View clinical trials related to Pulmonary Fibrosis.
Filter by:To better understand the clinical characteristics of Idiopathic Pulmonary Fibrosis (IPF) / Systemic Sclerosis-associated-Interstitial Lung Disease (SSc-ILD)/ Progressive Fibrosing Interstitial Lung Disease (PF-ILD) patients treated with nintedanib and biomarkers associated with the disease course, a non-interventional, 3-year, prospective study will be conducted to collect the long-term real-world clinical data on IPF/SSc-ILD/PF-ILD patients newly administered with nintedanib in Taiwan
Scarring of the lung, termed pulmonary fibrosis (PF), is a chronic, progressive, and usually fatal disorder. While two anti-fibrotic drugs have been approved for treating PF of unknown cause (idiopathic pulmonary fibrosis or IPF), neither drug is curative, and nearly 40% of patients stop taking the prescribed drug within a year because of side effects. The study includes the use of saracatinib, an investigational drug originally developed to treat certain types of cancers, in the treatment of IPF in a Phase 1b/2a clinical trial. The objectives of this study are to: i) evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics, and to explore the efficacy of saracatinib in IPF; ii) identify biomarkers of Src kinase activity and fibrogenesis linked to pulmonary fibrosis; and iii) explore the application of these biomarkers to assess the anti-fibrotic effect of saracatinib in IPF patients
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.
This is a multi-center, randomized, double-blinded, and placebo-controlled phase II study to evaluate the efficacy and safety of Jaktinib Hydrochloride Tablets in Participants With Idiopathic Pulmonary Fibrosis.
The purpose of this study is to compare the effect of n-acetylcysteine (NAC) plus standard care with matched placebo plus standard of care in patients diagnosed with idiopathic pulmonary fibrosis (IPF) who have the TOLLIP rs3750920 TT genotype. The study will compare the time to a composite endpoint of relative decline in lung function [10% relative decline in forced vital capacity (FVC), first respiratory hospitalization, lung transplantation, or all-cause mortality] The secondary objectives will be to examine the effect of NAC on the components of the primary composite endpoint, the rates of clinical events, change in physiology, change in health status, and change in respiratory symptoms.
Interstitial lung disease (ILD) refers to various diseases that occur idiopathic or secondary to some causes, commonly affecting the lung parenchyma, and present with varying degrees of inflammation and fibrosis. Idiopathic pulmonary fibrosis (IPF) progressing with progressive shortness of breath causes a decrease in exercise capacity and quality of life, restrictive changes in pulmonary function tests and a decrease in diffusion capacity. It has been reported that core stabilization exercises improve respiratory function, respiratory muscle strength and functional capacity in healthy individuals and some disease groups. It has also been reported that neuromuscular electrical stimulation (NMES) applied to lower extremity, upper extremity and back or quadriceps muscles reduces dynamic hyperinflation and dyspnea during exercise and increases exercise capacity in COPD patients.No studies have been performed using core stabilization exercises and NMES in IPF patients. It can be assumed that this therapeutic intervention may also be useful in IPF. Our study was planned to investigate the efficacy of core stabilization exercises and NMES in patients with IPF.
BERTHA study´s primary objective is to characterize Rheumatoid Arthritis-associated Interstitial Lung Disease (RA-ILD) progression and to define a combination of biomarkers, genetic and clinical variables capable of identifying patients at risk of RA-ILD progression
The purpose of this study is being done to determine whether magnetic resonance imaging (MRI) using inhaled hyper-polarized 129 Xenon gas can help visualize impaired lung function to detect changes over time in Idiopathic Pulmonary Fibrosis (IPF) patients receiving approved IPF treatments. Subjects will undergo an approximately hour long comprehensive MRI protocol, including administration of multiple doses of hyper-polarized 129 Xenon. The subjects will have this initial study prior to initiation of IPF therapies. Then the subjects will have repeat studies at 3, 6 and 12 months following the initiation of therapy. Additional studies including pulmonary function studies, serum for bio markers, 6 minute walk distance and a high-resolution computed tomography (HRCT) scan (only at the 6 month visit) will be performed to determine how 129 Xenon MRI performs relative to standard of care evaluations for IPF. The MRI uses a magnet and radio waves to make diagnostic medical images of the body. There have been no ill effects reported from exposure to the magnetism or radio waves used in this test. Risks of the xenon gas are slight numbness in legs, nausea, a feeling of well-being, and mild tingling in fingertips. You will have pulmonary function testing for the study, you may experience breathlessness or dizziness during or immediately following these tests.
The investigators aim to examine the genetic determinants of interstitial lung disease in a cohort of subjects with regular exposure to pigeons, a known cause of one form of interstitial lung disease known as hypersensitivity pneumonitis. In addition we will examine immunological causes for hypersensitivity pneumonitis in this group. We anticipate our work will provide insights of use to clinicians and patients with hypersensitivity pneumonitis and other interstitial lung diseases.
Interstitial lung disease (ILD) is a diverse group of parenchymal lung disorders characterized by restrictive lung function and impaired alveolar diffusion capacity, leading to dyspnea on exertion, reduced exercise endurance, and poor quality of life. Patients usually complain of progressive breathlessness, persisting non-productive cough, which occurs with exercise. Hemoptysis, fever, chest pain are also seen. The most common comorbidity in chronic lung diseases is the progressive loss of exercise tolerance. Not only dyspnea, but also peripheral muscle dysfunction and cognitive deficits such as, anxiety and depression are responsible for the reduction of mobility in the patient. In the context of pulmonary rehabilitation (PR) program to be applied in interstitial lung diseases; upper and lower limb endurance, stretching and relaxation techniques, aerobic exercise training, respiratory muscle training, training of energy conservation methods, support by determining oxygen requirement, nutritional evaluation, prevention of weight and muscle loss, psycho-social support. The purpose of PR programs in this disease is; to improve muscle strength, endurance, and mechanical activity, to improve dyspnea sensation, to improve functional capacity, to inform and educate the patient about the patient's disease. The use of whole body vibration (TVT) is an increasingly common method of therapeutic use in order to improve neuromuscular performance. TVT applications have shown that increases muscle activity, muscle strength and muscle strength, improves lower extremity blood circulation and balance, and increases growth hormone production. TVT training effects have rarely been studied in patients with pulmonary disease. Muscle strength and performance enhancement were significant effects of TVT, which was emphasized as a promising exercise method for those with chronic obstructive pulmonary disease (COPD). Over the past decade, endurance and strength training has been established as the most important components of exercise training programs in patients with COPD and ILD. Therefore, inclusion of TVT into exercise training programs in ILD patients may lead to beneficial results. The investigators hypotheses are: 1. the combination of home respiratory exercises with whole body vibration training may lead to more improved respiratory muscle strength, dyspnoea, functional capacity, balance, peripheral muscle strength and quality of life in ILD patients 2. when applied as an isolated intervention, home respiratory exercises programme may lead to lower results than combination programs.