Active clinical trials for "Pulmonary Arterial Hypertension"

Primary pulmonary hypertension (PPH) is a rare lung disorder in which the blood pressure in the pulmonary artery rises far above normal levels for no apparent reason. The pulmonary artery is a blood vessel carrying oxygen-poor blood from the right ventricle (one of the heart's pumping chambers) to the lungs. In the lungs, the blood picks up oxygen, then flows to the heart's left side, where the left ventricle pumps it to the rest of the body through the aorta. In the United States, an estimated 500 to 1,000 new cases of primary pulmonary hypertension are diagnosed each year. The greatest number is reported in women between ages 20 and 40. However, men and women in all age ranges as well as very young children can develop PPH. Researchers have identified more than 40 BMPR2 mutations that can cause primary pulmonary hypertension. Many of these mutations introduce a stop signal that halts protein production prematurely, decreasing the amount of functional BMPR2 protein. Other mutations prevent the BMPR2 protein from reaching the cell surface, or alter its structure so it cannot form a complex with other proteins. It remains unclear how BMPR2 mutations cause primary pulmonary hypertension. Researchers suggest that a mutation in this gene prevents cell death or promotes cell proliferation, resulting in an overgrowth of cells in the blood vessels of the lungs. Cell overgrowth can narrow the diameter of the vessels, restricting blood flow and resulting in elevated blood pressure. However, it has not yet been reported regarding the genetic variants in Taiwan. Further details have been described in this project proposal.

Chronic thromboembolic pulmonary hypertension (CTEPH) is caused by scarred blood clots in the blood vessels supplying the lungs. This in turn leads to failure of the right side of the heart. The reason why these scarred clots form is unknown. An operation to remove the scarred clots, known as pulmonary endarterectomy, is a potential cure. However, some patients have persistent obstructions within the blood vessels and heart failure even after surgery. It is thought that abnormal levels of proteins, found in the blood stream and responsible for inflammation and the development of new blood vessels may have role in causing the disease. In this study, these proteins were measured to assess whether they provide clues as to the cause of the disease and whether they could be used for the risk stratification of patients.

Pulmonary Arterial Hypertension is a progressive disease that has no cure. Patients die young and are limited in their daily activity. Current treatments only treat the symptoms of the disease rather than the underlying cause. At least 1 in 5 patients has a change in a gene called the bone morphogenetic type 2 protein (or BMPR2). Extensive evidence supports the concept of addressing the reduced levels of the BMPR2 protein to reverse disease. Through work already undertaken by this group, two potential therapies which increase BMPR2 have been identified for use in a future randomised control trial. In order for a clinical trial to be informative we need an accurate way of measuring the protein or the effects of the protein (known as a biomarker). This study will use blood samples taken from 17 patients and 30 healthy participants over various time-points (2-5 visits over 5 weeks for healthy controls; 2 visits, approximately four months apart for patients). Laboratory work will help identify the best biomarkers for subsequent therapy studies. By defining the best biomarkers we can speed up the drug development in this rare disease.

Prospective observational drug registry developed to characterize the safety profile (including primarily potential serious hepatic risks) and to describe clinical characteristics and outcomes of patients newly treated with Opsumit in the post-marketing setting.

This study is looking for high blood pressure in the lungs (Pulmonary artery hypertension PAH) in HIV and COPD patients.

The purpose of this study is to evaluate the strategy of initiating double oral combination therapy with bosentan and sildenafil at the time of diagnosis of pulmonary arterial hypertension (PAH) in a preliminary way.

Cardiac magnetic resonance imaging has emerged as a potential valuable test for the early detection of Pulmonary Arterial Hypertension. A number of reports have provided some preliminary evidence that Pulmonary Artery (PA) stiffness may be accurately detected by imaging of the pulmonary artery in order to measure PA stiffness. In addition, cardiac MRI could play provide early and effective treatment for Pulmonary Arterial Hypertension (PAH).

pulmonary arterial hypertension (PAH) has been reported with a prevalence of approximately 30% in adult sickle cell disease (SCD) patients, with an increased mortality in SCD patients with PAH, compared with those without PAH. The identification of several hemolysis biomarkers such as lactate dehydrogenase, bilirubin, reticulocytes or hemoglobin level, has clearly documented a link between hemolysis and PAH. However, other physiopathological mechanisms may be involved to explain PAH in these patients, such as pulmonary thromboembolism, pulmonary fibrosis or left heart diastolic and / or systolic dysfunction. The investigators suggest studying HTAP in patient's presenting the most frequent both drepanocytic syndromes, SS and SC and homogeneous in their medical coverage and the association between HTAP risk and specific SCD complications.

Pulmonary arterial hypertension (PAH) involves the narrowing of blood vessels connected to and within the lungs. Focal adhesion kinase (FAK) is a focal adhesion-associated protein kinase involved in cellular adhesion and spreading processes which leads to stiffening and thickening of blood vessels in lungs. This further increases the blood pressure within the lungs and impairs their blood flow. This study aims to demonstrate biodistribution of FAK inhibitor, GSK2256098, in cardiopulmonary sites i.e. heart and lung tissues. The uptake of 11C-radiolabelled GSK2256098 within the lung and / or heart of healthy subjects and idiopathic pulmonary arterial hypertension (iPAH) patients will be assessed using Positron Emission Tomography (PET). Based on study results the decision as to whether a follow-on phase 2 trial should be initiated to investigate the therapeutic utility of GSK2256098 in iPAH will be decided. Sufficient number of subjects will be screened (up to 30 days prior to scan) to enrol 12 healthy subjects and 12 PAH patients in the study. Enrolled subjects will receive a microdose of [11C]-GSK2256098 on a scanning day which will be followed by the follow-up visit (2-4 weeks post-last dose).

The Opsumit Users registry (OPUS; NCT02126943) was developed to characterize the safety profile of Opsumit and to describe clinical characteristics and outcomes of patients newly treated with Opsumit in the post-marketing setting. It is expected that the recruitment target of the OPUS registry cannot be achieved within the planned time period (5000 Opsumit new users by October 2018). The OrPHeUS study is designed to supplement the OPUS registry with retrospectively identified first-time Opsumit users in order to achieve the desired sample size.