Active clinical trials for "Idiopathic Pulmonary Fibrosis"

Cough is one of the most reported symptoms, especially associated with respiratory diseases. Additionally, cough contains extremely insightful information regarding the patient's health. It is a symptom full of physiopathological information, which can be extremely helpful in clinical practice. However, cough is not currently used as a clinical biomarker given that: Cough is an extremely subjective symptom for patients (patients can't accurately describe and understand their cough's traits). There is currently no tool available to evaluate cough objectively and thoroughly. As such, there is an unmet medical need: solutions for objective cough monitoring and management. C-mo System is a novel non-invasive medical device, which performs an objective monitoring of the patient's cough for long periods of time. The C-mo System consists of a wearable device (C-mo wearable) and a desktop software (C-mo Medical Platform). C-mo System characterises cough automatically through data collection and processing techniques (automatic classification), and its base outputs include: Cough frequency (how many times the patient coughs) Cough intensity (how strong cough's expiratory effort is) Cough type (if the cough is dry, wet, or laryngeal) Identification of patterns (associations between cough characteristics and specific events, namely the time of day, body position, physical exercising, and meals). It is extremely important to validate C-mo System in a wide and diverse population, given the use of signal processing algorithms and artificial intelligence. C-mo System's base outputs will allow healthcare professionals to improve significantly the medical care associated with this symptom, namely: Speed-up and improve the accuracy of the diagnosis of several medical conditions, especially respiratory diseases. C-mo System's ability to objectively monitor cough will allow healthcare professionals to make associations between specific cough patterns and specific medical conditions. Optimize treatment prescription and monitor their effectiveness. C-mo System's objective assessment of cough will allow healthcare professionals to understand if a given therapy is working as intended. Objectively monitor chronic disease progression. C-mo System's monitoring of cough will allow healthcare professionals to objectively assess the progression of the patient's cough.

Dyspnea (i.e. breathlessness) and exercise intolerance are common symptoms for patients with interstitial lung disease (ILD), yet it is not known why. It has been suggested that muscle dysfunction may contribute to dyspnea and exercise intolerance in ILD. Our study aims to: i) examine differences in the structure and function of the leg muscles in ILD patients, ii) determine if leg muscle fatigue contributes to dyspnea and exercise limitation in patients with ILD, and iii) determine the effects of breathing extra oxygen on leg muscle fatigue, as well as ability to exercise in ILD patients.

The purpose of the PaTH Network IPF Clinician-Patient Partnership Cohort is to use clinical data from electronic health records (EHR) and patient reported outcomes (PRO) to answer questions of clinical importance to patients with Idiopathic Pulmonary Fibrosis, providers, and other stakeholders.

GSK3008348 is being developed as a treatment for IPF. A first-time-in-human study showed that single nebulized doses of 1-3000 micrograms (mcg) GSK3008348 in healthy volunteers were well tolerated, with pharmacokinetic (PK) exposures within the defined limits set in the protocol. The proposed study is a 2-cohort study of single doses, intended to evaluate the safety, tolerability and PK of the drug in participants with IPF not currently treated with pirfenidone or nintedanib, and to obtain preliminary information on target engagement. Cohort 1 will be a 2-period, randomized, double-blind, placebo-controlled group with at least 7 days washout between doses, and follow-up period of up to 7-14 days. Cohort 2 is optional. It will be designed to further explore safety and to provide additional information on the target engagement profile of GSK3008348. The total duration of the study will be up to 62 days.

This is a Phase 2, multicenter, multinational, randomized, double-blind, placebo-controlled study evaluating the efficacy, safety, pharmacokinetics (PK), quality of life and exploratory pharmacodynamics (PD) of two treatment doses of CC-90001, 200 mg and 400 mg, compared with placebo, when delivered once daily per os (PO) in subjects with idiopathic pulmonary fibrosis (IPF). This study is designed to assess response to treatment by using measures of lung function, disease progression, fibrosis on radiography, and patient-reported outcomes. It will also assess dose response.

The purpose of this study was to investigate the safety, tolerability and efficacy of VAY736 as potential therapy for the treatment of idiopathic pulmonary fibrosis (IPF).

The main objectives of this study are: Determine the difference in change from baseline in Six Minute Walk Distance (6MWD) when pulmonary rehabilitation (PR) is added to stable underlying nintedanib therapy in patients with idiopathic pulmonary fibrosis (IPF) Determine the difference in change in Quality of Life (QoL) when pulmonary rehabilitation (PR) is added to stable underlying nintedanib therapy in patients with idiopathic pulmonary fibrosis (IPF) Determine if there is an enduring effect in 6MWD, QoL and lung function from pulmonary rehabilitation (PR) when pulmonary rehabilitation (PR) is added to stable underlying nintedanib therapy in patients with idiopathic pulmonary fibrosis (IPF)

The main purpose of this study was to see how GLPG1690 works together with your current standard treatment on your lung function and IPF disease in general. The study also investigated how well GLPG1690 is tolerated (for example if you got any side effects while on study drug).

The main purpose of this study was to see how GLPG1690 works together with the current standard treatment on your lung function and IPF disease in general. The study also investigated how well GLPG1690 is tolerated (for example if you get any side effects while on study drug).

This is a phase I, randomized, blinded, placebo-controlled 9 subjects pilot safety run-in followed by an additional 16 randomized subjects for a total of 25 subjects. In the pilot phase subjects will be randomized into three treatment groups of allogenic mesenchymal stem cells and in the randomized phase subjects will receive either allogenic mesenchymal stem cells or matched placebo.