Active clinical trials for "Sleep Apnea, Obstructive"

This early phase I trial studies how well the use of a continuous positive airway pressure (CPAP) machine works in treating obstructive sleep apnea in patients with polycythemia vera or essential thrombocythemia. Obstructive sleep apnea is a condition where a person stops breathing during sleep, and is estimated to affect 30 to 50 percent of patients with polycythemia vera or essential thrombocythemia. A patient with obstructive sleep apnea typically snores, has disrupted sleep, experiences morning headaches, and has daytime sleepiness. Patients diagnosed with obstructive sleep apnea are typically treated with a device called CPAP. The CPAP provides pressurized air that keeps upper air passages open during sleep and may prevent them from narrowing or collapsing as occurs during snoring or sleep apnea.

This study will investigate if an intra-nasal nose spray of the drug oxytocin can decrease the amount of pressure needed from the automatic Continuous Positive Airway Pressure (CPAP) device while sleeping decreasing some of the harmful effects of low oxygen in people with sleep apnea. This study will last 35 nights and involves spending three nights in the sleep lab at George Washington University. There are no additional costs to participants and no compensation for being involved in the study.

This two-site randomized clinical trial will investigate and compare three treatments for insomnia in patients who have been diagnosed with and treated for sleep apnea: online cognitive behavioral therapy (OCBT), therapist-directed cognitive behavioral therapy (TCBT), and standard clinical care. 384 patients will be recruited and will attend up to 15 visits over 10 months. Visits will include baseline assessment, treatment visits, and post-treatment follow-up visits. Visits will involve completion of questionnaires, meeting with therapists, and a physical exam.

Mild intermittent hypoxia (IH) initiates sustained increases in chest wall and upper airway muscle activity in humans. This sustained increase is a form of respiratory plasticity known as long-term facilitation (LTF). Repeated daily exposure to mild IH that leads to the initiation of LTF of upper airway muscle activity could lead to increased stability of the upper airway. In line with PI's laboratory's mandate to develop innovative therapies to treat sleep apnea, this increased stability could ultimately reduce the continuous positive airway pressure (CPAP) required to treat obstructive sleep apnea (OSA) and improve compliance with this gold standard treatment. Improved compliance could ultimately serve to mitigate those comorbidities linked to sleep apnea. Moreover, in addition to improving CPAP compliance numerous studies indicate that mild IH has many direct beneficial effects on cardiovascular, neurocognitive and metabolic function. Thus, mild IH could serve as a multipronged therapeutic approach to treat sleep apnea. In accordance with this postulation, our proposal will determine if repeated daily exposure to mild IH serves as an adjunct therapy coupled with CPAP to mitigate associated co-morbidities via its direct effects on a variety of cardiovascular, metabolic and neurocognitive measures and indirectly by improving CPAP compliance. Modifications in autonomic (i.e. sympathetic nervous system activity) and cardiovascular (i.e. blood pressure) function will be the primary outcome measures coupled to secondary measures of metabolic and neurocognitive outcomes.

Obstructive sleep apnea (OSA) is a severe type of snoring causing people to choke in their sleep. It affects millions of Americans, causing many health problems. For example, patients with OSA often feel very sleepy and are at risk of falling asleep while driving. OSA also causes elevated blood pressure increasing the risk for heart attacks and strokes. Patients with OSA are often treated with a face-mask that helps them breath at night but can be difficult to tolerate. In fact, about half the patients eventually stop using this mask. Because there are few other treatments (and no drug therapy), many OSA patients are still untreated. Of note, especially young adults (i.e. 18 to 50 years old) benefit from treating their OSA, but they are also less likely to use the mask. Acetazolamide (a mild diuretic drug) has been used for over 50 years to treat many different conditions and is well tolerated. Recent data suggest, that acetazolamide may help OSA patients to not choke in their sleep and lower their blood pressure. Especially young adults with OSA are likely to respond well to this drug. Further, its low cost (66¢/day) and once- daily dosing may be particularly attractive for young OSA patients unable or unwilling to wear a mask each night. But previous studies had many limitations and did not focus on young adults. The goal of this study is to test if acetazolamide can improve sleep apnea and cardiovascular health in young adults with OSA (18-50 years old), and how it does that. Thus, we will treat 46 young OSA patients with acetazolamide or placebo for 2 weeks each. The order in which participants receive the drug or placebo will be randomized. At the end of each 2 week period we will assess OSA severity and cardiovascular health. Thus, this study will help assess acetazolamide's potential value for OSA treatment, and may also help to identify patients who are most likely to respond to acetazolamide (including select individuals >50 years of age). Ultimately, this work promises a drug therapy option for millions of OSA patients who are unable to tolerate current treatments.

The main purpose of this study is to test is mandibular advacenment device (MAD) use is associated with reductions in nocturia.

The prevalence of obstructive sleep apnea (OSA) is high in the United States and is a major health concern. This disorder is linked to numerous heart, blood vessel and nervous system abnormalities, along with increased tiredness while performing exercise likely because of a reduced blood supply to skeletal muscles. The gold standard treatment of OSA with continuous positive airway pressure (CPAP) in many cases does not lead to significant improvements in health outcomes because the recommended number of hours of treatment per night is often not achieved. Thus, development of novel treatments to eliminate apnea and lessen the occurrence of associated health conditions is important. The investigators will address this mandate by determining if repeated exposure to mild intermittent hypoxia (MIH) reduces heart and blood vessel dysfunction and tiredness/ fatigue experienced while exercise performance. The investigators propose that exposure to MIH has a multipart effect. MIH directly targets heart and blood vessel associated conditions, while simultaneously increasing upper airway stability and improving sleep quality. These modifications may serve to directly decrease breathing episodes and may also serve to improve usage of CPAP. Independent of its effect, MIH may serve as an adjunctive therapy which provides another path to reducing heart and blood vessel abnormalities that might ultimately result in improvements in exercise capacity and reverse performance fatigue in individuals with OSA.

Atomoxetine-plus-oxybutynin therapy (AtoOxy) has been shown to substantially reduce obstructive sleep apnea severity (OSA) in about half of patients. Here, the investigators will study which patients respond meaningfully to therapy using pathophysiological traits measured at baseline sleep studies.

Continuous positive airway pressure (CPAP) is highly effective in treating obstructive sleep apnea (OSA). However, this treatment modality relies heavily on patient adherence, and poor adherence to the treatment limits its effectiveness in treating OSA. Strategies to augment adherence are needed in the management of OSA. The smart watch and linked app provide various health information, including sleep, snoring or oxygen saturation during sleep, exercise, blood pressure, and electrocardiogram. The smart watch and linked app could potentially improve adherence to positive airway pressure (PAP) treatment. This randomized controlled trial (RCT) aimed to examine whether the use of smart watch and app can increase PAP adherence in patients with OSA.

MIST+ is studying a nasal spray to see if it will reduce the need for surgery for snoring. Children aged 3-12 are invited to take part. Snoring affects up to 10% of children and can cause sleeping problems and concentration or behavioural issues in the daytime. Currently the most common treatment for snoring is surgery to remove the tonsils and/or adenoids, however many children wait a long time to see a specialist. This research is trying to find if nasal sprays can help children with snoring, and whether this can reduce the need for surgery.