View clinical trials related to Asthma.
Filter by:The purpose of this study is to evaluate if stimulating the nerve involved with airway constriction, while undergoing procedures that are known to cause asthma exacerbations, decreases the level of asthma attack experienced.
Patients with chronic obstructive pulmonary disease (COPD) experience breathing difficulties because the airways deep in their lungs become narrowed. COPD patients use inhaler drugs to provide relief from breathlessness. However, current inhalers are inefficient as they deliver a 'coarse-mist' of drug-droplets that do not reach the deep airways. In our study, we will use an inhaler of 'fine-mist' drug-droplets, tagged with a radioactive tracer to track them. We will take images of the lungs to see if the fine-mist droplets reach the deep airways, and assess if this improves the breathing capacity in our patients. Our research may allow the development of new, more efficient inhalers to improve treatment for patients with COPD.
This study is a randomized, placebo controlled, four way crossover, in which the the effect of GSK2190915 on the QTc interval is assessed. Healthy subjects will recieve a 5 day course of each of the following; oral placebo, GSK2190915 100mg, GSK2190915 1000mg and moxifloxacin 400mg (single dose) with a weeks washout prior to starting the next course. Key assessments include a 12- lead electrocardiogram and pharmacokinetic testing. Safety will be assessed by blood pressure, heart rate, clinical laboratory safety tests and collection of adverse events .
To evaluate the clinical efficacy, safety, tolerability and dose-response relationship, using oral corticosteroid (OCS) modulation, of 3 different doses of VR506 using a twice daily regimen from a new dry powder inhaler (nDPI) for 16 weeks in subjects with severe persistent asthma requiring OCS therapy, i.e. Step 5 treatment as defined by modified Global Initiative for Asthma (GINA) guidelines 2011.
The mission of SARP is to improve the understanding of severe asthma through integrated study of its clinical and biological features and to evaluate their changes over time. The ultimate goal of these efforts is to promote better treatments for severe asthma.
This study assessed the effect on asthma control of different dose levels and regimens of QGE031 in asthma patients that are inadequately controlled with inhaled steroid and beta-2 agonist medication. Safety was assessed also. Comparison was to placebo and omalizumab. Information from this study was planned to support the design of future studies.
The overall goal of this proposal is to better understand the basis of airway remodeling in severe asthma and how remodeling changes over time. The investigators propose to study a well-characterized cohort of adult and pediatric subjects with severe asthma using a multidisciplinary state-of-the-art approach.
In people who develop asthma after the age of 12 and who are also overweigh, there can be an increased burden of asthma symptoms, more flare-ups, and poorly-controlled asthma when compared to normal weight asthmatics. Certain factors are more abundant in the blood of individuals who are obese. One such factor is derived from the metabolism of an amino acid found in your diet, which is known as L-arginine (Amino acids are most commonly known as the building blocks of proteins, the same as the proteins found in food). This factor is called asymmetric dimethylarginine or ADMA. The balance of L-arginine to ADMA may be important to the health of subjects with asthma. The balance between L-arginine and ADMA plays an important role in producing nitric oxide (NO) in the airways. NO is normally produced in the lung and plays a major role in maintaining airways open and functioning normally. Our research has shown that in subjects with asthma who are overweight and developed asthma later in life, the combination of low L-arginine and high ADMA, may lead to lower NO levels. We are asking participants in this study to take L-citrulline, which is converted to L-arginine by your body, as a supplement for a period of one week. We anticipate that L-citrulline will restore NO levels in the airways, by increasing the ratio of L-arginine to ADMA
Rationale: Plant stanols are well known for their effects on lowering intestinal cholesterol absorption ultimately resulting in 10-15% reduced serum LDL cholesterol concentrations in humans. In addition we have also shown that serum triacylglycerol (TG) concentrations may be lowered in subjects with elevated baseline concentrations. Till now, there is little evidence for plant stanol effects other than improving lipid profiles. However, we have very recently found strong indications in ex vivo models using isolated human peripheral mononuclear blood cells (PBMCs) from healthy volunteers that plant stanols have the capacity to improve immune function. More into detail, plant stanols shifted the differentiation of naive T-cells into the Th1 direction by activating a specific receptor present on the Antigen presenting cells (APCs) and T-cells. This effect might ultimately be helpful in situations in which the Th1/Th2 cell balance is disturbed into a Th2 over-responsiveness. By activating the Th1 response, the disturbed balance may be restored. This is for example a possibility in the treatment or prevention of asthma, food allergies or HIV in susceptible subjects. In addition, very recently (MEC 08-3-051) in a pilot study we also showed these ex vivo Th1 stimulating effects of plant stanols specifically in PBMCs isolated from asthma patients, as said, a condition characterized by a Th2 dominant immune response. Objective: The major research objective is to prove that the consumption of plant stanol ester enriched yogurts can improve immune function in vivo in asthma patients. Study design: A double-blind randomized placebo-controlled human intervention study in which 90 patients with clinically proven asthma will participate: 45 in the intervention group receiving plant stanol yoghurt and 45 in the control group receiving a control yoghurt without added plant stanols. At the end of the run-in period as well as at the end of the experimental period blood will be sampled to isolate PBMCs. These cells are used to evaluate effects on cytokine production, phagocytic capacity of neutrophils, and the activity of NK cells. In addition, the golden standard to show improvements in immune function is by showing an elevated Immunoglobulin response to a vaccine. Therefore, during the experimental period all subjects receive a vaccination against Hepatitis A Virus. After 1, 2, 3, and 4 weeks blood will be sampled to monitor specific immunoglobulin titers to HAV. Study population: 90 people with clinically proven asthma, who are not carrier of hepatitis A, B or C and have not been vaccinated against hepatitis A in the past. Also, these participants do not have any other immune-related pathology Main study parameters/endpoints: primary: Specific anti-HAV antibody titers after vaccination; secondary: Phagocytic capacity of neutrophils; NK-cell activity; Th1 and Th2 cytokine production profiles by PHA stimulated PMBCs. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: During the study, 9 blood samples (each 20 or 50 mL) will be taken. Total time investment for the subjects will be 160 min. Occasionally, a heamatoma or bruise can occur during venipuncture. After the vaccination a heamatoma or a sore arm can occur. These side effects should disappear within 4-5 days. Other common side effects related to the vaccination are headache, loss of appetite, and fatigue, which usually will disappear within 24 hours. The results of this study will show whether consumption of plant stanol enriched yogurts is able to restore the disturbed th1/Th2 balance in asthma patients. Ultimately, this is expected to reduce asthmatic exacerbations, as the Th2 dominant immune response seems causal to asthmatic symptoms, however these clinical improvements are not verified in this relatively short term intervention study.
The aim of this study was to assess the effectiveness for small airway inflammation of 4 weeks lysozyme administration in Chronic Obstructive Pulmonary Disease (COPD) and/or asthma.