View clinical trials related to Lung Diseases, Obstructive.
Filter by:Chronic obstructive pulmonary disease (COPD) is a leading cause of morbidity and mortality worldwide. Its prevalence is in progression and COPD is expected to become the fourth leading cause of death by 2030. COPD is characterized by periods of stability interspersed with acute infectious/inflammatory flare-ups, also called acute exacerbations, during which patients deteriorate, sometimes to the point of requiring immediate medical assistance. Although most patients eventually recover, repeated episodes of exacerbations may accelerate COPD progression. Exacerbations may further compromise the integrity of limb muscles by promoting further loss in muscle mass and strength. The overall objective of this substudy is to elucidate how an acute COPD exacerbation may affect limb muscles.
The World Health Organisation defines chronic obstructive pulmonary disease (COPD) as 'not one single disease but an umbrella term used to describe chronic lung diseases that cause limitations in lung airflow' covering emphysema and chronic bronchitis; and estimates (2004) that worldwide there are currently 64 million sufferers with 3 to 4 million in the UK. COPD results from damaged airways in the lungs, causing them to become narrower and making it harder for air to get in and out of the lungs. It is diagnosed by measuring the amount of air that can be expelled in the first second of breathing out (FEV1) in litres per second. COPD is a progressive disease and the condition can have a serious impact on the quality of life of sufferers. Going out in very cold weather can cause an immediate drop in FEV1, and increased breathlessness. This is a randomised crossover controlled trial of participants with COPD. It compares the effectiveness of an air-warming face mask which covers the mouth compared with no face covering, in increasing participants exercise capacity and quality of life in cold weather. The mask warms air at the mouth by drawing on air warmed beneath the participants clothing, through a 20cm long hollow plastic tube and a one-way inspiratory valve into the mask. Air is expired through the nose. 24 participants with moderate or severe COPD, will undertake 3 exercise tests on 3 separate days. Two tests will be in an environmentally controlled chamber performed at 5°C with participants wearing either the mask or no face covering. The third test will be performed at ambient temperature outside the chamber. The order will be determined by random allocation. Participants will undergo the Treadmill 6 Minute Walk Test; various measurements will be taken, all of which will be non-invasive.
Chronic hypercapnic respiratory failure is common in stable COPD patients in a terminal phase of their disease In an attempt to correct or slow down the rate of rise of PaCO2, long-term noninvasive mechanical ventilation (NIV) has been proposed. Only very few studies demonstrated the clinical efficacy of NIV. Indeed this technique is not always well tolerated and therefore it may be effective only in a subset of patients The aim of this study is to assess the feasibility and safety of "one shot" extrcorporeal CO2 removal device, in reducing the PaCO2 level
Acute exacerbation of chronic obstructive pulmonary disease (AECOPD) represent a leading cause of morbidity and mortality.Patients admitted to hospital present higher mortality rates.The investigators lack the specific tools that allow us to easily classify and establish the individual prognosis for each patient during their hospitalization. Rational of the study:to identify the predictive factors for hospital mortality in critically ill patients admitted to hospital due to an episode of COPD exacerbation.
To compare the efficacy of acapella and expiration against open glottis (ELTGOL) technique in promoting airway clearance of chronic obstructive pulmonary disease (COPD) patients
For patients with emphysema lung volume reduction (ELVR) could be an expedient approach for the reduction of distension of the lung. ELVR may be performed using RePneu® Coils. After the insertion of the coils distended lung sections shrink so that healthy parts can expand. In the present study investigators intend to examine, whether the insertion of the coils improves diaphragm function and force of the breathing muscles. Investigators hypothesize that reduction of lung volume eliminates or reduces flattening of the diaphragm and relieves breathing muscles, respectively respiratory pump, which aims to reduce dyspnea.
Assessment of health-related quality of life in COPD patients with severe chronic respiratory failure requires appropriate and highly specific measurement tools. We attempt to validate the Chinese version of the Severe Respiratory Insufficiency Questionnaire (SRI)
This is the first study assessing the impact of dexamethasone (a glucocorticosteroid with negligible mineralocorticoid activity) as compared to prednisone on short-term outcomes of HF patients hospitalized with exacerbation of COPD. The study may provide important data regarding a simple but potentially robust intervention among large patient population with high rates of hospital admissions.
To compare the relationship between breath-hold time and the distance in a Six Minute Walking Test in chronic obstructive pulmonary disease population.
Chronic Obstructive Pulmonary Disease (COPD) is the most common pulmonary disease, responsible for considerable morbidity and mortality and is the third leading cause of death worldwide. As well as its consequences in the lungs, COPD is well recognized to be associated with a range of important systemic consequences and co-morbidities. Interestingly, skeletal muscle dysfunction is noted in both early and advanced disease, suggesting its origins may not be wholly pulmonary. Treatment strategies targeting lung function are, unfortunately, of limited value. Given the burden of disease, it is becoming increasingly important that investigative and therapeutic work now focuses on other systemic characteristics and sequelae which define the disease phenotype. This is a randomized controlled trial of the effect of 14 days of voluntary reduced activity on muscle mass, muscle strength, body composition, and atrophy signalling in patients with COPD and age-matched controls. The primary hypothesis upon which this study is based is that a short reduction in ambulation will induce a transient reduction in quadriceps muscle mass, quadriceps strength and physical performance in patients with COPD compared to matched COPD patients whose mobility has not been restricted. The secondary hypothesis is that the magnitude of the above changes will be greater in physically inactive COPD patients compared to physically inactive age-matched controls. The overall aim of this research is to use an in vivo human model of 14 days of voluntary reduced physical activity to test the above hypotheses. If the model proves feasible, this will allow for earlier proof of concept studies of novel therapeutic agents.