View clinical trials related to Pulmonary Fibrosis.
Filter by:This is a dose escalation/dose finding, double-blind, placebo-controlled, parallel study of GSK2126458 in subjects with IPF. The study is designed to explore a number of doses of GSK2126458 for engagement of pharmacology after short term dosing. It is anticipated that approximately 24 subjects will be enrolled in this study. Actual number of cohorts in this study could vary up to a maximum of 6 cohorts (n=4/cohort; 3 on active and 1 on placebo). Each cohort will consist of four subjects who will be randomised to receive GSK2126458 (three subjects) or placebo (one subject) for approximately 8 days (7 to 10 days). On Day 1 they will receive their first dose of GSK2126458 (or placebo) and safety, tolerability and PK/PD in the blood will be measured for up to 8 hours post-dose. Subjects will then be discharged from the site with study drug until the last day of dosing. They will also receive hand held spirometers and instructions on action to be taken in case of deterioration in pulmonary function or any other adverse events (AEs). On the last day of dosing they will return to the site for a repeat of the Day 1 procedures. A bronchoalveolar lavage (BAL) and [18F]-fluoro-deoxyglucose (FDG)- positron emission tomography / computed tomography (PET/CT) scan will be conducted twice during the study; once, at least 2 days before dosing commences and again during the course of the dosing period. After the final subject in each cohort has completed dosing, a dose escalation meeting will take place. Safety and tolerability and PK data will be reviewed during this meeting and decisions made may include but are not limited to: escalate the dose, decrease the dose or repeat the same dose in the next cohort; stop the study.
Drug discovery can take many years especially since most studies to measure effectiveness depend on clinical outcomes like pulmonary function tests and hospitalizations. This is an observational study designed to collect information, blood, and bronchoalveolar lavage fluid in people who have IPF and those who do not. The people who have IPF will be followed for 12 months to collect more biological samples and record clinically relevant information. The goal of this study is to identify new molecular markers that are measurable and reliable in people who have IPF. It is hoped that these markers can be used in future drug studies to significantly speed up the process of finding drugs that help.
Idiopathic pulmonary fibrosis (IPF), a manifestation of chronic progressive fibrosing interstitial pneumonia,ia a rare disease. Current treatment options are limited, and the mean survival time of the newly diagnosed (mostly elderly) patients is only about 2-3 years. As in Europe data are limited on the characteristics and management of such patients, INSIGHTS-IPF was initiated as a new registry that documents newly diagnosed (incident) and prevalent patients with confirmed IPF diagnosis prospectively.The registry will contribute to the optimization of the management of IPF patients in the long term.
RESOLVE's objective is to identify and characterize validated molecular targets capable of shifting primary organ repair towards fibroproliferative wound healing. Work package 2 (WP2) of RESOLVE includes the clinical study protocols within the RESOLVE system evaluating different forms of pulmonary repair in humans ranging from normal repair over mainly inflammatory to predominantly fibroproliferative repair. Hypothesis Fibrosis of the lung is an aberrant and intensified form of wound healing. It is the result of an unresolved disturbance of both initiation and control of repair which is partly age-related. As a result of the relentlessly activated wound healing reaction, mechanisms of inflammation largely representing the condition of chronic inflammation within the peripheral bronchial tree will aggravate this abnormal form of repair. A systematic comparison of the molecular pathology of fibrotic repair representing - Varying intensity of fibrosis related to the pathology of usual interstitial pneumonia (UIP), - Varying inflammatory mechanisms (UIP vs. Hypersensitivity pneumonitis [HP], acute and chronic), and - Varying stages of age (Normal pulmonary repair in young and old individuals vs. acute/chronic HP vs. UIP) will be able to - identify molecules capable of shifting regular repair towards fibroproliferative repair and - elucidate their interrelationship with other molecules forming coordinated yet misdirected metabolic responses characteristic for fibroproliferative repair.
Background: Portable oxygen concentrators (POCs) featuring the latest integrated oxygen conserving devices (OCDs) provide greater patient accessibility and mobility during ambulation and travel. Recent POCs are compact, lightweight, battery-operated, and require no refill-time, thus meeting patients' clinical and lifestyle needs. There is, however, a lack of research on the clinical performance of the latest POCs that could help to determine their ability to maintain patients' oxygen saturations ≥ 90 % during exercise. Aim: The purpose of this study is to compare the ability of three POCs, with maximum oxygen production capabilities of 950 to 3000 ml per minute, to maintain oxygen saturations ≥ 90 % in patients with chronic lung disease during exercise. Method: Six minute walk tests (6-MWTs) will be administered in order to measure oxygen saturations by pulse oximetry (SpO2) in up to 20 patients with a diagnosis of either Chronic Obstructive Pulmonary Disease (COPD), or Pulmonary Fibrosis (PF) with documented exertional oxygen desaturations of ≤ 85% on room air. All participants will participate in 4 different 6-minute walk tests: the first will be a control walk performed with the participants' current oxygen system set at their prescribed exertional flow rate. Then, the participants will perform a walk test with each of the three POCs set at the units' maximum pulse dose setting. The order in which the participants use the POCs will be randomly assigned using a sequence generator. Hypothesis: It is hypothesized that all three POCs will provide oxygen saturations ≥ 90 % during exercise in patients with chronic lung disease with moderate to severe exertional oxygen desaturation.
The recent literature shows an increased incidence of obstructive sleep apnea (OSA) in patients with idiopathic pulmonary fibrosis (IPF). On the other hand there are no published studies related to CPAP treatment in this patient group. The investigators aim was to assess the effect of CPAP on sleep and overall life quality parameters in IPF patients with OSA and to recognize and overcome possible difficulties in CPAP initiation and acceptance by these patients.
The purpose of this study is to assess whether 6% hypertonic saline (HS) is a safe and effective preventive therapy in newborns and infants with cystic fibrosis (CF).
The aim of this extension trial is to assess the long-term safety of BIBF 1120 treatment in patients with Idiopathic Pulmonary Fibrosis who have completed one year treatment and the follow up period in the double-blind phase III placebo controlled parent trials (1199.32 and 1199.34), who wish to continue treatment with BIBF 1120.
The purpose of this research study is to learn about the safety of transplanting lungs obtained from non-heart-beating donors (NHBDs) that have been ventilated (attached to a breathing machine or ventilator to deliver oxygen) and perfused with a lung perfusion solution (Steen solution™, made by Vitrolife). This ventilation and perfusion will be done outside the body (ex-vivo) in a modified cardiopulmonary bypass circuit (the kind of device used routinely during most heart surgeries). The purpose of performing ex-vivo perfusion and ventilation is to learn how well the lungs work, and whether they are likely safe to transplant.
Primary Objective: To assess in adult patients with Idiopathic Pulmonary Fibrosis (IPF) the safety and tolerability of ascending doses of SAR156597 administered subcutaneously (SC) once weekly over a 6-week period. Secondary Objectives: To assess in adult patients with IPF: - The pharmacodynamic effects of SAR156597, as measured on pulmonary function tests (PFTs), pulse oximetry and patient reported outcome and peripheral blood biomarkers. - The trough plasma concentrations of SAR156597 - The potential immunogenicity of SAR156597.