Active clinical trials for "Idiopathic Pulmonary Fibrosis"

The primary objective of this study is to investigate the effect of steady state pirfenidone on the pharmacokinetics of nintedanib and its metabolites following oral administration of 2403 mg/day pirfenidone and to investigate the effect of steady state nintedanib on the pharmacokinetics of pirfenidone at steady state following oral administration of 150 mg bid nintedanib. There will be two cohorts of patients; the first one will consist of patients not treated with pirfenidone or nintedanib, while the second one will consist of patients on pirfenidone treatment.

This Phase 2 study is to be conducted to evaluate the safety, tolerability, and activity of 400 mg of belumosudil orally (PO) once-daily (QD) compared to Best Supportive Care (BSC) in male and postmenopausal/surgically sterilized female subjects with Idiopathic Pulmonary Fibrosis (IPF). The primary objectives are to evaluate the: Change in Forced Vital Capacity (FVC) from baseline to 24 weeks after dosing with belumosudil 400 mg PO QD in subjects with IPF compared to BSC Safety and tolerability of belumosudil 400 mg PO QD when administered for 24 weeks to subjects with IPF compared to BSC

This study assesses the safety and efficacy of bardoxolone methyl relative to placebo in patients with pulmonary hypertension to determine the recommended dose range, evaluate the change from baseline in 6-minute walk distance (6MWD) and determine the effect of Bardoxolone methyl in pulmonary hypertension associated with connective tissue disease, interstitial lung disease, and idiopathic etiologies, including subsets of patients with WHO Group III or WHO Group V PH following 16 weeks of study participation.

Recent research studies have suggested that proteins called antibodies that are produced by the immune system might be involved in the lung damage of idiopathic pulmonary fibrosis (IPF). Antibodies produced by the immune system normal help to fight infections by attacking bacteria and viruses without harming our own tissues. In patients with IPF, there is evidence that certain antibodies (called autoantibodies) attack the lung and contributes to the injury and scarring that occurs in IPF. Our recent studies have found that many IPF patients appear to have excessive autoantibody levels in blood and lungs that might make their disease worse. Rituximab is a medication approved by the Food and Drug Administration (FDA) for the treatment of autoantibody diseases such as rheumatoid arthritis. Rituximab works by destroying B cells, a type of white blood cell, called a B-lymphocyte, which produce autoantibodies. In this research study, rituximab will be given into a vein to reduce the autoantibody levels that we believe might be contributing to the lung damage in IPF. This study is being conducted to determine if rituximab provides beneficial effects for IPF patients by decreasing further lung injury.

The investigator has recently studied markers of platelet activation in idiopathic pulmonary fibrosis (IPF) and found that in IPF patients there is a significantly increased platelet reactivity when compared with controls which is demonstrated by a concentration dependent increase in platelet-monocyte complex formation, platelet P-selectin expression and platelet fibrinogen binding in the presence of' the platelet agonists Adenosine diphosphate and L- Threonyl- L- phenylalanyl- L- leucyl- L- leucyl- L-argininamide (TFLLR). During platelet activation the platelets degranulate releasing numerous profibrotic cytokines including Transforming growth factor beta and Platelet derived growth factor that are recognised to be important in the pathogenesis of IPF. It is therefore plausible that the observed increased platelet reactivity in IPF contributes to the fibrotic process through local activation and degranulation with release of proinflammatory and profibrotic mediators within the pulmonary circulation. There is evidence that corticosteroid treatment may alter platelet adhesion, in a study of spontaneously hypertensive rat (SHR) increased circulating glucocorticoid, suppressed p-selectin expression. p selectin is a transmembrane protein present in the α granules of platelets. P selectin has a crucial role in platelet aggregation and platelet-leukocyte interactions, which are both potentially important mechanisms in the initiation and/or progression of tissue injury and development of thrombosis. In a study of patients with chronic obstructive pulmonary disease (COPD) exacerbation these were treated with either β agonists alone or β agonist and 40mg prednisolone and compared with a control group. At presentation the COPD patients had higher pulmonary artery pressure (PAP) higher p selectin and fibrinogen levels but lower Antithrombin III levels (AT III). The pulmonary artery pressure and fibrinogen levels were found to be significantly decreased in the steroid treated group whilst the p-selectin levels further increased in the non steroidal therapy patients. Rationale for the Current Study There is a significant unmet medical need for the treatment of IPF; the only medication approved for treatment of IPF in the United Kingdom (UK) is Pirfenidone and outside the UK there is none. The main goal of the current study is to evaluate the effect of Fostair on the biomarkers of platelet activation in IPF disease which the investigator believes play a pivotal role in the pathogenesis of IPF and whether this translates in to a clinically beneficial effect of Fostair on IPF disease.

This is an open-label Phase I/II trial to assess the feasibility and safety of combined plasma exchange (PEX), rituximab, and conventional corticosteroid administration on the outcome of hospitalized patients with acute IPF exacerbations. The specific aims of this study are: To assess the feasibility and safety of combined PEX, rituximab, and conventional corticosteroid administrations for the treatment of hospitalized patients with acute IPF exacerbations by monitoring indices of respiratory (PaO2) and cardiovascular function during the treatment interval. To assess the efficacy of combined PEX, rituximab, and conventional corticosteroid administrations for the treatment of hospitalized patients with acute IPF exacerbations on patient survival in comparison to historical controls. Patient survival for this investigation will be defined using the composite outcome of 60 day survival and/or survival to lung transplantation. Subjects between 18 and 80 years of age who have a confirmed diagnosis of IPF, and meet all the study requirements will be enrolled in this study. A total of 10 subjects of both genders and all ethnic backgrounds with acute IPF exacerbations hospitalized at University of Pittsburgh Medical Center will be enrolled in this study.

A Phase 2 open label, dose escalation study to find the minimally and maximum effective dose (dose beyond which no further effect on PVR is seen) of inhaled nitric oxide generated by the GeNOsyl® System compared to placebo.

Idiopathic pulmonary fibrosis is a relentlessly progressive disease that is responsible for the deaths of over 5000 people in the UK each year. At present, despite a dramatic increase in clinical trials in the last decade, there are no licensed treatments for IPF. The pathogenesis of the condition remains incompletely understood, nonetheless there is good evidence to suggests that the condition arises as the consequence of an aberrant wound healing response in genetically susceptible individuals. Basic science research into IPF has identified a wide range of potential treatment targets. However, in many cases developing compounds to act against these targets, because of their role in normal wound healing, is limited by the possibility of major systemic side effects. The lung is highly amenable to topical therapy in the form of inhaled drug preparations and this route is utilised in the treatment of the majority of respiratory disease. The inhaled route offers a number of important potential advantages for administration of therapy to patients with IPF. Firstly, by limiting systemic exposure to drugs, the inhaled route offers the potential for achieving higher lung doses of drugs that might otherwise cause systemic toxicity. Secondly, inhaled treatment may more effectively reach the areas of abnormality in IPF, namely the hyperplastic epithelium and the underlying fibroblastic foci. Thirdly, the inhaled route offers an alternative to parenteral administration of compounds that are poorly absorbed through the gastro-intestinal tract e.g. monoclonal antibodies. It should be noted however, that the fibrosis in IPF develops peripherally involving the alveolar interstitium and the terminal bronchioles. Furthermore, the disease causes architectural destruction and distortion of the lung that is liable to alter the normal laminar flow of air (and inhaled particles) through the bronchial tree. It is therefore, by no means certain that it is possible to deliver inhaled therapies directly to regions of fibrosis in IPF. The feasibility of delivering inhaled drugs in IPF has not been previously studied. This research by assessing the effect of particle size on inhaled particle deposition and by relating to this the pharmacokinetic profile of salbutamol aims to validate the potential of the inhaled route in IPF. This study is an important precursor to the development of specific topical therapies for patients with IPF.

The incidence and prevalence of IPF increase exponentially with age, and IPF occurs more often in older males. Cigarette smoking and environmental dust exposures are known risk factors for developing IPF. For example, the recently deployed military population, as it ages, is at especially increased risk of IPF. No effective therapies exist, although lung transplantation is used to extend survival of selected patients. Defining specific therapy to improve exercise tolerance and dyspnea in IPF patients is thus an urgent priority of veteran-oriented research programs.

The experimental drug CNTO 888 is currently being studied in cancer patients with solid tumors and this study is the first to use this drug for patients with idiopathic pulmonary fibrosis (IPF). This study tests the safety and effectiveness of CNTO 888 compared to placebo. The purpose of this research study is to determine if CNTO 888 is safe and to determine its effects (good and bad) on patients with IPF. The study will be conducted at approximately 28 sites globally. Patients can remain on usual, accepted treatment for IPF while enrolled in the study. Participating in other experimental studies or taking other experimental medications while participating in this study will not be allowed.