View clinical trials related to Pulmonary Fibrosis.
Filter by: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: 1. Cough is an extremely subjective symptom for patients (patients can't accurately describe and understand their cough's traits). 2. 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.
Idiopathic Pulmonary Fibrosis (IPF) is a chronic progressive fibrotic lung disease resulting in increasing shortness of breath, cough, and low oxygen levels as a result of lung tissue scarring . The goal of this open-label (no placebo) study is to evaluate the safety and tolerability of artesunate at three different doses in patients with IPF. The secondary goals are to explore the blood biomarkers present in IPF patients at the beginning of the study and to study how those biomarkers change following treatment with artesunate. Participants will have 7 visits to the study site over 20 weeks which will include physician exams, vital signs, questionnaires, research and safety blood samples, and taking artesunate capsules by mouth for 12 weeks. Artesunate is used world-wide for the treatment of severe malaria but has also been found to block specific proteins that cause lung scarring and may provide an additional treatment to slow the fibrotic process in the lung and improve survival and quality of life for patients with IPF.
SRN-001 is a novel small interfering RNA (siRNA) drug being developed to treat fibrosis using Self Assembled Micelle inhibitory ribonucleic acid (SAMiRNA™) technology. Amphiregulin (AREG) is a growth factor involved in fibroblast proliferation and myofibroblast transformation which is the hallmark of fibrosis in lung and kidney tissues. AREG is a downstream gene overexpressed by Transforming growth factor-β (TGF-β) during fibrosis, promoting fibroblast to myofibroblast transition (FMT). SRN-001 is designed to downregulate generating amphiregulin by RNA interference (RNAi). The goal of this clinical trial is to evaluate safety, tolerability, and pharmacokinetics in healthy participants. This trial is first-in-human clinical trial to develop SAMiRNA™ to utilize as therapeutic use.
Orally administered ME-015 (Suplatast Tosilate) has been available on the market as a prescription drug for allergy-related conditions in Japan since 1995 with a very good safety and tolerability profile. There is preclinical and exploratory clinical evidence suggesting that ME-015 may be effective in treating cough caused by idiopathic pulmonary fibrosis (IPF-cough). 80% of patients with idiopathic pulmonary fibrosis (IPF) are affected by a devastating dry cough that is often not responsive to standard cough treatments and causes significant psychological and physiological suffering as well as reduced quality of life. As of July 2023, there is no approved treatment for the indication of IPF-cough. There is an enormous unmet clinical need for an effective, safe and well-tolerated oral treatment. The COSMIC-IPF Phase 2 trial is the first clinical trial assessing ME-015 for the treatment of IPF-cough and aims to generate clinical proof-of-concept results regarding the safety and efficacy of ME-015 in this condition.
The goal of this observational study is to investigate the role fibroblasts play in the persistent respiratory complaints after a COVID-19 infection. Fibroblasts are involved in tissue remodeling and repair by creating scar-tissue (fibrosis) after tissue damage has occurred. The hypothesis is that this process of fibrosis is ongoing in patients with persistent complaints. To evaluate the roll of fibroblasts a new type of scan is used that is capable of imaging active fibroblasts, a 68Ga-FAPI PET/CT scan.
Based on preclinical data, investigators hypothesize that apoptosis resistance in monocyte-derived macrophages (MDMs) have a decisive role in the development of idiopathic pulmonary fibrosis (IPF). Specifically, macrophages from subjects with IPF have increased expression of Bcl-2 in mitochondria. In preclinical models of IPF, a conditional deletion of Bcl-2 in MDMs reverses established fibrosis by inducing apoptosis. Additional evidence to suggest that Bcl-2 expression in MDM mitochondria is a therapeutic target for IPF as administration of the Bcl-2 inhibitor, ABT-199 (Venetoclax), showed marked efficacy in preclinical models of IPF by inducing apoptosis of MDMs and reversing established fibrosis. ABT-199 is an orally available mimetic of the BH3 domain of Bcl-2, which is the domain the anchors Bcl-2 in the mitochondria to inhibit apoptosis. ABT-199 has shown therapeutic efficacy and good safety and tolerability in patients with chronic lymphocytic leukemia. Investigators anticipate that treatment with ABT-199 could result in significant benefit for IPF patients that have a life expectancy of 3-5 years. As there is no curative therapy for IPF, this clinical trial has the potential to substantially alter treatment approaches in patients with IPF.
The goal of this clinical trial is to learn about INS018_055 in adults with Idiopathic Pulmonary Fibrosis (IPF). The primary objective is to evaluate the safety and tolerability of INS018_055 orally administered for up to 12 weeks in adult subjects with IPF compared to placebo.
This is a multi-center randomized, double-blind, placebo-controlled, parallel, 4-arm study of nalbuphine ER (NAL ER). After meeting eligibility during the Screening Period, subjects will be randomized (1:1:1:1) to one of four treatment arms. - Arm 1: Placebo - Arm 2: 27 mg nalbuphine ER - Arm 3: 54 mg nalbuphine ER - Arm 4: 108 mg nalbuphine ER Each arm will be titrated to their fixed dose during the blinded 2-week Titration period followed by the 4-week Fixed Dose Period for a total of 6 weeks on drug.
This study will assess the safety and tolerability of inhaled LTI-03 in treatment naïve participants with newly diagnosed IPF.
To compare the effect of daily oral dosing of leramistat over 12 weeks with placebo in participants aged 40 years or older with idiopathic pulmonary fibrosis (IPF).