896 Clinical Trials for Various Conditions
Multi-center, open-label, prospective, randomized clinical trial of the aura6000(R) System for the reduction of apnea and hypopneas in adult patients with moderate to severe obstructive sleep apnea who have failed or are unwilling to use positive airway pressure treatment.
The primary purpose of the study is to determine whether lemborexant increases the apnea hypopnea index (AHI) on Day 8 of treatment in adult and elderly participants (adults greater than or equal to \[\>=\] 45 to less than \[\<\] 65 years; elderly \>=65 to 90 years) with moderate to severe obstructive sleep apnea (OSA) compared with placebo, and using pulse oximetry determine whether lemborexant decreases the peripheral oxygen saturation (SpO2) during total sleep time (TST) on Day 8 of treatment in adult and elderly participants (adults \>=45 to \<65 years; elderly \>=65 to 90 years) with moderate to severe chronic obstructive pulmonary disease (COPD) compared with placebo.
Obstructive sleep apnea (OSA) is a highly prevalent disorder with adverse neurocognitive and cardio-metabolic outcomes. Continuous positive airway pressure (CPAP) is the gold standard therapeutic option to treat airway obstructions during sleep and thus, prevent its adverse cardiovascular and neurocognitive outcomes. Previous clinical trials, however, have largely failed to show a consistent impact of CPAP on these health outcomes. One of the main limitations of these trials may be the inadequate characterization of OSA and its acute physiological consequences. By characterizing OSA based on the "apnea-hypopnea index (AHI)", there is a potential risk of negative results. In this trial, the investigators intend to tackle this issue, by better characterization of OSA-related physiological consequences during sleep using physiologically driven metrics to capture the burden of OSA-related hypoxemia ("hypoxic burden"), autonomic response ("heart rate burden"), and sleep fragmentation ("arousal burden").
Central sleep apnea (CSA) is common in patients with heart failure and those using opioid analgesics. Unfortunately, effective treatment of central apnea remains elusive, pressure therapy given the modest efficiency of positive airway pressure therapy. The focus of this proposal is to identify mechanistic pathways to guide future therapeutic interventions for central sleep apnea based on the strong premise that multi-modality therapy will normalize respiration and hence mitigate adverse long-term consequences of CSA. The investigators' proposed studies will test combination therapies, including positive airway pressure (PAP) plus a pharmacological agent who have heart failure or are using opioid analgesics. The investigators anticipate that findings will inform future clinical trials to improve care and quality of life among Veterans suffering from central sleep apnea, which remains difficult to treat using existing approaches.
The purpose of the study is to compare the relative contribution of systemic inflammation vs. Obstructive Sleep Apnea (OSA) severity (as measured by Apnea Hypopnea Index) in predicting cardiovascular and metabolic aberrations associated with mild-to-moderate obstructive sleep apnea.
Test the effect of added a single-use Varnum mouthpiece on pharyngeal collapsibility and obstructive sleep apnea (OSA) severity in patients who identify themselves as mouth breathers. Research indicates that nasal breathing not only may improve sleep apnea but it also increases circulation, blood oxygen, and carbon dioxide levels, slows the breathing rate, and improves overall lung volumes. Thus, the investigators will test whether a single-use Varnum mouthpiece can improve pharyngeal collapsibility and OSA severity in mouth breathers.
The investigators hypothesis is that obstructive sleep apnea (OSA) patients with a low arousal threshold may wake up too early during a respiratory event, before upper airway muscles can be activated to achieve stable ventilation. Thus, strategies to manipulate the respiratory arousal threshold could potentially improve the quality of sleep and sleep disordered breathing. Agents that raise arousal threshold are therefore likely to benefit some patients with OSA. The overall goal of this project is to determine the importance of the arousal threshold in OSA, determine which patients might benefit from a raised arousal threshold, and test this hypothesis by using pharmacological manipulation of the arousal threshold to achieve this goal.
The addition of intranasal oxymetazoline for two weeks to already instituted optimal doses of intranasal fluticasone propionate will decrease the total number of obstructive apneas and hypopneas per hour of sleep in subjects with perennial allergic or non-allergic rhinitis and mild obstructive sleep apnea who have persistent nasal congestion despite maximum doses of NGCS.
The primary aim is to determine whether patients with suspected OSAHS as predicted by the STOP-BANG questionnaire will have an increased length of stay (LOS) in the postanesthesia acute care unit (PACU) compared with those without suspected OSAHS. The second aim will be to determine the LOS in patients with known sleep apnea by history. This length of stay will be compared with LOS in patient with an affirmative response to the STOP-BANG questionnaire to determine if prior knowledge of diagnosed sleep apnea will be associated with a lower LOS than in patients with suspected OSA. The third aim will be to characterize the adverse clinical outcomes (respiratory, cardiovascular, and neurological) associated with suspected OSAHS in patients who respond affirmatively to the STOP-BANG questionnaire and in those patients with known OSA. These data (including number of desaturations, bradypnea, brady- or tachycardia, and use of reversal agents) will be recorded by the PACU nursing staff. Unexpected admissions to the hospital and transfers to the intensive care units will also be measured. These data will help identify the most critical determinants of length of stay.
In Obstructive sleep apnea (OSA), the upper airway closes over and over again during sleep. This leads to disrupted sleep (waking up during the night), daytime sleepiness, and an increased risk for developing high blood pressure. Currently, the best treatment for obstructive sleep apnea is sleeping with a mask that continuously blows air into the nose (i.e. Continuous positive airway pressure \[CPAP\] treatment). While CPAP treatment stops the upper airway from closing in most people, many people have difficulty sleeping with the mask in place and therefore do not use the CPAP treatment. This research study is being conducted to learn whether using a sedative will improve OSA severity by altering some of the traits that are responsible for the disorder.
The purpose of this study is to determine if two medicines (allopurinol and losartan) can influence heart and blood vessel health compared to placebo in patients with sleep apnea who are using continuous positive airway pressure (CPAP).
The study is being conducted to test the ability of a simple questionnaire to detect mild, moderate or severe obstructive sleep apnea. The investigators are also investigating whether adding the size of the neck and waist can add to the accuracy of the questionnaire. The study will be conducted at the Center for Sleep Medicine at Tufts Medical Center. The investigators hope to enroll 250 patients in our study at Tufts Medical Center.
The purpose of this study is to evaluate the long-term durability of the treatment and safety of the Provent device for those individuals who were enrolled in the C009 study, were diagnosed with obstructive sleep apnea-hypopnea (OSAH), and were actively using the Provent device.
Primary Endpoints: •Comparison of difference in AHI at one-week in-lab polysomnography between "device on" and "device off" nights, controlling for sleep position (supine vs. non-supine) Secondary Endpoints: By polysomnography, reduction in: * AHI with device on vs. off at 3 months, controlling for sleep position * Oxygen desaturation index with device on vs. off * Arousal index with device on vs. off * Duration of snoring with device on vs. off * Epworth Sleepiness Scale Patient acceptance, in terms of: * Refusal rate at screening * Discontinuation rate during follow-up * Daily compliance rate * Device-related adverse events * Serious adverse events
Nasal Continuous Positive Airway Pressure (CPAP) is the standard therapy for obstructive sleep apnea hypopnea syndrome (OSAHS). This is most commonly administered as a single positive pressure that has been individualized for the patient to prevent obstructive respiratory events. However, the therapeutic pressure may vary by sleep stage and body position within a single night and may change over the course of several nights. One approach to dealing with this variability is the use of automatically adjusting CPAP that responds to patient breathing patterns with alterations in the delivered pressure. This study is designed to determine the effectiveness of using the energy spectrum analysis of flow signals to automatically adjust CPAP pressure and improve sleep variables. Thirty subjects who require CPAP will be recruited from the NYU sleep disorders center. Following diagnostic studies (either split night or full night) the subject will undergo a night of treatment with the Fisher and Paykel Healthcare AutoPAP. Efficacy of treatment will be evaluated based on normalization of sleep disordered breathing while treated with the AutoPAP.
The primary objectives of this study are to evaluate the safety and efficacy of VI-0521 compared to placebo in the treatment of obese adults with obstructive sleep apnea (OSA) and to assess the relative contributions of weight loss on parameters of OSA in these subjects.
The purpose of this study is to determine if an Autoadjusting CPAP machine is better than the regular CPAP machine in treatment of Obstructive Sleep Apnea in the postoperative setting.
The primary objective of the study is to evaluate whether armodafinil at a target dosage of 200 mg/day is more effective than placebo treatment in improving excessive sleepiness in patients with obstructive sleep apnea/hypopnea syndrome (OSAHS) who have comorbid major depressive disorder or dysthymic disorder.
The purpose of this study is to assess patient reported outcomes with armodafinil treatment in terms of improvement in sleepiness, satisfaction with treatment, impact on ability to engage in life activities (ie, daily or work and family and/or social activities), and effects on fatigue. Clinician ratings on patient response to armodafinil treatment will also be assessed.
The primary objective of the study is to evaluate the safety and tolerability of treatment with PROVIGIL in children and adolescents with excessive sleepiness (ES) associated with narcolepsy or OSAHS (obstructive sleep apnea/hypopnea), when administered for up to 12 months. Safety and tolerability will be evaluated throughout the study by means of adverse event information, clinical laboratory test results, vital signs measurements, and body weight and height measurements; quarterly physical examination findings; and 12 lead electrocardiograph (ECG) evaluations at the end of the study. In addition, the cognitive and behavioral effects of PROVIGIL will be assessed quarterly as measured by the Child Behavior Checklist for Ages 6-18 (CBCL/6-18), a brief psychiatric interview, and the Kaufman Brief Intelligence Test (KBIT 2).
The primary objectives of the study are to determine the effectiveness of PROVIGIL treatment, compared to placebo treatment, in children and adolescents with excessive sleepiness (ES) associated with obstructive sleep apnea/hypopnea syndrome (OSAHS), as assessed by: * mean sleep latency from the Multiple Sleep Latency Test (MSLT) (average of 4 naps performed at 0900, 1100, 1300, and 1500) at the last post baseline observation (week 6 or early termination) * the Clinical Global Impression of Change (CGI-C) ratings for ES, at the last post baseline observation (week 6 or early termination).
The primary objective of this study is to evaluate the safety and tolerability of Armodafinil (CEP-10953) administered on a flexible-dosage regimen of 100 to 250 mg/day for up to 12 months to patients with excessive sleepiness associated with a current diagnosis of narcolepsy, obstructive sleep apnea/hypopnea syndrome (OSAHS)(regular users of nasal continuous positive airway pressure \[nCPAP\] therapy), or chronic shift work sleep disorder (SWSD).
The goal of randomized clinical trial is to determine if the Alesis OSA-1 low laser light therapy device can reduce apnea-hypopnea index scores and treat sleep apnea in adult participants over the age of 18 who are diagnosed with obstructive sleep apnea (OSA). The main questions it aims to answer are\]: • Does the use of the Alesis OSA-1 device reduce the number of AHI events after six treatments of 12 minutes each, 2x per week x 3 weeks, in adult OSA patients? Researchers will compare results of 35 control group participants who will not receive treatment to a treatment group who will receive six, 12 minute, non-invasive low laser light therapy (LLLT) treatments, two per week for 3 weeks, to see if there is a reduction in the number of AHI events and size of redundant and soft tissues in adult OSA patients. Participants will: * Visit the clinic for assessment and instructions on using the at home sleep study system, WatchPat, and obtain baseline information * Use the WatchPat system to record AHI events pre- and post-treatment. * 10 randomly selected participants will receive a pre-study pulmonary functions test (PFT) and repeated post-treatment. * 5 randomly selected participant will receive a pre-study MRI of the head/neck and repeated post treatment. * For the treatments, the participant lie on a treatment table under a LLLT device for 12 minutes, two times per week, x 3 weeks. * Be offered the treatment series at the conclusion of the study if they were selected for the control group.
The investigators will establish how well a novel, quick, and painless way of measuring muscle activity from the mouth and throat works for detecting sleep apnea. This technology is called transmembraneous electromyography (tmEMG). Leveraging two technologies, a new probe capable of recording muscle activity by lightly touching the muscle, as well as a machine learning model for signal interpretation, the investigators will conduct an initial observational feasibility study in phase 1, followed by a larger observational cohort study in phase 2 to assess the performance of deep learning enhanced tmEMG. The study will address a critical unmet need in sleep apnea diagnostics: the availability of an inexpensive, accurate diagnostic test for screening at point of care.
This study will examine whether a combination of breathing training during wake and targeted reactivation of the training during sleep can induce breathing changes during sleep and subsequent cognitive benefits during wake. Participants with obstructive sleep apnea (who have not yet been treated for sleep apnea) will be recruited. Participants will engage in breath training for one week in their own homes and to record their sleep at home using commercially available mobile devices and subsequently have their sleep monitored for one night of polysomnography recordings plus targeted reactivation in a laboratory setting.
The goal of this observational study is to confirm the accuracy of the sleep algorithm (software) used in the Rhythm Express Wearable System to detect sleep apnea severity. The study involves participants wearing the RX-1 mini cardiac monitor on their chest and a pulse oximeter during a traditional sleep test, known as polysomnography (PSG), conducted in a sleep center. The performance of the device will be evaluated by comparing the results from the Rhythm Express Wearable System with those from the traditional Polysomnography(PSG). Participants will: 1. Complete a Screening Visit to confirm they are eligible to participate in the study. 2. Be trained on the use of the Rhythm Express Wearable System. 3. Wear the RX-1 mini cardiac monitor on their chest for 3-5 days/nights. 4. Wear a pulse oximeter for 2 nights before a scheduled sleep study. 5. Complete a sleep study while wearing the Rhythm Express Wearable System. 6. Complete a telephone follow-up visit 5-10 days after the sleep study.
This is a study to test if performing airway exercises to improve snoring and sleep apnea using a mobile phone app is better than using a hardcopy guide.
The primary purpose of the study is to assess the effect of lorundrostat taken orally (po) once a day on the Apnea-Hypopnea Index (AHI) in participants with moderate to severe obstructive sleep apnea (OSA) and hypertension.
The primary purpose of this study is to evaluate the effectiveness of sivopixant, acetazolamide and SASS-001 in adults with sleep apnea with a central component.
Obstructive sleep apnea (OSA) is a sleep disorder that is commonly treated using positive airway pressure, yet 50% of patients still experience residual sleepiness after successful therapy. A potential neuromodulation strategy that can decrease residual sleepiness is transcranial photobiomodulation (tPBM). tPBM is a neuromodulatory treatment that uses red and/or near infrared light to penetrate the cortex and can alter both cerebral metabolism and blood flow. However, this potential has never been explored before directly in sleep disordered individuals. This project aims to explore the effect of tPBM on sleepiness and understand the potential neural mechanism of tPBM in OSA. The short-term goal of this project is to collect pilot data, which is the first of its kind, and suggest tPBM as a potential modulator of sleepiness in OSA.