View clinical trials related to Lung Diseases, Obstructive.
Filter by:In patients with both COPD and CHF, moderate chronic hypoxemia is caused by a combination of intrapulmonary and extrapulmonary factors. The hypothesis of this study is that adequate medical therapy for both conditions can correct the moderate hypoxemia by improving the underlying mechanisms without the need of LTOT. If this hypothesis is correct, the study will provide a valuable information to the Italian Agency of drugs (Agenzia Italiana del Farmaco, AIFA) to reduce the inappropriate use of LTOT for COPD patients with moderate hypoxemia and CHF, and will help the Italian National Health Service to reduce both the direct and indirect costs of unnecessary LTOT.
Pulmonary rehabilitation of COPD patients are implemented in a non-randomized manner in two settings: primary and secondary health care. The effect on quality of life and hospitalizations will be evaluated
Patients admitted to the hospital with chronic obstructive pulmonary disease are evaluated with regard to early follow-up by a specialized nurse in the home after discharge.
The Comprehensive Lung Center (CLC) at the University of Pittsburgh Medical Center (UPMC Health System) provides patients with any type of breathing or lung disorder a full range of diagnostic and therapeutic services. The Emphysema/COPD Research Center (ECRC) is a specialty clinic, within this center, that attempts to advance the understanding of emphysema and to evaluate new therapies for patients with emphysema. The Emphysema Research Registry will enable pulmonary research physicians to: 1) gather information and create a research registry of people who have been diagnosed with emphysema; 2) utilize this research registry with the purpose of conducting research that attempts to advance the understanding of emphysema and to evaluate new therapies; and, 3) use the research registry to identify potential candidates for future research programs. These aims will be achieved by the collection of DNA (genetic material)for analysis and storage in addition to pulmonary function tests and other medical information.
We want to study the effect of the combination of metoprolol (a beta-blocker) with formoterol (a beta-agonist) on long function in patients with Chronic Obstructive Pulmonary Disease (COPD). There are more and more clues that a beta-blocker, when well chosen and in the right dosage, won't harm the long function in patients with COPD. Since a beta-blocker can be a valuable addition to treating patients with heart problems we would like to see if this category of medication can be available for COPD patients in the future.
Asthma and COPD are characterized by airway narrowing. The most potent, physiological mechanism leading to bronchodilation is taking a deep inspiration. This protects healthy subjects against bronchoconstrictive stimuli, and reverses pre-existing bronchoconstriction. However, the deep breath-induced bronchoprotection and -bronchodilation is impaired in asthma. We questioned whether this is specific for asthma (in comparison to COPD), and whether this is associated with bronchial inflammation and -remodelling. The study is a two-groups comparison, of physiological and pathological disease markers, obtained by methacholine challenges, monitoring airways resistance, and by taking bronchial biopsies.
PEP03 is a new chemical entity developed as a highly selective, potent, and orally active 5-LO inhibitor. PEP03 exerts its action by blocking the generation of both cysteinyl LTs and LTB4. These LTs have been associated with the inflammatory response in the lung and with the clinical sequelae, including bronchospasm. Preclinical pharmacological in- vitro, ex-vivo and in-vivo testing indicates that PEP03 has multiple beneficial actions including prevention of bronchoconstriction, and reduction of vascular leakage, cellular infiltration, and bronchial hyperresponsiveness. Clinical studies in asthmatic patients indicate that PEP03 improved FEV1 and other secondary endpoints, such as morning and evening peak flow, daytime and nighttime symptoms score, beta-agonist use, physician’s and patient’s global impression of change. Since leukotrienes have been suggested to be involved in the pathophysiology of COPD, this study is designed to explore the clinical utility of PEP03 for the treatment of moderate COPD.6; 7; 8; 9
A breathing condition known as "chronic obstructive pulmonary disease" (COPD) caused by cigarette smoking is a major health problem. The way by which smoking leads to lung disease is uncertain. Recent research done in animals provides a description of specific changes (that is a reduction) in these immune cell types as a result of cigarette smoke exposure. The study you have been asked to participate in is a pilot study to see if similar changes occur in humans who smoke. The purpose of this study is to evaluate this new method of testing blood in 3 groups of 10 people: normal non-smoking subjects, subjects who smoke with no history of lung disease and subjects who smoke and have smoking related COPD.
Large population-based studies suggest that patients with chronic obstructive pulmonary disease (COPD) are 2 to 3 times at risk for cardiovascular mortality, which accounts for a large proportion of the total number of deaths. How COPD increases the risk of poor cardiovascular outcomes is largely unknown. However, there is growing evidence that persistent low-grade systemic inflammation is present in COPD and that this may contribute to the pathogenesis of atherosclerosis and cardiovascular disease among COPD patients. Inflammation and more specifically, C-reactive protein (CRP), has been linked with all stages of atherosclerosis, including plaque genesis, rupture and subsequent thrombo-fibrosis of vulnerable vessels. Recently, our group has demonstrated in a relatively small study that short-term inhaled corticosteroid (ICS) therapy can repress serum CRP levels in stable COPD patients. Conversely, withdrawal of ICS leads to a marked increase in serum CRP levels. Although very promising, these data cannot be considered definitive because the study was small in size and scope (N=41 patients). Additionally, this study did not address the potential effects of combination therapy with ICS and long-acting β2 agonists (LABA). This is an important short-coming because combination therapy of ICS and LABA have been shown to produce improved clinical outcomes over ICS monotherapy and is commonly used by clinicians in the treatment of moderate to severe COPD. We hypothesize that inhaled fluticasone (Flovent®) reduces systemic inflammation and that combination therapy (Advair®) is more effective than steroids alone in reducing systemic inflammation in COPD. In this proposal, we will implement a randomized controlled trial to determine whether ICS by themselves or in combination with LABAs can: 1. reduce CRP levels in stable COPD patients and 2. reduce other pro-inflammatory cytokines, which have been linked with cardiovascular morbidity and mortality such as interleukin-6 (IL-6) and monocyte chemoattractant protein-1 (MCP-1)