1,036 Clinical Trials for Various Conditions
The purpose of this pilot study was to: 1. partner with African American churches to increase awareness of COPD. 2. use a community-based approach to facilitate early detection of COPD in the church setting. The pre-screening with a paper-based tool and spirometry testing were provided at community health fairs at the churches. 3. determine the impact of a combined intervention (education and mobile phone/text messages) on health related-related quality of life and health behaviors of African Americans with asthma and COPD. The study used a randomized controlled trial (RCT) design to assess the effect of the intervention (education and mobile text-messaging) on health-related quality of life and health behaviors recommended for improved COPD self-management. All participants received the educational component then were randomized to a control group and intervention group, in which participants received mobile phone-based text messages on improving health behaviors associated with better self-management of asthma and COPD.
The purpose of this research is to test a device being developed that can see how patients use oxygen therapy over a long period of time. This study will focus on developing a new display part called ROAM module which will be attached to your oxygen source. The display will provide easily-accessible information that can show how you interact with your supplies and the oxygen machine automatically without connecting the oxygen source to the internet or other devices.
The primary objective of the study is to investigate the safety and tolerability of ascending doses of GSK3862995B following single dose in healthy participants and repeat doses in participants with Chronic obstructive pulmonary disease (COPD).
The goal of this study is to investigate the effectiveness of stand-alone air filtration for improving indoor air quality (IAQ) and chronic obstructive pulmonary disease (COPD) outcomes in a high-risk urban cohort of 80 U.S. military veterans with COPD. Secondary goals of the study are to (1) investigate housing-related factors that may contribute to COPD exacerbation, (2) investigate the utility of using low-cost sensors for indoor air pollution epidemiology studies and for providing actionable or useful information on the quality of their indoor air to patients and their physicians, and (3) evaluate the costs and benefits of using stand-alone air filtration to improve IAQ and COPD outcomes.
Background: Over 26 million Americans have chronic obstructive pulmonary disease (COPD), which is the third leading cause of death in the United States. Unfortunately, few patients receive proven therapies and many receive therapies known to have safer alternatives. One major reason is the competing demands of primary care providers (PCPs) who manage 90% of patients with COPD. The research team has developed a population management approach where pulmonary specialists provide evidence-based recommendations as an E-consult with unsigned orders to PCPs. PCPs can then quickly review the E-consult and sign, modify, or discontinue these orders. The investigators found this intervention led to marked improvements in the quality-of-care delivered and patients' COPD-related quality-of-life. While promising, this approach is limited by a paucity of pulmonary providers nationwide. Clinical pharmacists are 20 times more prevalent as pulmonary specialists and some regions of VA (VISN 17, COPD Cares) have assigned clinical pharmacists a role in the management of patients with COPD. However, the relative effectiveness of pharmacist-led management is yet to be established. Study Description: This study tests population management for COPD provided by pharmacists relative to pulmonary specialists. The investigators are conducting a cluster randomized clinical trial at five medical centers and their associated clinics within the Department of Veterans Affair. Study staff will randomize PCPs to population management conducted by either pulmonary specialists or pharmacists. Within PCPs' panels, study staff will use VA electronic health record to identify patients with evidence of COPD. Pulmonologists and pharmacists will review these patients and provide guideline-based recommendations to PCPs. Pulmonary specialists and pharmacists will then deliver evidence-based recommendations through E-consults coupled with unsigned orders for primary care providers to sign, modify or decline. Outcomes: Investigators will assess if proactive, population management recommendations by clinical pharmacists and pulmonary specialists lead to non-inferior outcomes for patients with COPD. The primary outcome will be a composite endpoint of COPD exacerbation, pneumonia, hospitalization, or death six month after intervention. Secondary outcomes will include 1) the proportion of guideline recommended therapies received by patients, 2) COPD-related quality-of-life as measured by the Clinical COPD Questionnaire, and 3) PCP acceptance of recommendations, 4) each individual outcome within the primary composite endpoint above, and 5) patient- and caregiver-incurred costs.
This study will determine the dyspnea response in chronic lung disease volunteers during treadmill walking with and without added inspiratory resistance. This study will also determine the level of dyspnea and exercise sense of effort in individuals walking on a treadmill when elevations occur. Comparisons will be made of a participant's exercise response with and without increased inspiratory resistance. In this study, exercise performance will be analyzed based on physiological and perceptual measures. The participant will undergo two sessions: one session will be a standard exercise walking test without an inspiratory resistance; the other session will be the same standard exercise walking test while breathing with an inspiratory resistance equal to a N95 facemask (R=10-15 cmH2O/L/sec). Performance will be determined by physiological measures. Perception will be determined by scores based on numerical scales and automatically with the forehead Vitality remote monitoring sensor.
The purpose of this study is to evaluate how variations in oxygen demands may change heart electrical activity in individuals with and without oxygen dependence.
This study is for people with chronic obstructive pulmonary disease (COPD) and who smoke. Investigators are trying to find out if training on e-cigarette use will help smokers switch to e-cigarettes. If training helps, how much training is needed for people to fully switch from cigarettes to e-cigarettes?
Chronic obstructive pulmonary disease (COPD) is the fourth leading cause of death in the United States. Current treatments for COPD focus on inhaler therapies that do not address manifestations of the disease on other organ systems. Platelets, which are small blood cells that typically help with clotting, are also involved in generalized inflammation and dysfunctionality of immune cells when these cells become activated. Activated platelets have long been known to play a role in the development of cardiovascular disease. However, there is recent evidence that activated platelets may be involved in worse respiratory symptoms in COPD independent of cardiovascular disease. Individuals with COPD who are taking aspirin, which is an antiplatelet agent that blocks activation of platelets, have been shown to have improved respiratory symptoms, fewer COPD flares, and lower mortality. The investigators' ultimate goal is to study whether aspirin use improves respiratory symptoms independent of cardiovascular disease. The investigators are conducting the current pilot trial to determine the optimal dose of aspirin that blocks platelet activation in this population and investigate whether there are any blood or urine tests that can help with understanding response to therapy. The results will inform the design of a larger trial investigating clinical outcomes. The investigators hypothesize that daily low-dose aspirin will not be sufficient to adequately suppress platelet activation and that an aspirin dose of at least 162mg daily will be necessary.
This is a multi-center 3-month study to determine the variation in ProAir Digihaler metrics \[peak inspiratory flow (PIF), inhalation volume, number of inhalation events\] amongst COPD patients in the ambulatory setting.
This study has 3 objectives: (1) demonstrate the effectiveness of balance training for people with COPD, (2) determine which patients with COPD respond best to balance training, and (3) calculate clinically meaningful changes in balance for patients with COPD.
This study looks at data from people with chronic obstructive pulmonary disease (COPD). Some used Stiolto Respimat and the others Trelegy Ellipta as their first treatment for COPD. The purpose of this study is to find out how well the treatments worked. Researchers compare the time to first COPD flare-up (exacerbation) between the 2 treatments. The study analyses anonymous data from pharmacy claims collected over 3.5 years.
The purpose of this study is to estimate disease-related and all-cause burden and clinical outcomes of interest following initiation of chronic obstructive lung disease (COPD) maintenance therapy with Tiotropium Bromide/Olodaterol (TIO/OLO) or Fluticasone Furoate/Umeclidinium/Vilanterol (FF/UMEC/VI).
The goal of the trial is to establish a method, material, and patient-specific stent design that will last longer, fit better, and cause less trauma to the airway and the patient.
This study aims to: 1. Develop the BREATHE-ALD intervention for adults with Advanced Lung Disease, multiple chronic conditions, and palliative care needs and their caregivers using interviews with 10 advanced lung disease (ALD) adults and their caregivers 2. To evaluate the feasibility and acceptability of intervention procedures; and 3. To explore intervention effects on ALD outcomes
The primary objectives of the study are to use US and UK data to describe the characteristics of Chronic Obstructive Pulmonary Disease (COPD) patients according to various demographic, lifestyle, clinical, and medication use.
This is a Phase 2 study in patients with chronic obstructive pulmonary disease (COPD) to assess the efficacy, pharmacodynamics (PD), pharmacokinetics (PK), and safety of two dose levels of CSJ117 in comparison to placebo. For this, the impact of CSJ117 on disease symptom burden and lung function will be explored.
The investigators want to decrease inappropriate oxygen use for patients with COPD. The investigators are testing a new program that will stop oxygen prescriptions for patients that no longer need it and will instead provide them with training in skills that have been shown to help patients breathe better. Participants will be randomly assigned to receive the intervention program or usual care. After 12 weeks the investigators will determine if the program helped stop unnecessary oxygen prescription. The investigators will also determine if health status, distance walked during six minutes, and symptoms of breathlessness after walking are different between participants who received the program and those who did not. The investigators will meet with participating patients and their providers after the study is complete to find out how they feel about this program and if it would be possible to put this change into practice.
The study's primary aim is to assess whether there is a clinically significant reduction in breathlessness in symptomatic individuals with chronic obstructive respiratory disease (IwCOPD) following engagement with Technology-Assisted Respiratory Adherence prototype 3. The study's secondary aim is to assess whether there is an associated maintenance or increase in activities of daily living to support a positive benefit of Technology-Assisted Respiratory Adherence prototype 3 on breathlessness and whether there is an improvement in the physical activity experience of the patient.
The study is a prospective, observational study of patients admitted to the BLOCK COPD network hospitals with acute AMI and Chronic Obstructive Pulmonary Disease (COPD) to determine the prevalence of COPD in patients admitted to the hospital with an acute myocardial infarction (AMI) and to characterize the phenotypic expression and severity of their underlying lung disease. Patients with will be identified via the EMR. 571 participants will be enrolled.
Chronic obstructive pulmonary disease (COPD) is the third leading cause of death in the United States. Patients with COPD are routinely exposed to indoor and outdoor air pollution, which appears to cause escalation of their respiratory symptoms, a process called exacerbation, with resulting need to seek medical attention. This research plan proposes to evaluate the impact of lung immune cells in susceptibility to develop exacerbation through an experimental model of inhalational exposure using ambient levels of a component of air pollution (ozone) in COPD patients and longitudinal sampling of their lung immune cells.
Chronic obstructive pulmonary disease (COPD) is one of the most common respiratory diseases, with 90% of cases directly attributable to smoking. Unfortunately, many patients continue to smoke and have an urgent need to quit. Proactive tobacco treatment programs identify patients outside of a routine clinical appointment and engage them in making a supported quit attempt. Most previous research of proactive tobacco treatment has used telephone outreach, which can be resource intensive. Electronic methods (texting, secure messaging) may be effective while requiring fewer resources. In this study, a previously tested telephone outreach intervention will be adapted for electronic delivery, with content tailored to smokers with COPD. First, information will be gathered from smokers with COPD and the medical staff who care for them to adapt the program for electronic delivery. Then, the program will be pilot-tested. Smokers with COPD will be randomly assigned to either usual medical care or the outreach intervention, with goals to increase participation in smoking cessation programs, quit attempts, and successful cessation.
This is a pilot study to evaluate the impact of providing patients admitted with acute exacerbations of COPD (AECOPD) with non-invasive ventilation (NIV)home devices prior to discharge on hospital readmission rates and other secondary outcomes. Aim 1 To test whether continuation of NIV at home after being initiated during hospitalization for AECOPD improves subsequent admission-free survival in patients with chronic hypercapnic respiratory failure secondary to COPD Hypothesis 1: The use of targeted NIV during hospitalization with continuation upon discharge to home will improve one-year all-cause mortality as compared to published mortality in the current literature. Hypothesis 2: The use of targeted NIV during hospitalization with continuation upon discharge to home will reduce readmission rates for AECOPD within-institution historical data. Aim 2 To evaluate the feasibility of a larger multisite randomized controlled trial in veterans using inclusion and exclusion criteria specified in this pilot. Outcomes Primary: Event-free survival (re-hospitalization for AECOPD, time to readmission for AECOPD, and all-cause mortality) Secondary: 1. Unplanned readmission rates (all complications) 2. Time to readmissions for admissions other than AECOPD. 3. Arterial blood gas/Venous blood gas (ABG/VBG): PaO2, PaCO2 and serum bicarbonate at Baseline, 6 and 12 months 4. Pulmonary function (handheld spirometer or in-laboratory based on specific institution resources) at Baseline, 6, and 12 months 5.6 minute walk test at Baseline, 6,and 12 months 6.Health related quality of life (HRQOL) measured by the St. Georges respiratory questionnaires (SGRQ) at Baseline, 1,3,6,9 and 12 months 7.Adherence to NIV at Week 1-2, Months 1,3,6,9 and 12 8.Sleep assessed by type 3 portable monitors 9.Sleep assessed by questionnaires: Insomnia severity index (ISI), Epworth Sleepiness Scale (ESS), Pittsburgh Sleep Quality Index (PSQI), Functional Outcomes of Sleep Short Form (FOSQ-10) at Baseline, 1,3,6,9 and 12 months 11.Utilization of healthcare services (number of visits to outpatient clinics and emergency services, number of inpatient admissions)
This is a single-site feasibility pilot study to determine if patients with COPD with an increased risk of exacerbation will use an in-home COPD telemonitoring system for three months that collects lung measures, pulse oximetry, and medication compliance.
To demonstrate the efficacy of inhaled tiotropium + olodaterol via Respimat® on lung function in patients with moderate to severe Chronic Obstructive Pulmonary Disease (COPD) with optimal and sub-optimal Peak Inspiratory Flow Rate (PIFR). Disease severity (moderate to severe) is based on the Global Initiative for Chronic Lung Disease (GOLD) guidelines (GOLD 2 - 3)
To assess the comparative effectiveness of combination Tiotropium and Olodaterol (Tio+Olo) (FDC) compared to combination LAMA/LABA and ICS (fixed or open), and to explore whether this varies across COPD sub populations defined by exacerbation risk
This study is meant to compare the amount of oxygen required for hypoxemia relief between current standard of care (oxygen only) and oxygen with the addition of high flow air for Chronic Obstructive Pulmonary Disease (COPD), Interstitial Lung Disease (ILD), and Pulmonary Hypertension (PH) patients during rest. Subjects will be titrated from 0 L/min until they maintain 95% SpO2 for each of the following delivery methods: 1. Pulses of pure oxygen (control) 2. Constant high flow air with pulses of pure oxygen 3. Out of phase pulses of high flow air and pure oxygen
The goal of this work is to develop, refine, and pilot test an electronic visit (e-visit) to: 1) deliver smoking cessation treatment to adults at risk for COPD and 2) to improve rates of COPD early detection and accurate diagnosis. The investigators will conduct a pilot RCT of the COPD/smoking cessation e-visit as compared to treatment as usual (TAU), with primary objective to provide effect size estimates for a larger RCT.
This is a multi-center, randomized, placebo-controlled, double-blind, parallel group study designed to confirm the benefits of mepolizumab treatment on moderate or severe exacerbations in chronic obstructive pulmonary disease (COPD) participants given as an add on to their optimized maintenance COPD therapy. The maximum duration of participant participation is approximately 109 weeks, consisting of 2 screening visits (up to 3 weeks), a run-in period (up to 2 weeks), and an intervention period of at least 52 weeks and up to 104 weeks. 800 participants will be randomized in a 1:1 ratio to receive mepolizumab 100 milligrams (mg) or placebo every 4 weeks for at least 13 doses (52 weeks treatment period) up to a maximum of 26 doses (104 weeks treatment period). The number of randomized participants may increase up to approximately 1400.
TARA is a Digital Behaviour Change Intervention (DBCI) for individuals with Chronic Obstructive Pulmonary Disease (COPD)(IwCOPD), which has been designed using a Human-Centred Design (HCD) methodology. HCD involves, among other elements, members of the target audience in evaluations at multiple stages within the design process. This feasibility study is primarily designed to assess the acceptability of the DBCI test asset to the target audience. Acceptability as defined for the purpose of this study includes usability of the system, and perceived value and desirability to the end-user audience. As such, engagement in this context is deemed to mean the degree to which the test asset provides a usable, acceptable, desirable and valuable experience to its users during a time-limited trial.