View clinical trials related to Lung Diseases.
Filter by:The purpose of this study is the evaluate the safety and tolerability of repeat dosing of the combination of inhaled GSK233705 and GW642444 administered once-daily in subjects with COPD.
The purpose of this study is to evaluate the safety, effectiveness, and side effects of the CryoSpray AblationTM System (CryoSpray AblationTM, "CSA" or "cryospray therapy") to treat benign airway disease in the lung using liquid nitrogen sprayed through a catheter via flexible fiber optic bronchoscopy (FFB)
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 evaluate the use of Capnography (Continuous recording of the carbon dioxide content of expired air)as an alternative test to measure PC02 levels in patients with asthma, chronic obstructive pulmonary (COPD,interstitial lung disease(ILD)or coronary disease who are at risk of intubation.
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.
From the relationship between pathophysiology of chronic obstructive pulmonary disease (COPD), dyspnea, and dynamic hyperinflation during ventilatory increasing, the investigators hypothesize that 1. Positive expiratory pressure (PEP) breathing will reduce dyspnea more than normal breathing during exercise in mild to moderate COPD patients. 2. PEP breathing will improve dynamic hyperinflation during exercise more than normal breathing in mild to moderate COPD patients. 3. PEP breathing will improve cardiorespiratory function during exercise than normal breathing in mild to moderate COPD patients.
The purpose of this study is to determine if Advair Diskus improves sleep quality by reducing lung hyperinflation in COPD.
Interstitial lung diseases (ILD) is a collective noun for various chronic lung diseases, including sarcoidosis and idiopathic lung fibrosis (IPF). Sarcoidosis is a multi-systemic disease that includes damage to the lungs in 90% of the patients. Generally, the disease can be described as a systemic, granulomatous and antigen-driven disorder. IPF is a disease of only the lungs, in which an unknown cause induces a strong inflammation reaction leading to acute lung damage that ultimately results in the formation of scar tissue and stiffness of the lungs. Unfortunately, the exact cause of ILD is still unknown. It is suggested that environmental and work-related exposure to various triggers can exert an effect on the course of the diseases. Examples of such triggers include bacteria, organic agents such as pollen and cotton dust and inorganic agents like metals and talc. Due to this unknown cause, it is difficult to treat ILD. Consequently, the current guideline is no medication or anti-inflammatory agents in severe cases. Unfortunately, this therapy is not completely effective. Triggers that are suggested to cause ILD can exert their effects via various mechanisms. On the one hand, they can induce an inflammatory reaction as we recently demonstrated for various triggers including instillation material and sicila. During such an inflammatory reaction, cytokines are released that can induce oxidative stress, i.e. an imbalance between the formation of and the protection against reactive oxygen species (ROS). On the other hand, ILD-inducing triggers may directly cause an increased ROS production that subsequently can evoke an inflammatory reaction. The objective of the current study is to investigate the individual sensitivity for the development of ILD after exposure to various triggers. Main focus will be the differences in the formation of and the protection against ROS as well as the occurring inflammatory reaction after exposure to such triggers. Furthermore, a simple blood test will be developed to study and eventually even predict the individual reaction of subjects to various triggers. Finally, to fully characterize the development of ILD after exposure to various triggers, the exhaled air of patients will be studied in order to identify specific markers of oxidative stress and damage.
Chronic obstructive pulmonary disease (COPD) is the fourth most common cause of death in the United States. There is no cure and the disease gets worse over time. Although it usually occurs in people who smoke cigarettes, researchers do not know exactly how smoking leads to COPD. This study will compare blood and tissue samples from smokers and nonsmokers with and without COPD to determine why some COPD symptoms occur in some people and not others.