View clinical trials related to Pulmonary Fibrosis.
Filter by:This study will evaulate the long-term safety, efficacy and pharmacokinetics (PK) of recombinant human pentraxin-2 (rhPTX-2; PRM-151) zinpentraxin alfa, administered by intravenous (IV) infusion to participants with idiopathic pulmonary fibrosis (IPF).
This is a Phase 1, 4-part, randomized, double-blinded, placebo-controlled study to evaluate the safety, tolerability, pharmacokinetics, and pharmacodynamics of TD-1058 inhaled solution. Part A is a SAD study in healthy subjects, Part B is a MAD study in healthy subjects, Part C is a multiple-dose study in subjects with IPF, and Part D studies lung bioavailability and renal elimination in Healthy Subjects.
Home sleep studies - which allow the measurement of breathing while the person sleeps - will be performed on patients with fibrotic interstitial lung disease attending two of the UK's largest respiratory medicine services.The study will investigate at how symptoms, and breathing and exercise tests differ between these two groups after 12 months of study.
Idiopathic pulmonary fibrosis (IPF) is a condition where scar tissue (called fibrosis) builds up in the lungs. It usually gets worse over time. Fibrosis causes the lungs to become stiff, and reduces the amount of oxygen that the lungs can take up. People with IPF complain of worsening breathlessness, which limits their day to day activities. Lung function tests are breathing tests that measure how well the lungs are working, and are used by doctors to decide whether to start or stop medicines in people with IPF. However, people with IPF tell us that lung function tests require a lot of effort, can make them cough and feel very short of breath. About 1 in 5 people with IPF are unable to perform lung function results accurately. Impulse oscillometry (iOS) is a new type of breathing test. It uses sound waves to measure the stiffness of the lung. The test is very quick (30 seconds), does not require any effort from the patient, and only requires a patient to breathe in their usual way. iOS has been used successfully in children who are unable to perform normal lung function tests. The investigators will assess whether people with IPF can perform iOS tests accurately and to compare their experiences of having iOS tests with their experience of performing current lung function tests. The investigators will also compare whether there is a relationship between iOS tests and the information gathered from the tests currently used by doctors to measure the impact of IPF (lung function tests, exercise tests, lung scans and questionnaires that measure quality of life).
Idiopathic pulmonary fibrosis (IPF) is a condition where scar tissue (called fibrosis) builds up in the lungs. It usually gets worse over time. Fibrosis causes the lungs to become stiff, and reduces the amount of oxygen that the lungs can take up. People with IPF complain of worsening breathlessness, which limits their day to day activities. Lung function tests are breathing tests that measure how well your lungs are working, and are used by doctors to decide whether to start or stop medicines in people with IPF. However, people with IPF tell us that lung function tests require a lot of effort, can make them cough and feel very short of breath. About 1 in 5 people with IPF are unable to perform lung function results accurately. This might unfairly lead to some people with IPF not receiving the right medications or for their medications to be stopped too soon. Impulse oscillometry (iOS) uses sound waves to measure the stiffness of the lung, and has been used successfully in children who are unable to perform normal lung function tests. The overall aim of the research is to see whether changes in iOS measures can give useful information about the lungs in patients with IPF; for example, by judging the overall impact of the disease on the lungs, or predicting future deterioration. We will look at how iOS changes over time in patients with IPF, and to see whether these measurements can tell us about whether IPF is getting worse or predict important health events, such as hospital admission. We will compare change in iOS with changes in other tests used to monitor IPF and with patient reported ratings of change in their condition. This will help decide the amount of iOS change that is noticed and considered meaningful by people with IPF.
Objectives: 1. To evaluate endurance time during cardiopulmonary exercise test (CPET) performance comparing standard oxygen therapy to high-flow nasal cannula (HFNC) oxygen therapy in subjects with idiopathic pulmonary fibrosis (IPF) with exertional desaturation. 2. To assess oxygenation level (peripheral and muscular) as well as dyspnea and fatigue during exercise in IPF subjects with exertional desaturation using oxygen supplementation with HFNC compared with standard oxygen supplementation. Method: multicenter crossover clinical trial. Patients with IPF presenting oxygen desaturation during the six-minute walking test (6MWT) (SpO2 mean ≤ 85%) will be included consecutively . Each subject evaluated will perform initially an incremental CPET to evaluate the patient's maximum exercise capacity. Supplemental oxygen will be applied to maintain SpO2 >85% with a Venturi mask. Maximum exercise capacity and the appropriate final oxygen inspiratory fraction (FiO2) needed for the following tests will be determined. Posteriorly each patient will perform two constant load CPET (at 75% of the maximum workload achieved with the incremental CPET); one with standard oxygen therapy and the other one with HFNC oxygen therapy. Endurance time, dyspnea and leg fatigue and oxygen saturation (peripheral and muscular) will be recorded. Evaluation measures: Endurance time, dyspnea and leg fatigue (Borg scale), and oxygen saturation.
This study plans to learn more about pulmonary fibrosis and how it develops. We want to determine if the disease can be detected early, before the lung is permanently scarred. This study will enroll participants who are not currently diagnosed with pulmonary fibrosis, but who have family members with pulmonary fibrosis. Because there is an increased risk within affected families, this cohort will allow us to learn how pulmonary fibrosis develops, and how the lungs change over time.
This phase III study will evaluate the efficacy, safety and pharmacokinetics (PK) of recombinant human pentraxin-2 (rhPTX-2; PRM-151) zinpentraxin alfa, compared with placebo in participants with idiopathic pulmonary fibrosis (IPF).
A randomized controlled trial to study the efficacy of low dose steroid for 14 days in the treatment of post-covid-19 lung infiltrates
The purpose of this study is to use the Medication Adherence Reasons Scale (MAR-Scale) to determine the extent of non-adherence to specific medications indicated to treat cystic fibrosis, hemophilia (A or B), idiopathic pulmonary fibrosis, myasthenia gravis, and sickle cell disease, and to identify the top patient-reported reasons for non-adherence. Internal reliability of the MAR-Scale will also be assessed in each condition.