View clinical trials related to Asthma.
Filter by:The primary objective of this study is to determine if well-controlled asthmatic patients followed in subspecialty asthma clinics between the ages of 3 - 18 years can be distinguished from healthy controls using lung clearance index, a parameter from the multiple breath washout test. Also, to correlate lung clearance index with asthma sputum cell counts.
This is an open-label, randomized, cross-over, active-controlled study to evaluate the efficacy and safety effects using Meptin® Swinghaler and Berotec N® Metered Aerosol in stable asthma patients
The study will assess the safety, tolerability and clinical activity of ASM-024 in subjects with mild allergic asthma.
This is a 6 week study to investigate the effectiveness and safety of BI 671800 ED in patients with asthma who do not take inhaled corticosteroids.
To compare the efficacy and safety of inhaled procaterol (Meptin Air) versus inhaled salbutamol as metered dose inhaler (MDI) reliever of acute exacerbation of asthma not in imminent respiratory failure.
To investigate the effectiveness and safety of BI 671800 given in the morning (AM), evening (PM) or twice daily (b.i.d.) compared too placebo as add on therapy to inhaled corticosteroid in symptomatic asthma patients.
Several studies have demonstrated the efficacy of asthma treatment but despite being correctly diagnosed, conveniently prescribed and adherent to the therapeutics, 5% to 10% of asthmatics do not reach disease control. The aim of this study is to measure asthma control, evaluate inflammatory and functional characteristics, describe comorbidities and aggravating factors and phenotypes derived from the characteristics of a severe asthmatic population followed at an outpatient university service in Sao Paolo, Brazil.
To determine the effect of medical food on reducing asthma symptoms in asthmatic children.
The aim of this study is to investigate the immunomodulatory potential of Isolated Plasmacytoide Dendritic Cells (pDCs) and Regulatory T-cells (TREGs) isolated with clinical grade magnetic bead isolations techniques (MACS®) on the antigen presenting cell-induced proliferation of lymphocytes after allergen uptake in an in vitro cell culture system.
Leukotriene receptor antagonists (LTRAs) are frequently prescribed to reduce the symptoms associated with asthma. Singulair (montelukast), manufactured by Merck, is a popular LTRA, however its effectiveness varies greatly between individuals. We are interested in understanding why the effectiveness of Singulair varies so greatly. For an oral drug such as Singulair to be effective, the body must efficiently absorb it. We have found that blood levels of Singulair vary greatly between individuals, and we think that this variability is responsible for variability in response. Drug absorption occurs primarily in the intestine. Due to differences in the chemical properties of drugs, some drugs can be absorbed easily while other drugs require help from special proteins produced by the cells that line the intestine. These proteins, or transporters act like revolving doors to allow drugs to move from the intestine to the bloodstream. The activity of a transporter can be influenced by individual genetic variability. We think that adsorption of Singulair requires help from a transport protein called OATP2B1. We have found that a single common genetic change in this protein is associated with low plasma concentration of montelukast. In this proposal we will determine plasma levels of montelukast in individuals with two copies of this genetic change. We predict that these individuals will have roughly half the plasma level of montelukast as individuals with no copies of this genetic change. Eventually, what we learn from this work will allow doctors to quickly test individuals with asthma to determine how well they will absorb Singulair and possibly other LTRAs. Knowing this will allow the doctor to adjust the drug treatment on an individual basis to maximize benefit in the treatment of asthma.