View clinical trials related to Lung Diseases.
Filter by:The purpose of this study is to obtain biologic materials from the blood and lungs of normal individuals to establish a set of normal range for various parameters. These will provide important information when applied to individuals with various pulmonary diseases, and will help in understanding of the etiology and pathogenesis of various lung diseases.
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
This an initial proof of concept, phase to study to assess the safety and efficacy of tofimilast for the chronic maintenance treatment of adults with Chronic Obstructive Pulmonary Disease
To improve disease outcomes through reduction in secondhand tobacco smoke exposure of children with asthma
To evaluate a model of shared decision-making for asthma treatment, appropriate to the needs of African American, Latino, Chinese, and other Asian and low income Caucasian patients to adherence to asthma controller medications in a two-year randomized clinical trial in 302 minority and low-income adults, 18-70 years of age, with suboptimally controlled, persistent asthma, paralleling a simultaneous evaluation being conducted in 311 Caucasian and Asian/Pacific Island adults, (total n=613), and to examine psychological mechanisms mediating the effects of the intervention on adherence and of adherence on asthma outcomes.
This study will determine the effect of combining counseling, urine cotinine feedback, and incentives in reducing environmental tobacco smoke (ETS) exposure and susceptibility to smoking among high-risk preteens.
The purpose of this study is to determine which dose of the investigational drug is the most safe and effective for the treatment of COPD compared to the control drug
Human and animal studies have shown that inhaled corticosteroids (ICS) decrease airway blood flow . This effect is immediate (within 30 minutes), transient (lasting 90 minutes), and in animal studies independent of gene expression. In COPD patients, decrease in bronchial blood flow may also decrease mucosal edema, airway resistance and improve small airway function. If such an effect exists, then we should be able to measure improvements in airway conductance and reduce lung hyperinflation, which would have salutary effects on dyspnea and exercise endurance. To our knowledge, no study has examined the immediate effect of ICS on small airway function in COPD. The purpose of this study is to examine the effects of nebulized Pulmicort on small airway function (spirometry, plethysmographic lung volumes, airways resistance, closing volume, partial flow-volume loop analysis) and exercise endurance in patients with moderate to severe COPD. HYPOTHESIS 1. Nebulized ICS will immediately improve airway function compared with placebo (nebulized saline). 2. Enhanced lung emptying and reduced operating lung volumes during rest and exercise following ICS therapy will translate acutely into clinically important reductions in exertional dyspnea and improvements in exercise endurance.
In people with mild COPD, the ability to exhale air from the lungs is partly limited because of narrowing and collapse of the airways. This results in the trapping of air within the lungs and over-distention of the lungs and chest (lung hyperinflation). Breathing at high lung volumes (hyperinflation) is an important cause of breathing discomfort (dyspnea) in people with COPD. Bronchodilators help to relax muscles in the airways or breathing tubes. Bronchodilators are often prescribed if a cough occurs with airway narrowing as this medication can reduce coughing, wheezing and shortness of breath. Bronchodilators can be taken orally, through injection or through inhalation and begin to act almost immediately but with the effect only lasting 4-6 hours. The main purpose of this study is to examine the effects of inhaled bronchodilators on breathing discomfort and exercise endurance in patients with mild COPD.
Patients living with advanced chronic diseases (ACD), such as congestive heart failure (CHF) and chronic obstructive lung disease (COPD) present substantial care and economic challenges for the health care system due to frequent emergency room visits and acute care hospitalizations. Morbidity and mortality is high in these complex populations, and patient quality of life is often compromised. Care of patients with ACD occurs across health care sectors, by providers in the acute, primary and community settings. Despite recent efforts to enhance the care of patients with ACD, through multidisciplinary disease management programs, variations and gaps exist along the continuum of care. The available evidence suggests that there are opportunities to optimize the primary care of patients with ACD. We are proposing to build upon the current evidence and guidelines for disease management programs, our existing specialized resources, our existing primary care practices, and develop and test a model of care that is primary care based, sensitive to the unique demands and characteristics of different primary practices. Our goal is to design linkages and care strategies of relevance and importance to the primary care providers who care for patients with advanced COPD and CHF. This demonstration project is a randomized controlled clinical trial of the RoadMAP program (intervention) delivered by a Primary Care Nurse Specialist (PCNS) compared to usual care (control group). The primary outcomes will be degree of adherence to clinical practice guidelines. Secondary outcomes will be patient satisfaction, quality of life, use of community-based services, number of emergency room visits, and number of hospitalizations.