View clinical trials related to Lung Diseases.
Filter by:Pulmonary inflammation plays an important role in the development of chronic lung disease (CLD) in preterm infants. This inflammation occurs very early in postnatal life. Any therapy that could be beneficial in preventing CLD should be started very early. The investigators' previous double-blind study has shown that early (< 12 hours) postnatal use of intravenous dexamethasone for 4 weeks significantly suppressed pulmonary inflammation and significantly reduced the incidence of CLD. However, the use of dexamethasone was associated with increased incidence of infection and sepsis. Their follow-up study also suggested an increase in the incidence of psychomotor anomalies. As compared to intravenous administration, endotracheal instillation will provide more local anti-inflammatory effects and less systemic side effects. Infants will be eligible for the study if their birth weight (BW) is < 1500 gm and if they had severe respiratory distress syndrome (RDS) requiring mechanical ventilation shortly after birth. After informed consent is obtained, the infant will be randomly assigned depending on the condition of the infant. The primary outcome is the change in cytokines (interleukin-6, 8, 10 and TNF-α) levels in BAL fluid. Chronic lung disease (CLD) was judged at 36 postmenstrual weeks. Infants in the study group (S/B group) received surfactant (Survanta®, Abbott Laboratories, North Chicago, IL; 100 mg or 4 mL/kg/dose) and Budesonide (Pulmicort®, AstraZeneca Pty Ltd., Australia; 0.5 mg or 1mL/kg/dose), while those in the control group (S group) received surfactant (Survanta® Abbott, 100 mg/kg/dose) and saline (1mL/kg).
A One Year Clinical Trial Assessing the Usefulness and Safety of Inhaled Insulin in Diabetics with Chronic Obstructive Pulmonary Disease.
Infants of < 1500 grams of birth weight who require a > 1 week mechanical ventilation (breathing machine) or CPAP [continuous positive airway pressure] (oxygen at a high flow through the nose) may have prolonged oxygen requirements. The nasal cannula (oxygen through the nose at a low flow) is the most commonly used method of oxygen administration, despite a lack of data regarding its safety and efficacy. Low birth weight infants are vulnerable to obstruction from secretions and blood, as well as the presence of the nasal cannula. Partially obstructed nostrils greatly increase the work of breathing. Additional potential adverse effects include an increased need for suctioning, increased risk for systemic infection, and inadvertent positive end expiratory pressure (CPAP). No study has been conducted to evaluate the efficacy of the nasal cannula compared to an oxygen hood (plastic "hood" that is placed over the infant's head to provide oxygen) on gas exchange or infection. Among infants who require supplemental oxygen (by either a nasal cannula or an oxygen hood) for clinical indications, objectives the investigators hope to accomplish in a randomized blinded (investigator) trial: Aim 1: To determine the short-term effect of different flows of oxygen by the nasal cannula on transcutaneous PCO2 (PTCO2). Aim 2: To determine, once optimal flow is established in Aim 1, the effect of prolonged (one week) use of a nasal cannula compared to an oxygen hood on PTCO2.
This is a study to evaluate the effectiveness and tolerability of a once-daily oral medication (MK-0873) for the treatment of COPD (chronic obstructive pulmonary disease) to determine whether the study drug leads to an improvement in pulmonary (lung) function, as well as symptoms, and quality of life.
In this proposal, we will implement a randomized controlled trial to determine whether nocturnal NIMV applied for 3 months: 1) improves (disease-specific) health related quality of life (HRQL) of COPD patients compared to a control group of patients treated with sham NIMV therapy (primary outcome); 2) improves exercise tolerance and walking capacity of COPD patients; and 3) improves heart rate variability and decreases sympathetic tone in COPD.
Open-label therapy will be administered to up to 220 patients, following completion of either InterMune Protocol GIPF-002 Part B or Protocol GIPF-004, to assess the long-term safety of subcutaneous Interferon gamma-1b. The study duration will be 5 years.
- Purpose: A phase 3, randomized, double-blind, placebo-controlled trial to determine the efficacy and safety of 200 µg of recombinant Interferon gamma-1b administered by subcutaneous (SC) injection, compared with placebo, in patients with IPF - Enrollment: Approximately 800 patients will be enrolled from approximately 80 centers in North America and Europe - Randomization: 2:1 active-to-placebo ratio - Duration: at least 2 years active drug or placebo (rescue therapy will be permitted for patients who meet predefined criteria)
The goal of this clinical research study is to learn if the drug nesiritide (Natrecor) is effective in lowering the pressure in your lungs. The primary objective of this study is to establish that Nesiritide (Natrecor) is effective in reducing pulmonary hypertension (PHTN) acutely as measured by a 20% reduction in the mean pulmonary arterial (PA) pressure. The secondary objectives will include: improvement in pulmonary vascular resistance (PVR), patient symptoms, exercise tolerance, frequency of toxicity, and surgeon's willingness to proceed with operation.
Study GIPF-003 is a Phase 3b study designed to define better therapeutic use of IFN-gamma 1b in patients wtih IPF. The study will be conducted primarily in Europe and will enroll 210 patients.
The purpose of this program is to evaluate the logistic issues and patient requirements for chronic pulsed INOmax delivery in ambulatory, home-care patients. To understand patient needs, patients with a variety of underlying diseases will be included. Safety of chronic therapy will be monitored by serial measurements of methemoglobin, platelet function assay and reported adverse events.