View clinical trials related to Chronic Obstructive Pulmonary Disease.
Filter by:A phase I randomised, double-blind, placebo-controlled study of single and repeated ascending doses in healthy volunteers to investigate the safety, tolerability and pharmacokinetics of inhaled chf 6001.
Asthma and chronic obstructive pulmonary disease (COPD) are common lung. Despite the important progresses achieved in treatments, the majority of affected patients suffer from severe symptoms and tend to be frequently hospitalised due to exacerbation. Reasons for uncontrolled asthma and COPD are manifold, but often a poor inhalation technique and a poor following of the prescribed treatment plan is observed, which is called non-adherence. The primary aim of this study will therefore be to measure medication adherence in patients with chronic obstructive lung diseases, and to investigate the impact of an audio reminder on disease outcomes and quality of life. The investigators hypotheses will be that an adherence reminder, improve medication adherence and that a good medication adherence elongate the time to next exacerbation in patients with chronic obstructive lung diseases. A prospective single-blind randomized controlled study is planned, where the investigators are going to analyse the adherence over a period of six months of in- and outpatients, who have experienced at least one exacerbation during the last year. The adherence of intervention- and control group will be measured by specific electronic data capture devices which can save each actuation with date and time. Patients assigned to the intervention group will be reminded for the inhalation by an audio reminder and will receive support calls if medication will not be taken as prescribed or if rescue medication will be used too often. In contrast, the control group, will not be reminded and will not receive any calls, if do not comply with the prescribed medication schedule or if they use their rescue medication too frequently. During study period, participants will be assessed every two months. Each assessment will include spirometry, measurement of diffusion capacity, exhaled nitric oxide and carbon monoxide. Moreover participants will demonstrate their inhalation techniques by using placebo devices and fill out questionnaires regarding quality of life. Statistical significance will be acquired if a p value of less than 0.05 is attained. Time to next exacerbation will be compared using the Kaplan-Meier method and Cox proportional hazard model. Results will be reported as HR (hazard ratio) with corresponding 95% confidence interval (CI) and p-value. "Time to next exacerbation" is subject to the investigators power calculation. A previous study has shown that 30% of COPD patients are readmitted again within six month because of an exacerbation. The investigators expect that 12% of patients in the intervention group will have an exacerbation. This corresponds to a hazard ratio of 0.36. Assuming a sample size of 70 subjects for each study group, there is a power of 80% to detect a HR of 0.36 based on a one-tailed test. Additional 14 subjects (7 for each study group) have been added to account for drop outs. Therefore, 154 subjects will be investigated in this study.
What are the differential effects of beta-blockers on lung and heart function during exercise in chronic obstructive pulmonary disease (COPD)? COPD is a major cause of illness and death. Not only do these individuals suffer from lung disease, but COPD often leads to other illnesses, particularly heart disease. Beta-blockers very successfully treat heart disease. It is therefore logical that one would want to use this treatment in COPD patients with heart disease too. However, there has always been concern that beta-blockers could cause significant problems in COPD by worsening lung function, as these can have the opposite effect to inhalers used to treat COPD that open up airways. Pointedly, there is increasing evidence that despite this problem, COPD patients who have been prescribed beta-blockers have been shown to gain benefit particularly in terms of preventing death. In this study, the investigators therefore want to examine which beta-blocker might be the safest for COPD patients, as each work slightly differently. Some beta-blockers may have a more beneficial effect on airways than others, whilst still benefitting the heart. The investigators will study two different beta-blockers; one that potentially narrows airways and one that potentially opens airways. The investigators will be using cardiopulmonary exercise testing (an exercise bike that measures both heart and lung function during exercise) to look for differences between both beta-blockers primarily in terms of lung function but also with information about the heart. The investigators will recruit people with moderate to severe COPD who are able to complete a cycle exercise test through their respiratory research department. The study will last for 10-12 weeks with 5 main visits to the department for serial exercise tests, breathing tests, simple heart function tests and simple blood tests that will tell the investigators what other effects these beta-blockers are having on the heart and lungs.
The investigators are looking at whether a new type of nebuliser (a machine used to deliver drugs to the airways) is better at delivering drugs to the lungs of people with Chronic Obstructive Pulmonary Disease (COPD), compared with the current nebulisers used in Emergency Departments. The investigators will randomly allocate patients who come into the Emergency Department with an acute episode of the COPD into either the standard nebuliser group or the new nebuliser group. Both groups will receive the same medications, it is only the method of delivering them which will be different.
This study is a post-authorization commitment to the European Medicines Agency (EMA). The study serves to determine whether the treatment of patients with stable, symptomatic Chronic Obstructive Pulmonary Disease (COPD) with the investigational drug NVA237 is efficient and safe. The efficacy and safety of the drug was tested for twice daily dosing against once daily dosing.
This study will evaluate the effects of Chen-style Tai Chi compared to conventional exercise in pulmonary rehabilitation for COPD patients. Half of participants will receive the Chen-style Tai Chi intervention, while the other half will receive the conventional exercise intervention. Both groups will receive the same eduction and support during pulmonary rehabilitation.
In the recent years a novel method for functional lung imaging called Fourier decomposition MRI (FD MRI) has been introduced that allows for simultaneous assessment of regional lung perfusion and ventilation-related information without exposure to ionizing radiation or administration of intravenous or inhalational contrast agent. In this project, the investigators plan to investigate whether Fourier decomposition (FD) MRI is able to provide similar clinical information on regional lung perfusion as the standard methods SPECT/CT and DCE MRI in patients with COPD.
The purpose of this trial is to determine whether a minimal homebased psychoeducative intervention is effective in management of anxiety and dyspnea in patients with severe chronic obstructive pulmonary disease.
Nasal High Oxygen Flow (HOF) has been demonstrated to reduce the re-intubation rate in hypoxic patients and ameliorate breathing pattern in hypercapnic patients. The aim of this study is to better understand the physiological mechanism underlying these results, assessing the respiratory mechanics in stable hypercapnic COPD patients.
1: Is endothelium function impaired in COPD? Other chronic cardiovascular diseases are associated with endothelial dysfunction, and the endothelium plays an important role in regulating vascular tone, tissue blood flow, coagulation and the inflammation process. Although the specific causes of endothelial dysfunction remain unclear, physical inactivity, chronic systemic inflammation and smoking are all known to be associated with endothelial abnormality. 2. Is Muscular Sympathetic Nerve Activity (MSNA) increased in COPD? A balanced regulation of blood flow to skeletal muscles may be disturbed by pathophysiology and may therefore contribute to the exercise intolerance and skeletal muscle depletion seen in patients with COPD.Skeletal muscle blood flow is tightly regulated to match tissue oxygen demands and is thus adapted to meet energy requirements. During physical activity, the sympathetic nervous system is activated ("exercise pressor reflex"), resulting in increased ventilation, heart rate and a redistribution of cardiac output from inactive to active tissues. The redistribution of cardiac output to the body organs is heterogeneous. Blood flow to skeletal, respiratory and cardiac muscle increases as exercise intensity increases, whereas blood flow to gastrointestinal, renal and reproductive tissues decreases. As blood pressure during exercise remains largely unchanged, the redistribution of blood flow is caused by changes in vascular conductance. These conductance changes are caused by an overall vasoconstriction induced by the increased sympathetic outflow of noradrenaline (NA), and a vasodilation of vascular beds supplying the working skeletal -, cardiac- and respiratory muscle.