 120 patients. The safety and efficacy results of the Phase II study will be used to select the dose strength of IHL-42X and corresponding doses of dronabinol and acetazolamide in Phase III. Phase III study will use the optimal dose strength of IHL-42X identified in Phase II and will be compared to the component active pharmaceutical ingredients at equivalent dose strengths to those found in the IHL-42X optimal dose strength and placebo over 52 weeks. The four treatment groups are; IHL-42X (optimal dose from Phase II), Acetazolamide (equivalent dose strength to that in the IHL-42X optimal dose strength), Dronabinol (equivalent dose strength to that in the IHL-42X optimal dose strength) and placebo. The treatment groups will enrol approximately 165 patients in IHL-42X, approximately 55 patients in dronabinol, approximately 55 in acetazolamide, and approximately 165 in placebo, for a total of approximately 440 patients.