View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:Patients with Chronic Obstructive Pulmonary Disease (COPD) suffer from frequent and recurrent acute exacerbations (AECB) which are associated with enormous healthcare expenditures and significant morbidity, specifically an increased risk of death, a decline in pulmonary function and a significant change in quality of life. Bacteria appear to have an important role in acute exacerbations in chronic bronchitis and COPD. Studies of acute exacerbations in COPD have shown a reduction in bacterial load with prolonged exacerbation-free interval. In addition, recent studies indicate that acquisition of a new strain of H. influenzae, M. catarrhalis, S. pneumoniae or P. aeruginosa are responsible for many of these exacerbations. Chronic inflammation and bacterial infection predispose many patients to frequent and recurrent acute exacerbations. Mpex, (the sponsor on record at time of the study's initial registration) believes that intermittent administration of inhaled MP-376 in high risk patients will decrease the incidence of acute exacerbations by both by lowering the organism burden, and resultant inflammation, as well as pre-emptive eradication of any newly acquired bacterial strains.
Smoking causes both smoking related lung disease (COPD) and ischaemic heart disease. These are very common conditions and many patients have both diseases. Beta-blocker drugs are extensively used in the treatment of angina, high blood pressure and after heart attacks to decrease symptoms and prolong life. Beta-agonists are used in COPD to decrease breathlessness and improve exercise tolerance. It used to be thought that beta-blockers cannot be used in COPD patients as they may make the breathlessness worse, but it has now been established that they can be used safely. Beta-blocker drugs and beta-agonists have 'opposite' effects on the body and the investigators do not know if they can work together or if they would cancel each other out. The investigators also do not know which of the different types of beta-blockers now available are better for COPD patients. This study will investigate what happens to the airways of people taking both of these drugs.
The purpose of this study is to determine whether water based or land based group training is more effective for people with COPD.
The purpose of this study is to demonstrate equivalent efficacy between two different formulations of formoterol (pMDI using HFA-134 propellant and dry powder) on lung function in adult patients with partially reversible COPD.
This trial will test the hypothesis that the 6 minute walk test (6MWT) is not reproducible as a measure for oxygen desaturation.
Patients with Chronic Obstructive Pulmonary Disease (COPD) suffer from frequent and recurrent acute exacerbations (AECB) which are associated with enormous healthcare expenditures and significant morbidity, specifically an increased risk of death, a decline in pulmonary function and a significant change in quality of life. Bacteria appear to have an important role in acute exacerbations in chronic bronchitis and COPD. Studies of acute exacerbations in COPD have shown a reduction in bacterial load with prolonged exacerbation-free interval. In addition, recent studies indicate that acquisition of a new strain of H. influenzae, M. catarrhalis, S. pneumoniae or P. aeruginosa are responsible for many of these exacerbations. Chronic inflammation and bacterial infection predispose many patients to frequent and recurrent acute exacerbations. Mpex believes that intermittent administration of inhaled MP-376 in high risk patients will decrease the incidence of acute exacerbations by both by lowering the organism burden, and resultant inflammation, as well as pre-emptive eradication of any newly acquired bacterial strains.
Background Chronic Obstructive Pulmonary Disease (COPD) patients develop leg weakness and a reduced walking capacity, due to reduced leg muscle oxygen-utilising capacity (OUC). Animal experiments indicate that low muscle levels of Peroxisome Proliferator-Activated Receptors (PPAR) cause the reduced muscle OUC. Aims In COPD patients, investigate whether: 1. reduced muscle PPAR levels cause reduced leg muscle OUC, by investigating a correlation between these in muscle samples (Study 1). 2. training increases muscle PPAR levels in proportion to increases in OUC, as should occur if PPARs control OUC (Study 2). 3. muscle PPAR levels and walking capacity correlate (Study 1 and 2). 3. the new technique of repetitive stimulation of the nerve to the leg with a magnet (rMS) improves muscle OUC (Study 2). Study 1 Leg weakness and walking ability are assessed in 75 patients, then a leg muscle sample is taken to measure PPARs and OUC. Study 2 60 Study 1 patients have either cardiovascular training, rMS, or no training, for 8 weeks, then are re-studied as in Study 1. Importance If reduced PPAR levels correspond with leg weakness, medicines can be developed to target these receptors and treat weakness. If rMS is effective, it can be offered to patients.
This study is an NIH-funded clinical trial conducted at Duke University Medical Center and Ohio State University. The purpose of this study is to examine the effects of a telephone-based, care-giver assisted, coping skills training (CST) program in patients with Chronic Obstructive Pulmonary Disease (COPD) and their caregivers. This may help COPD patients and their caregivers to deal better with the stress of lung disease. This study will test 3 primary hypotheses: 1) That enhanced CST will be more effective in improving quality of life compared to a Usual Medical Care plus COPD education and symptom management control group; 2) That enhanced CST will be associated with better medical outcomes (i.e., greater survival and fewer COPD-related physician visits or hospitalizations) compared to Controls over a follow-up period of up to 4 years; and 3) That improvements in quality of life and survival will be mediated by increased functional capacity and better coping. This proposed study builds upon our prior research by: a) adapting and refining our CST protocol, which was effective in improving psychosocial adjustment in patients awaiting lung transplantation, to a broader population of patients with COPD who are not immediate candidates for lung transplantation; b) enhancing our intervention to improve functional capacity, reduce somatic symptoms, and improve survival; c) examining the impact of CST on medical expenditures; and d) including caregivers in an enhanced CST intervention.
Fluticasone (Advair), an inhaled corticosteroid and salmeterol, a long-acting beta agonist, are approved for use in the management of COPD. Fluticasone/salmeterol has been shown to significantly improve forced expiratory volume (FEV1) and decrease COPD symptoms (Calverley et al. 2003, 2007). Inhaled corticosteroids have been shown to decrease frequency of COPD exacerbations (Gartlehner et al. 2006) and long acting bronchodilators demonstrated a reduction in dyspnea, increased airflow and reduction in hyperinflation in patients with symptomatic COPD (Ramirez-Venegas et al. 1997). Specifically, salmeterol has also been shown to have a positive effect on symptoms and health status of patients with COPD when added to usual treatment (Stockley et al. 2006). Previous research of subjects from our group with asthma has shown salmeterol to be associated with sustained improvements in morning peak expiratory flow (PEF), protection from nighttime lung function deterioration and improvement in patient perception of sleep (Wiegand et al. 1999). This study has not been performed in patients with COPD nor has the effect of salmeterol with fluticasone on sleep quality been assessed. AIM: The aim of this study is to determine the effect of fluticasone/salmeterol on sleep quality in patients with COPD and to compare efficacy of Advair 250 compared to placebo on sleep. The hypothesis is that there would be a significant improvement in sleep quality when patients are placed on fluticasone/salmeterol as compared to placebo.
Patients with COPD have been found to have an increased risk of osteoporosis. The underlying mechanism is not clear yet. This case control study aims to identify risk factors for osteoporosis in GOLD II COPD patients. COPD GOLD II patients with osteoporosis (cases) will be matched by gender and age to COPD GOLD II patients without osteoporosis(controls). Possible risk factors for osteoporosis are: - BMI/VVMI (body composition) - emphysema vs chronic bronchitis - physical capacity - Use of certain medication (eg corticosteroids, SSRI's) - Nutritional status - Infectious parameters Outpatients from the pulmonary ward of the Catharina Hospital Eindhoven with GOLD II COPD according to the ATS and GOLD-guidelines will be included in the study (after written informed consent). A DEXA-scan will be made, if patients are osteoporotic or have a normal BMD they will be included in the study. A HRCT will be made, a six minutes walking distance will be performed, blood will be drawn for lab. analysis, an X-ray of the vertebral collum will be made, impedance will be measured and hight and weight will be measuered. Also patients will fill in a questionaire. By univariate and multivariate analysis the collected data will be analysed to determine possible risk factors for th development of osteoporosis in COPD GOLD II patients.