View clinical trials related to Pulmonary Hypertension.
Filter by:Pulmonary hypertension is a progressive and life threatening condition. It is characterized by severe remodeling of the pulmonary vessel wall, obstructive plexiform lesions, multi-focal thrombosis, and enhanced vasoconstriction. All of these characteristics contribute to increased pulmonary vascular resistance. Circulating endothelial microparticles (EMPs) play an integral role in the pathogenesis and perpetuation of pulmonary hypertension. Levels of EMPs are considered a reliable biological parameter of endothelial injury. We propose to assess the evolution of both circulating and pulmonary venous EMPs in patients with PH. Assessments will be made before and after initiation of Endothelin-1 (ET-1) Receptor blocker therapy, and correlated to their patterns with the changes in mean PAP, the 6 Minutes Walking Distance test, and circulating Endothelin-1 values. Measurements of the endothelial microparticle circulating levels (assessed by flow cytometry methods) will be made before, 1 month and 3 months after initiation of therapy.
The objective of this surveillance is to collect information about 1) adverse drug reaction not expected from the LPD (unknown adverse drug reaction), 2) the incidence of adverse drug reactions in this surveillance, and 3)factors considered to affect the safety and/or efficacy of this drug.
Over time, patients with fibrosing or interstitial lung disease (ILD) can develop high lung blood pressures (pulmonary hypertension), and this is associated with poorer prognosis and survival. It is thought that development of PH contributes to the deterioration and death of patients with ILD. Endothelin-1 (ET1) is a substance contributing to the development of both PH and ILD. Bosentan is a drug blocking the action of ET-1 by binding to its receptors. Bosentan clearly benefits patients with PH of unknown cause, or related to other diseases (such as heart conditions, or HIV) both alone and in combination with other treatments. In patients with fibrosing lung disease and PH, there have been no controlled treatment studies. Clearly it is important to evaluate the effectiveness of bosentan in these patients. This study aims to determine the ability of bosentan to reduce high blood pressure in the lungs (pulmonary hypertension) in patients with scarring (fibrosing) lung disease. It is a placebo-controlled double blinded study for 16 weeks (and it is proposed to follow patients in a 16 week open-label phase with bosentan therapy).
Current standard of the diagnosis and monitoring of PHNT requiring combination of invasive and non-invasive tests. The goal of the study is to correlate data from CT scans, echocardiograms, right heart catheterization, PFTs, sleep studies, and perfusion scans. The ultimate goal is to determine patterns of the PAH disease processes.
Pulmonary Arterial Hypertension (PAH) in the setting of Idiopathic Pulmonary Fibrosis(IPF)is a risk factor for morbidity and mortality in the peri-lung transplant(LT) setting. Currently there is no significant data to support the use of pulmonary vasodilators for PAH in the setting of interstitial lung disease such as IPF. The majority of IPF patients have PAH either at rest or during exercise. The study hypothesis is that sildenafil may improve morbidity and mortality in the peri-LT setting in both IPF cohorts with either resting or exercise PAH.
The prevalence of an increased pulmonary blood pressure amongst patients with chronic obstructive pulmonary disease (COPD)is unclear. So is the impact of abnormal pulmonary blood pressure on symptoms. The aim of this study is to determine the prevalence of an increased pulmonary blood pressure in 200 patients with COPD. Furthermore we will investigate if lung function test results and blood tests can predict an increased pulmonary blood pressure, and explore whether COPD patients with a high pulmonary blood pressure have more symptoms that their co-patients.
This pilot study was a randomized, placebo-controlled, clinical trial to test the safety of using the intravenous form of Prostaglandin E1 (PGE1) in an inhaled form for treatment of hypoxemic respiratory failure in term newborns. The study planned to enroll 50 infants diagnosed with hypoxemic respiratory failure at nine NICHD Neonatal Research Network sites, and randomly assign them to receive one dose over a 72-hour period of either high concentration PGE1 (300 ng/kg/min), low concentration PGE1 (150 ng/kg/min), or placebo (normal saline, the diluent for the drug). In addition to determining the safety, optimal dose, and duration of the therapy, this pilot trial planned to evaluate the feasibility of conducting a larger, multi-center randomized, blinded placebo-controlled trial.
Our goal is to determine clinically in Pulmonary Arterial Hypertension patients if associations exist between the efficacy and toxicity of sitaxsentan, bosentan, and ambrisentan and several gene polymorphisms in several key disease-specific and therapy specific genes. Also characterized is the relationship between these polymorphisms and the severity of Pulmonary Arterial Hypertension using either baseline hemodynamic or clinical surrogates for disease severity. Hypothesis: Polymorphisms influence the efficacy and toxicity of specific Pulmonary Arterial Hypertension therapy as well as development/severity of PAH via their effect on PA remodeling, drug response, or metabolism. This study requires a one time 8.5 ml blood sample and clinical data to be obtained at initiation of therapy, 4 months after initiation of therapy and 12 months after initiation of therapy.
The purpose of this study is to find out if the drug, Gleevec, is safe and effective in treating children with Pulmonary Hypertension.
The aim of the present study is to identify changes in the cardiovascular system in patients with pulmonary hypertension (PH) by magnetic resonance imaging (MRI). MRI is accepted as golden standard method for the evaluation of left and right ventricular morphology and function. All patients who showed elevated pulmonary pressure in the right heart catheter investigation are assigned to MRI. Parameters derived from MRI are included in the clinical and therapeutic decisions. Well established as well as new MRI parameters are evaluated and compared to the results of right heart catheter. Further age-matched controls without known cardiac or pulmonary disease are investigated by native MRI.