View clinical trials related to Chronic Disease.
Filter by:GSK233705 is being developed for the treatment of chronic obstructive pulmonary disease. This will be an open-label, dose-ascending study in 7 healthy male subjects to establish well tolerated intravenous doses and an oral dose of GSK233705. The main objective of the study is to confirm an IV and oral dose for a definitive human radiolabel metabolic study.
This study evaluated the effect of inhaled aclidinium bromide on exercise endurance and in reducing resting and dynamic lung hyperinflation in patients with moderate to severe COPD. It was 9 weeks in duration, consisting of; a 2-week run-in period, 6 weeks of double-blind treatment, and a 1-week follow-up phone call. All patients meeting the eligibility criteria were randomized to one of two treatment groups: aclidinium bromide or placebo.
A study to test the effect of MK0359 in lessening the symptoms of COPD as compared to salmeterol and placebo.
GSK961081 has previously been administered to healthy subjects in a nebulised formulation and the first part of this study which will be conducted in healthy subjects proposes to bridge the change from nebulised to DPI formulation of GSK961081 before administration to patients. The second part of the study will be conducted in COPD patients and aims to assess the safety and bronchodilator profile of GSK961081 over 24 hours, during 14 days dosing.
GSK573719 is a high-affinity specific muscarinic receptor (mAChR) antagonist which is being developed for once daily treatment of chronic obstructive pulmonary disease (COPD). The long duration of action of GSK573719 when administered via inhalation in animal models supports the potential for use as a once-daily bronchodilator for COPD
Compare the effectiveness of 3 strategies by pharmacists to decrease the time to refill of prescriptions for common chronic diseases (diabetes, hypertension, hyperlipidemia, heart failure, depression, psychoses).
GW642444 (the study medicine) is a new experimental medicine for treating asthma and chronic obstructive pulmonary disease (COPD). People with asthma and COPD suffer from breathlessness because the small tubes (bronchioles) that carry air in and out of the lungs become narrow. We hope that the study medicine will work by relaxing the muscles in the airways and help to keep the airways open, and make breathing easier. The study medicine might improve on available treatments by having fewer side-effects, and by working faster and for longer, so that patients could take it once daily, instead of twice daily. When a medicine is made into a form ready to be given to patients, inactive ingredients are often added. Inactive ingredients might be used to help a medicine work better, to make it easier to produce the medicine, or to make it easier to get an accurate dose of medicine. In this study, the study medicine contains the inactive ingredient magnesium stearate. We need to check that the study medicine doesn't cause problems when inhaled along with magnesium stearate. So, we're doing this study in healthy people to find out the answers to these questions. 1)Do repeated once-daily doses of the study medicine cause any important side effects when inhaled, along with magnesium stearate, as a fine powder? 2)How much of the study medicine gets into the bloodstream and how long does the body take to get rid of it?
This study will involve the use of a new compound, GW642444 that is being developed for the treatment of asthma and chronic obstructive pulmonary disease (COPD). It works by acting on cells in the lungs, causing some of the muscles around the lungs to relax and open up better (bronchodilation), making breathing easier. When a medicine is made into a form ready to be given to patients, the active ingredient is often prepared with another ingredient called a salt to help make it stable, and inactive ingredients are often added. Inactive ingredients might be used to help a medicine work better, to make it easier to produce the medicine, or to make it easier to get an accurate dose of medicine. In previous studies the study drug has been given as a dry powder containing either the "H" salt (with the inactive ingredient lactose), or containing the "M" salt (with the inactive ingredients lactose and cellobiose octaacetate). The "M" salt form of the study drug has been altered to contain lactose and a new inactive ingredient called magnesium stearate (instead of cellobiose octaacetate). Participants in this study will receive both the "H" salt (GW642444H) and the new "M" salt (GW642444M) containing magnesium stearate. This study will be the first time the new "M" salt form of the study drug will be given to asthmatic patients.
Stage 1 of the study is designed to provide data about the risk-benefit of 4 dose regimens of indacaterol (75, 150, 300 & 600 µg o.d.) in order to select two doses to carry forward into study Stage 2. Study Stage 2 will provide pivotal confirmation of efficacy, safety, and tolerability of the selected indacaterol doses in patients with COPD
Pneumococcal disease is a serious bacterial infection that can affect different parts of the body, including the lungs. People with chronic illnesses, such as chronic obstructive pulmonary disease (COPD), have a greater risk of developing pneumonia and meningitis as a result of pneumococcal disease. This study will compare the immune response to two types of pneumococcal vaccines in adults with COPD.