71 Clinical Trials for Various Conditions
The purpose of this study is to compare the efficacy and safety of albuterol/budesonide to albuterol in changes in airway inflammation, asthma symptoms, and rescue therapy utilization in adults with mild asthma. Study details include: * The study duration will be up to 15 weeks. * The treatment duration will be 12 weeks. * The visit frequency will be once every 4 weeks, with 3 clinic visits and 2 video calls in total.
This study is an exploratory, two-part, 12-week, Phase 2a study to evaluate the mechanism of action of Itepekimab (anti-IL-33-mAb) and its impact on airway inflammation in former and current smokers with COPD, aged 40 to 70 years. This study consists of participants who have been on a standard-of-care (SoC) mono (long-acting β2-agonist \[LABA\]) or long-acting muscarinic antagonist \[LAMA\]), double (inhaled corticosteroid \[ICS\] + LABA, LABA + LAMA or ICS + LAMA), or triple (ICS + LABA + LAMA) controller therapy for COPD for at least 3 months prior to Screening (Visit 1) with stable dose and regimen for controller therapy for ≥1 month prior to Screening (Visit 1) and during the screening period. Participants will stay on their established controller medications for COPD throughout the duration of the study, with the exception of systemic corticosteroids and/or antibiotics used for acute exacerbation of COPD (AECOPD). Part A will consist of participants who are former smokers with COPD; Part B will consist of participants who are current smokers with COPD. The total study duration for each part (Part A and Part B) is approximately 36 weeks: * 4-week screening period * 12-week treatment period * 20-week followup period
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.
A phase 2, multicentre, randomized, double-blind, placebo-controlled, parallel group study to evaluate the effect of tezepelumab on airway inflammation in adults with inadequately controlled asthma.
The purpose of this pilot study is to evaluate allergen-induced nasal airway inflammation following nasal application of felis domesticus, or cat, extract in e-cigarette users, cigarette smokers, and non-smokers.
The purpose of this pilot study is to evaluate allergen-induced nasal airway inflammation following nasal application of Dermatophagoides farinae (Der f), or house dust mite, extract in e-cigarette users, cigarette smokers, and non-smokers.
The goals of this study are to 1) examine the relationships among inflammation, obesity, and asthma in people with HIV and 2) to test if special subtypes of cells or markers are present in the blood and lungs of people with HIV with asthma compared to those without asthma.
This is an exploratory study with the following primary objectives: 1) to establish that PET/CT of the lung can reliably distinguish healthy, non-asthmatic participants from participants with severe asthma and an eosinophilic phenotype and 2) to examine the utility of PET/CT for demonstrating that reslizumab produces a reduction in lung inflammation in participants with severe asthma and an eosinophilic phenotype .
Using an active cohort of children in whom Airway and gastrointestinal endoscopy will be performed, investigators will conduct a chart review to obtain relevant clinical data and the investigators will use an aliquot of airway sample obtained during the clinically indicated bronchoscopy for microbiome analysis. A case-control study design will be used to study whether subjects with CC with GER have a distinct lung microbiome and increased inflammation as compared with subjects with CC without GER and to determine whether the microbiome and degree of inflammation is related to the type of GER (acidic versus nonacidic).
Primary Objective: To evaluate the effect of dupilumab, compared to placebo, on airway inflammation in participants with persistent asthma. Secondary Objective: To assess the safety, tolerability, and immunogenicity of dupilumab compared to placebo.
The objectives of the proposed study are to determine 1) the effect of a single dose of Roflumilast on airway blood flow (Qaw) (study period 1) and 2) the effect of long-term Roflumilast treatment on airway blood flow reactivity delta Qaw)(study period 2) in patients with stable COPD who use ICS regularly.
In cystic fibrosis, there is a critical need for better predictors of treatment response. The investigators have identified a panel of white blood cell biomarkers which can be directly measured as a blood test in subjects with cystic fibrosis. These biomarkers predict reduction of airway inflammation and infection more accurately than lung function testing, in patients receiving intravenous antibiotic therapy. In the current study, we hypothesize that this panel of gene biomarkers which can be readily measured from peripheral blood will sensitively predict changes in inflammation when patients receive inhaled antibiotic therapy, specifically Cayston (or inhaled aztreonam lysine). Patients enrolled in the study will have blood drawn before and after a month of inhaled Cayston, in order to test whether genes predict response to Cayston therapy more robustly than do standard measures such as lung function tests.
The primary aim of this study will be to evaluate the effects of Lyprinol® supplementation on airway inflammation and the bronchoconstrictor response to dry air hyperpnea in individuals with asthma. The investigators hypothesize that Lyprinol® supplementation, compared to placebo, will significantly attenuate airway inflammation and hyperpnea-induced bronchoconstriction in asthmatic individuals.
This study is a longitudinal single-center pilot study designed to describe changes in lung function and levels of noninvasive biomarkers of airway inflammation in children ages 6-18 years over two months following hospitalization for an acute exacerbation of asthma. Forty children ages 6-18 years with asthma who are admitted to Children's Hospital and Regional Medical Center (GCRC) for an asthma exacerbation will be enrolled and complete an initial study visit prior to hospital discharge. Children with asthma will be recruited from the inpatient medical unit. During their initial visit subjects will undergo a clinical assessment and perform spirometry to measure lung function. In addition, exhaled nitric oxide (eNO) concentration will be measured and a sample of exhaled breath condensate (eBC) will be collected during 20 minutes of tidal breathing. Breath condensate will be analyzed to determine the concentration of cysteinyl leukotrienes (CysLT), an important mediator of airway inflammation in asthma. Subjects with asthma will return to the GCRC pediatric satellite at Seattle Children's Hospital for follow-up study visits at 1 week, 2 weeks, and 4 weeks following hospital discharge. During follow-up visits subjects will complete a questionnaire regarding symptoms and medication use since the most recent study visit, will perform spirometry, and have eNO concentration measured and breath condensate collected for CysLT analysis. The aims of this observational study are to: 1. Assess the association of levels of exhaled nitric oxide and cysteinyl leukotrienes in breath condensate with measures of airflow obstruction (FEV1) and asthma symptoms during, and at one, two, and four weeks following hospital discharge for asthma exacerbation. 2. Compare levels of exhaled nitric oxide and cysteinyl leukotrienes in breath condensate from children ages 6-18 years hospitalized for status asthmaticus to levels from age-matched healthy control subjects without asthma.
Docosahexaenoic acid (DHA) is a component of fish oil that is known to support a healthy cardiovascular system, maintain brain function, reduce depression, and improve inflammatory diseases. The study hypothesis is that DHA supplementation will diminish exercise-induced bronchoconstriction and airway inflammation as compared to placebo.
Combining fish oil and vitamin C supplementation will provide a greater anti-inflammatory effect against developing exercise-induced bronchoconstriction (EIB) than either nutritional supplement alone.
The principal purpose of this study is to identify hyper-responsive, responsive and non-responsive groups of healthy human subjects based on their airway neutrophilic response to ozone exposure, and to perform micro-array analyses on DNA collected from recovered airway cells to explore possible differences in gene expression profiles between the three groups
The purpose of this study is to compare the effect of ozone exposure on airway reactivity and inflammation in obese vs. non-obese adults.
The study compares the biochemical markers in bronchoalveolar lavage samples from asthmatic children to those markers found in non-asthmatic children with other respiratory diseases. The investigators hypothesize that certain markers will be associated specifically with asthma.
A drug (mepolizumab) that reduces allergic inflammation will affect the function of allergy cells called eosinophils which are produced by the body in response to allergen exposure.
This study is designed to determine if treatment with abatacept is effective in decreasing allergic airway inflammation in mild, atopic asthmatics. Subjects will be recruited from the greater St Louis Metropolitan area. Eligible individuals will undergo a titrated skin prick test. Following baseline evaluation, fiberoptic bronchoscopy with segmental allergen challenge (SAC) will be performed. The subjects will be randomized to either placebo or abatacept. After 12 weeks of study drug, the subjects will undergo repeat SAC. The primary endpoint will be to determine if treatment with abatacept results in a 50% or greater decrease in the percentage of eosinophils recovered in the bronchoalveolar lavage (BAL) fluid following SAC as compared to placebo control. Secondary endpoints include measures of airway obstruction and hyperreactivity, airway inflammation and symptoms as well as determination of the safety of abatacept administration in this subject population.
In this randomized, double-blind, placebo controlled trial we used positron emission tomography to determine if lovastatin or recombinant human activated protein C exhibit anti-inflammatory effects in humans following intrabronchial installation of lipopolysaccharide (LPS or endotoxin).
A post-marketing study to look at the effects of Asmanex on markers of airway inflammation.
Combining fish oil supplementation and Montelukast \[a commonly used cyst LT1 receptor antagonist to treat exercise-induced bronchoconstriction (EIB)\] will provide a greater antiinflammatory effect against developing EIB that either agent alone
In the United States there has been a dramatic increase in the number of people who are obese and in the number of people who have asthma. Both are considered serious public health concerns. Several studies have shown that becoming obese or overweight can increase the risk of developing asthma or can make asthma symptoms more severe and difficult to control. How obesity affects asthma is not fully understood. This research study will examine whether obesity affects the amount of inflammation that is present in the lungs of people with asthma, and will also examine whether obesity leads to narrow and stiff airways. Participation in this study involves 2 visits in order to complete questionnaires, various pulmonary function tests, as well as the collection of blood, urine, and exhaled breath condensate specimens. This research study includes optional genetic and bronchoscopy substudies.
Current research shows that obesity greatly increases the risk of developing asthma. Although the two conditions are clearly related, experts do not fully understand why they are linked. Some researchers believe that hormones released in the fat cells (adipokines) play a role. Others believe that excess weight pressing on the lungs triggers the hyperreactive response in the airways that is typical of asthma. The goal of the Asthma-Bariatric Surgery Study is to determine how weight loss affects lung function and various biological parameters. Bariatric (weight loss) surgery refers to the various surgical procedures performed to treat obesity. Specifically, this study is designed to answer the following questions: * Does bariatric surgery help patients control their asthma? * How much asthma control can be achieved through weight loss? * How does weight loss influence lung function? Participants in this observational research study will be asked to complete study visits at enrollment, 1 month, 6 months, and 12 months. Questionnaires, pulmonary function tests, and blood samples will be required at each time point. This research study is observational only; it does not cover the cost of (or provide) bariatric surgery. Optional genetic and bronchoscopy substudies are included as well.
Asthma is a heterogeneous disorder in which multiple potential inflammatory pathways contribute to airway obstruction. The biological basis for airway inflammation is the subject of intensive investigation. This work is designed to identify airway factors that are responsible for recruiting cells and associate their airway presence with atopy and asthma.
Asthma is a chronic inflammatory lung disease characterized by airway hyper-responsiveness and reversible airway obstruction. Over the last decade, the prevalence of asthma is on the rise and it disproportionately affects more women than men. As much as 40% of women with asthma are known to have worsening of asthma symptoms and lung function prior to menstruation. This syndrome is being increasingly recognized as premenstrual asthma (PMA). The pathologic differences in female asthmatics with and without this syndrome are not known. The evidence regarding the role of sex hormones has been contradicting. We propose an observational cohort study to examine the changes in airway inflammation in women with asthma in relation to their menstrual cycle and their association with sex hormone levels. In addition we will include women on oral contraceptives to determine their effect on airway inflammation and asthma symptoms. We hypothesis that: * Women with premenstrual asthma will show increased indices of airway inflammation in various phases the monthly menstrual cycle. * In women with premenstrual asthma, a change in serum estradiol/progesterone ratio during the late luteal phase is associated with worsening of airway inflammation, air flow limitation and asthma symptoms. * The use of oral contraceptives is associated with suppression of the cyclical changes in airway inflammation due to lack of fluctuations in estradiol and progesterone levels. Recruited subjects will be asked to record asthma symptom scores, morning Peak Expiratory Flow Rate (m-PEFR) and rescue asthma medication (β2-agonist) used daily during the one month screening period to identify women with and without pre-menstrual asthma. Asthmatic women with regular menstrual cycles will be evaluated in their follicular phase (days 5-8) and luteal phase (days 21-24) and women on oral contraceptive pills (OCP) will be evaluated on days 9-12 of their OCP cycle and during the days 25-28, off of OCP consecutively for a 2-month period.
Chronic obstructive pulmonary disease (COPD) is a chronic lung disease. Azithromycin, an antibiotic, may be beneficial at reducing the symptoms and severity of the disease. This study will analyze previously collected study data to evaluate the anti-inflammatory properties of azithromycin and determine how azithromycin affects the frequency and severity of COPD exacerbations.
Ozone can cause acute airway inflammation in both asthmatics and normal volunteers. However, in asthmatics ozone can cause episodes of worsening of asthma. We want to learn if chronic allergic response, known as "IgE-induced airway inflammation" is what causes the increased inflammation in response to ozone. To do this we will examine the response to ozone in a group of asthmatics treated with omalizumab, a medicine available and approved for use in people with asthma, or a placebo control. The placebo for this study is inert physiologic saline ("salt water") which contains no omalizumab. Both the omalizumab and the placebo will be administered as an injection under the skin. Omalizumab, also called Xolair, is a humanized monoclonal antibody, which means that it originally was produced in mice, then genetically engineered to look more like human than mouse antibody. Omalizumab inactivates IgE, a protein our own immune systems make as part of allergic reactions. The purpose of this study is to test the hypothesis that omalizumab, by blocking this aspect of allergic reactions, will decrease the number of inflammatory cells in the airway after ozone challenge. We also hypothesize that omalizumab will decrease the effects of ozone on changes in lung function, mucociliary clearance (a measure of how quickly mucus clears form the airway) and airway reactivity. Airway reactivity is a measure of how sensitive the airways are to a medication used to diagnose asthma, called methacholine. We will examine these as additional information we can learn during the course of the study. This is a blinded study, meaning that neither you nor the researchers know if you get the active drug or placebo, but that information can be obtained if needed. The placebo is an injection of inert physiological saline ("salt water") which contains no omalizumab.