72 Clinical Trials for Various Conditions
The purpose of the study is to assess the propellants,1 - Difluoroethane \[HFA-152a\] (Test) and 1,1,1,2-Tetrafluoroethane \[HFA-134a\] (Reference) for their potential to cause the airways to tighten when delivered through pressurized metered dose inhalers (pMDI). The rationale for this study is to develop a low carbon footprint alternative propellant, HFA-152a, which will have a lower impact on global warming.
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.
The purpose of this study is to demonstrate the pharmacodynamic bioequivalence of the test product to the reference product, using bronchoprovocation (methacholine challenge testing) in adult patients with stable mild asthma.
The purpose of the study is to assess the pulmonary safety of Staccato alprazolam in healthy study participants and in and study participants with mild asthma
The primary objective of this study is to evaluate budesonide levels in the blood following inhalation of single doses of VR647 Inhalation Suspension in children with wheezing, reactive airway disease or mild asthma using a nebulizer, the VR647 Inhalation System. Secondary objectives include the evaluation of the safety and tolerability of VR647 Inhalation Suspension administered using the VR647 Inhalation System. The study consists of four visits; a screening visit (Visit 1), two dosing days (Visits 2 and 3) and a follow-up visit (Visit 4). On each dosing day a single dose of treatment will be administered. Treatment allocation at Visits 2 and 3 is determined by a balanced incomplete block design.
A Phase 1 investigation will be performed to test the safety of two doses of bone marrow-derived MSCs (20,000,000 and 100,000,000) administered via peripheral intravenous infusion.
The purpose of this study is to demonstrate the pharmacodynamic bioequivalence of the test product to the reference product, using bronchoprovocation (methacholine challenge testing) in adult patients with stable mild asthma.
The purpose of this study is to demonstrate the pharmacodynamic bioequivalence of the test product to the reference product, using bronchoprovocation (methacholine challenge testing) in adult patients with stable mild asthma.
The purpose of this study is to test the hypothesis that 18-22 week treatment with the inverse agonist nadolol will improve airway hyperresponsiveness in patients with mild asthma, compared to placebo.
This study will provide the clinicians guidance on the safest combination of inhaled and nasal corticosteroids for children with mild asthma and allergic rhinitis respectively; however, one safety concern is that these products are independently known to have dose-related effects on short term and intermediate term growth. Knemometry is a non invasive technique for measuring short-term lower leg growth in children and is currently the method of choice in growth studies of short duration. Subjects will be seen on a weekly basis for 18 weeks and at each visit, lower leg length will be measured using knemometry.
The purpose of this study is to determine whether a single IV dose of N6022 will have a significant bronchoprotective effect, compared with placebo, during methacholine challenge.
The purpose of the study is to determine if inhaled iloprost given four times daily can improve symptoms and lung function in adults with mild asthma.
The purposes of this pilot safety study are to identify a dose of inhaled Clinical Center Reference Endotoxin (CCRE) that is well tolerated by allergic subjects that induces measurable increases in neutrophil content of induced sputum that can be employed to screen large populations for susceptibility to the inflammatory effect of inhaled endotoxin.
The purpose of this study is to confirm previous observations in asthmatics that chronic nadolol treatment reduces asthmatic airway hyper-responsiveness.
Endotoxin is a component of outdoor air pollution, an air contaminant found in a number of different workplaces, and is even found in homes. The endotoxin used for this study is obtained from the National Institutes of Health, and is called "Clinical Center Reference Endotoxin", or CCRE. The purpose of this Phase 1 research study is to identify a dose of inhaled endotoxin that is safe (does not cause prolonged cough, shortness of breath or other problems), but causes changes in your sputum cell samples that the scientists can measure. Phase 1 research studies like this one are not intended to be a treatment, but are a scientific investigation. Eventually, with these types of studies we will be able to examine why some people are more sensitive to endotoxin. Scientists at other universities have found that while most people do not have a considerable lung response to endotoxin at doses as high as 60,000 EU (endotoxin units), a few respond to as little as a total dose of 4500 EU. Our study is designed to identify if using a dose of 20,000 EU causes changes in the lung cells but does not cause symptoms in our study subjects. In our previous studies in our lab, using an endotoxin from another source, we have used higher doses (15,000 EUs) in subjects with asthma with no major problems, and we have used 10,000 EUs of CCRE in subjects with allergies and asthma without problems. We have used 20,000 EUs of CCRE in healthy individuals with no major problems.
The primary objective of this study is to investigate the safety of administration of this drug by increasing doses to male and female adult subjects with mild asthma.
Recent reports have shown that people with asthma who have a particular gene, known as the GSTM1 null gene, are more susceptible to the effect of air pollutants. The purpose of this research study is to learn if volunteers who have asthma and have a GSTM1 null gene have increased response (change in lung function and increase in lung cells collected from sputum) compared to volunteers with asthma who have the GSTM1 sufficient gene when challenged with 0.4 ppm ozone during intermittent exercise. The principal purpose of this study is to identify hyper-responsive, responsive and non-responsive groups of human subjects with mild asthma based on their airway neutrophilic response to ozone exposure, and to perform analyses on DNA from airway cells to explore possible differences in genetic profiles between the three groups. An additional pilot aim is to compare expression of a small number of specific genes of interest in a subset of ozone-responsive and ozone-non-responsive subjects with mild asthma.
The purpose of this research study is to learn more about the effect of inhaled dust mite allergen extract on airway responses in allergic individuals with mild asthma. Information learned from this study will be used to identify a safe dose range of D Farinae extract for use in inhalation challenge studies. This study will also help determine how inhalation of the allergen affects mucociliary clearance (MCC) which is a measure of how quickly mucus clears from the airway.
Twenty, house dust mite (HDM)-allergic non-smoking subjects with or without mild asthma between the ages 18-50 will be recruited. The primary endpoint will be nasal eosinophilia. Each volunteer will be screened with skin testing, pulmonary function testing and induced sputum. If eligible they will return for baseline nasal allergen challenge and lavage. Approximately two weeks later they will return for gamma tocopherol (gT) dosing visit. After completing 14 days of daily high dose (1200mg) gT, they will return for a second nasal allergen challenge. This visit will also include pulmonary function testing and blood draw. The purpose of this study is to determine if high dose gamma tocopherol therapy can reduce allergen induced nasal inflammation.
Population surveys have shown a positive correlation between increased levels of total serum immunoglobulin E (IgE) and bronchial hyperreactivity. However, it is also clear that exacerbations of asthma are frequently triggered by viral respiratory tract infections, especially those caused by human rhinovirus (RV), also known as the "common cold" virus. This protocol explores the relationship between rhinovirus and allergen/IgE provoked inflammation. Experimental challenges with human (RV) result in more persistent upper respiratory tract symptom scores in asthmatics than in controls. Asthmatics with high levels of IgE also show greater sensitivity to methacholine and higher levels of expired nitric oxide (eNO) than those with low levels of IgE. These data suggest that patients with asthma and high levels of IgE are more likely to have pre-existing inflammation of the airways before virus challenge. This study is being done to determine whether anti-IgE therapy (with omalizumab) will lead to a significant decline in inflammatory biomarkers prior to virus inoculation, and thus reduce the severity of clinical manifestations after an experimental human RV challenge.
This study evaluates the efficacy, dose-ranging and safety profiles of A006, an Albuterol dry powder inhaler (DPI), in the dose range of 110 to 220 mcg per dose in comparison to a DPI Placebo Control and an Albuterol metered dose inhaler (MDI) Active Control.
In patients with asthma, reactions to allergens in the environment (such as mold, pollen, weed, domestic pets, and dust allergens) play an important role in causing asthma symptoms. However, upper respiratory tract infections, typically those caused by the common cold virus, rhinovirus, can also cause asthma to get worse. In previous studies at the University of Virginia, it was found that mild asthmatics, who had high levels of the allergy antibody (called IgE) in their blood, developed more persistent cold and chest symptoms when they were given an infection with rhinovirus (the most frequent cause of the common cold). The cold symptoms produced by rhinovirus tend to peak during the first 4 -7 days of the cold. These symptoms, including nasal congestion, are similar to what you have experienced with previous colds. This study is being done to learn how a common cold caused by a viral infection affects people with asthma. The goal is to learn how to improve the care of asthma symptoms caused by the common cold virus (called rhinovirus). Most adults experience one or two colds caused by rhinovirus every year. In addition, 75-80% of asthma exacerbations caused by viral infections are caused by this virus, primarily in children. Adults are less likely to experience significant changes in their asthma symptoms when they get colds, because they have developed protective immune responses from previous colds which help diminish symptoms.
The purpose of this study is to determine if a single dose of AMG 282 is safe in healthy subjects and subjects with mild atopic asthma.
The main objective of this study is to evaluate the efficacy, dose-ranging and initial safety profiles of A006, an Albuterol dry powder inhaler (DPI), in the dose range of 25 to 180 mcg per dosing in comparison to a DPI Placebo Control and an Albuterol metered dose inhaler (MDI) Active Control. This study will be conducted in male and female adult patients who have mild-to-moderate persistent asthma for at least 6 months, but are otherwise generally healthy.
This is a multi-center, randomized, double-blinded, placebo-controlled, parallel, 4-week study in 60 pediatric patients (4-11 years old) with asthma, comparing E004 with Placebo HFA-MDI in pediatric patients who are 4-11 years of age with asthma.
Previously it was observed that individuals with tetraplegia have reduced baseline airway caliber and exhibit non-specific airway hyperresponsiveness (AHR). In persons with tetraplegia we have suggested that this is due to overriding cholinergic airway tone. In asthma, the mechanisms underlying bronchoconstriction and AHR are more closely tied to airway inflammation. Whether AHR in tetraplegia is also related to chronic airway inflammation is unknown. Recently, a non-invasive technique for assessing airway inflammation has been established in asthma that involves measurement of nitric oxide (NO) concentrations (FeNO) in expired air. FeNO is elevated in asthma likely due to excess NO production by inflammatory cells within the airway Measurement of FeNO in persons with tetraplegia would help in assessing the role of airway inflammation in this population. This may have therapeutic significance in such individuals. NO in the lung is felt to be the principal inhibitory neurotransmitter of the non-adrenergic, non-cholinergic (NANC) system. It is thought that inhalation of NO has no effect on airway tone in healthy individuals but reduces methacholine responsiveness while having weak direct bronchodilatory effect in asthmatics. The primary purpose of this study is to determine the levels of exhaled NO (FeNO) in individuals with chronic cervical spinal cord injury (SCI), and to compare them with those obtained in age and sex matched able-bodied individuals and subjects with stable mild to moderate asthma. If the FeNO levels are high and comparable to those found in asthmatic subjects, this will imply the role of chronic inflammation in reduced baseline airway caliber and non-specific airway hyper-responsiveness (AHR) exhibited by individuals with chronic cervical SCI. If the FeNO levels are comparable with those found in able-bodied controls, this will support our previous statement that unopposed cholinergic innervation is responsible for low baseline airway caliber and AHR in individuals with chronic tetraplegia. Further scientific conclusions about NO and its role in control of airway tone, pulmonary resistances and blood pressure will be drawn upon intravenous and inhaled administration of L-NAME. This compound has been shown promising results for the treatment and prevention of orthostatic hypotension in individuals with tetraplegia. Knowing its effects on airways and potential of easier mode of delivery (inhalation vs. intravenous) is of utmost importance.
The purpose of this study is to demonstrate whether subjects respond similarly to the Onset of Effect Questionnaire (OEQ) using a 1 week recall period versus a 1 day recall period.
The purpose of this study is to demonstrate whether subjects respond similarly to the Onset of Effect Questionnaire (OEQ) administered pre-dose versus post-dose, while receiving SYMBICORT® pMDI 80/4.5 μg x 2 actuations twice daily or budesonide HFA pMDI 80 μg x 2 actuations twice daily.
This randomized, observer-blinded, placebo-controlled, single and multiple ascending-dose study will be conducted in two parts to evaluate the safety, pharmacokinetics, and immunogenicity of BITS7201A. Part A will be an ascending, single-dose, sequential-group study where participants will be randomly assigned to active drug or placebo. Part B will be an ascending, multiple-dose, sequential-group study where participants will be randomized to active drug or placebo. Total length of the study is anticipated to be approximately 12 months.
The purpose of this study is to investigate the cytokine levels in nasal lavage and gene expression in nasal scraping following a single nasal dose of JNJ-43260295 in healthy participants, and in atopic mild to mild-persistent asthmatic (breathing disorder in which there is wheezing and difficulty in breathing) participants with and without nasal allergen challenge prior to dosing.