View clinical trials related to Pulmonary Hypertension.
Filter by:There is growing evidence that a cause of glaucoma is linked to circulatory problems and poor auto-regulation of blood flow to the optic nerve. Pulmonary hypertension (PH)is a disease characterized by low oxygen levels in the blood and altered blood circulation. The decrease in oxygen delivery to the optic nerve could lead to the loss of nerve fiber layer(NFL)in the retina and the resulting visual field compromise. This situation is characteristic of glaucoma. The ability to identify NFL thinning early could lead to earlier diagnosis of glaucoma and more effective treatment to limit dysfunction from visual field loss. We hypothesize that the rate of structural damage to the NFL, a feature of glaucoma, is higher in patients with PH than expected in healthy populations lacking this disease.
This study is to determine whether bosentan will alter exercise capacity after rapid ascent to high altitude. We hypothesize that bosentan administration will improve arterial oxygenation and exercise capacity.
AMB-220-E is an international, multicenter, open-label study examining the long-term safety of ambrisentan (BSF 208075) in subjects who have previously completed Myogen study NCT00046319, "A Phase II, Randomized, Double-Blind, Dose-Controlled, Dose-Ranging, Multicenter Study of BSF 208075 Evaluating Exercise Capacity in Subjects with Moderate to Severe Pulmonary Arterial Hypertension".
This Phase 2 study was to determine the incidence of increased serum aminotransferase concentrations (alanine aminotransferase [ALT] and/or aspartate aminotransferase [AST]), as well as the overall safety and tolerability of ambrisentan, in participants with pulmonary arterial hypertension (PAH), idiopathic PAH (IPAH), or familial PAH (FPAH) who had previously discontinued ERA therapy (bosentan or sitaxsentan) due to increased serum ALT or AST concentrations.
The primary objective of this study was to evaluate the safety and efficacy of ambrisentan in a broad population of participants with pulmonary hypertension (PH). Secondary objectives of this study were to evaluate the effects of ambrisentan on other clinical measures of pulmonary arterial hypertension (PAH), long-term treatment success, and survival.
The purpose of this study is to determine the timeline of progression from pre-pulmonary hypertension to diagnosable pulmonary hypertension based on right heart catheterization. Moreover, to determine the timeline for progression from diagnosable pulmonary hypertension to clinical worsening of disease as defined as death, hospitalization, or worsening of PHT symptoms.
The purpose of this 8-week study is to compare the effects of switching from therapy with epoprostenol or Flolan to IV Remodulin. This study will also assess the effect that changing to Remodulin will have on patient satisfaction with their treatment and impact on quality of life.
The REVEAL Registry™ is a multicenter, observational, U.S.-based study of the clinical course and disease management of pulmonary arterial hypertension (PAH) patients. All consecutive consenting patients diagnosed with WHO Group I PAH according to specific hemodynamic criteria at participating institutions will be enrolled. Participating patients will be followed for a minimum of five years from the time of enrollment.
This study will explore how people with sickle cell disease (SCD) develop a complication called pulmonary hypertension (PHTN), a serious disease in which blood pressure in the lungs is higher than normal. PHTN is also caused by HIV, hepatitis C and schistosomiasis. Patients who have both SCD and one of these other infections may develop more severe PHTN. The number of Nigerians with SCD who also have PHTN is not known, nor is the cause of PHTN in this population. This study will examine genetic material in people with and without SCD to determine whether certain genes will allow doctors to predict which patients with SCD are likely to develop PHTN. Nigerian males and females 10 years of age and older with or without SCD may be eligible for this study. Patients must have SS, SC, or SB thalassemia or other genotype; control subjects must have hemoglobin A or AS genotype. Participants undergo a complete medical history and physical examination, blood tests, electrocardiogram (EKG), ultrasound tests of the heart and abdomen, and a 6-minute walk (distance test) to determine exercise capacity. Blood tests include screening for HIV, hepatitis B and C, schistosomiasis, hookworm and malaria. Patients who test positive for HIV, hepatitis B or C, schistosomiasis, hookworm or malaria are referred for treatment at Ahmadu Bello University Teaching Hospital in Zaria, Nigeria, and those who test negative for hepatitis B are referred for vaccination. Genetic tests focus on genes involved in SCD, PHTN, inflammation, blood vessel function and red blood cell function.
This study will evaluate new treatments for people who have pulmonary hypertension, or high blood pressure in the lungs, caused by sickle cell anemia or thalassemia. Patients ages 18 and older with a diagnosis of sickle cell disease or thalassemia, who have mild to severe pulmonary hypertension, and who are not pregnant or breastfeeding may be eligible for this study. There are three stages in the study, with up to 200 participants in the screening. Patients will undergo pulmonary function tests, including those for asthma and measurement of oxygen levels in the arterial blood. They will have a chest X-ray, computed tomography (CT) scan of the lungs, ventilation perfusion lung scan to look for blood clots, echocardiogram, test to measure how far patients can walk in 6 minutes, nighttime oxygen measurement done while asleep, blood collection, magnetic resonance imaging (MRI) scan of the heart, and exercise test. About 3 to 4 days are needed for the tests, all of which can be done while patients are outpatients, except for the sleep study. For the CT scan, patients lie on a table while an X-ray beam takes images of the lungs and heart. The lung scan involves breathing of a small amount of a radioactive aerosol called Tc99m DTPA while pictures are taken of the lungs from various angles. Then an injection of albumin, a protein with a small amount of radioactivity, will be given, and more lung pictures will be taken. For the MRI scan, patients lie on a table that slides into a machine. A medication called gadolinium will be injected, to help improve images made through the scan. After the tests, patients will be admitted to the Clinical Center for 1 day. A small plastic catheter, or tube, will be placed in the vein of an arm. A longer catheter will go into a deeper vein (neck or leg), and a pulmonary artery catheter will be inserted to measure blood pressure in the blood vessels. Doctors will guide the catheter into the lung artery. Patients will be asked to pedal on a stationary bicycle while heart and lung pressure is measured. If pulmonary hypertension is present, patients will proceed to the second stage (up to 50 participants). While the catheter is still in place, patients will wear a face mask and breathe nitric oxide (NO) for 20 minutes. They will take 50 mg of sildenafil by mouth, and pressure in the heart and lungs will be monitored for about 4 hours. They will again receive NO for another 20 minutes. Blood samples will be taken, and the heart rhythm and pressure in the lungs will be monitored. Sildenafil can cause headache, flushing, and indigestion. Side effects of the lung scan involve allergic reactions to DTPA and albumin. Patients with an allergy to eggs should not have that test. Up to 25 patients can enter the third stage. They will breathe NO by using a tank of gas that delivers it through tubes to the nose, for a period of 6 weeks. They will continue taking sildenafil as previously prescribed and visit the clinic every 2 to 4 weeks for an echocardiogram, blood tests, and 6-minute walk test. After 6 weeks, patients will have catheterization of the heart again to measure pressure in the heart and lungs. Then NO will be stopped, and pressure in the lungs will be checked to see if NO has helped lower the blood pressure-and to make sure that the blood pressure does not increase when medication is stopped. Patients whose symptoms have improved as a result of breathing NO may wish to continue with that therapy.