View clinical trials related to Pulmonary Hypertension.
Filter by:Aim of the study is to investigate whether Sildenafil treatment results in a reduction of pulmonary artery pressure without decrease of CO and in improvement of exercise capacity in HFpEF patients with PH.
The purpose of this study is to investigate the concentration-effect relationship of inhaled milrinone after prophylactic administration in cardiac surgical patients with preoperative pulmonary hypertension undergoing cardiopulmonary bypass.
Pulmonary hypertension (PH) is a life-threatening cardiovascular disease characterized by pathological elevation of mean pulmonary arterial pressure (mPAP) >/= 25 mmHg at rest. mPAP < 20 mmHg is defined as normal, values in the range between 21-24 mmHg are described as "borderline PH" diagnosed by right heart catheterization. Based on the etiology, PH is assigned to 5 groups (WHO, Data Point, 2008), whereas classification of disease is an important prognostic and therapy-deciding criterion. Cardiac magnetic resonance tomography (CMR) provides a reliable technique to estimate elevated mean pulmonary arterial pressure from period of existence of a vortical motion of blood flow in the main pulmonary artery. Vortex can be visualized in 3-dimensional vector field, particle trace and streamline representations and can be analysed with respect to vortex related measures (geometry of center, vortex formation, vorticity, propagation dynamics …). Furthermore T1-mapping and non-contrast enhanced lung perfusion/ventilation scans represent promising techniques for PH characterization. Aim of this explorative study is to 1. analyse PH-associated blood flow characteristics in the heart and the surrounding great vessels with respect to the 5 groups of PH, and 2. investigate the hemodynamic state of "borderline PH" compared to normal mPAP and manifest PH by non-contrast CMR.
Most patients with mitral valve disease are symptomatic with shortness of breath and a limited activity level prior to mitral valve surgery. Despite surgical repair or replacement of the mitral valve, many patients remain symptomatic with an impaired ability to live an active lifestyle. Often after extensive evaluation, no other pulmonary, left ventricular dysfunction, or valvular heart disease is responsible for the continued symptoms, and some of these patients will be limited by persistent pulmonary hypertension (PH) at rest or with exertion that is responsible for limiting their activity level and impacting their quality of their life. It is our goal in the proposed study to systematically characterize symptomatic and asymptomatic patients greater than six months after mitral valve surgery using clinical data, echocardiographic evaluation, laboratory assessment, and in some patients, invasive hemodynamic measurements. The investigators will screen asymptomatic and symptomatic patients with resting echocardiography and also with echocardiography during exercise, as many patients will exhibit exercise-induced PH following mitral valve surgery. Pulmonary artery (PA) pressure will be estimated from echocardiography using Doppler-derived calculations. If elevated PA pressures are observed with echocardiography, then symptomatic patients will undergo right heart catheterization for invasive pressure measurement, which is the gold-standard for the diagnosis of PH. When PH is present and there is a normal wedge pressure (PCWP) during invasive pressure measurement, further assessment to identify potential candidates for PH therapy will be performed. This involves having patients breathe inhaled nitric oxide, a rapid-acting, pulmonary vasodilator with a short half-life. While breathing inhaled nitric oxide, blood pressure, PA pressure, PCWP, and cardiac output will be monitored to characterize individuals who could benefit symptomatically from pharmacotherapy to treat underlying PH. It is important to note that only a small minority of patients exhibit a positive vasodilator response and those with PH and a normal PCWP without an initial vasodilator response would still be identified as candidates for chronic PH therapy. The information generated from this proposed research will make a significant contribution to the understanding of PH in a group of patients in whom it has not been previously studied. Scientific reports on the evaluation of patients with PH after mitral valve surgery are almost nonexistent from the modern era. Furthermore, patients with PH due to mitral valve disease have been excluded from clinical trials of agents currently approved by the U.S. Food and Drug Administration (FDA) to treat PH. Therefore, this work will carefully characterize PA pressures in an objective manner in a group of patients following mitral valve surgery who remain limited with respect to their activity levels. In addition, the investigators will gain a better understanding of the frequency with which patients have PH and a normal PCWP, which identifies a cohort of patients who could have an improvement in their symptoms and quality of life with chronic vasodilator treatment.
Sodium tanshinone IIA sulfonate (STS) is a water-soluble derivative of tanshinone IIA isolated as the main pharmacologically active natural compound from a traditional Chinese herbal medicine,the dried root of Salvia miltiorrhiza Bunge known as Danshen. Danshen has been known for the function of improving body functions such as activating blood circulation and removing blood stasis according to the theory of traditional Chinese medicine. Danshen and its various formula products including STS have been long-time widely used in oriental countries, especially China to treat various inflammatory and cardiovascular diseases for its pharmacological actions, including vasodilatation, anticoagulation, anti-inflammation, and free radical scavenging,with negligible adverse effects observed. The investigator's objective is to evaluate whether STS exhibits beneficial effects on pulmonary hypertension. This is a randomized, controlled, multicentre clinical trial study. 90 patients with pulmonary hypertension will be enrolled in this study.
Our main hypothesis is that inhalation of milrinone can reduce the elevated pulmonary arterial pressure due to severe mitral valve regurgitation without compromising systemic hemodynamics. Therefore, the effects of a brief inhaled milrinone (IH) on pulmonary artery pressure are determined and compared to those of intravenous milrinone (IV) in severe mitral regurgitation patients undergoing mitral valve surgery.
This protocol describes a 2-arm randomised controlled pilot study assessing the tolerance, safety and efficacy of sildenafil compared to control. The hypothesis is that sildenafil will be well tolerated and efficacious in patients with chronic heart failure (NYHA class II and III) with evidence of systolic dysfunction (EF ≤40 %) and secondary pulmonary hypertension (SPAP >40mmHg). Patients that satisfy the inclusion criteria will be randomized to sildenafil (40mg x 3) or placebo therapy for 6 months in a 2:1 blinded fashion. The placebo group will be compared to the active therapy group and analysed for differences in the main study end-points Patient Global Assessment and 6-Minute Walk Test. The study will also assess safety, tolerability, symptoms and quality of life.
The purpose of this research study is to learn about the safety of transplanting lungs obtained from non-heart-beating donors (NHBDs) that have been ventilated (attached to a breathing machine or ventilator to deliver oxygen) and perfused with a lung perfusion solution (Steen solution™, made by Vitrolife). This ventilation and perfusion will be done outside the body (ex-vivo) in a modified cardiopulmonary bypass circuit (the kind of device used routinely during most heart surgeries). The purpose of performing ex-vivo perfusion and ventilation is to learn how well the lungs work, and whether they are likely safe to transplant.
Pulmonary hypertension (PH) is defined as a pulmonary arterial mean pressure (meanPAP) ≥ 25 mmHg in the right heart catheterization. There are different forms of PH defined in the classification of Dana Point 2008. PH is diagnosed with right heart catheterization but there are other non invasive methods which can be used for screening like echocardiography, stress echocardiography and cardio pulmonary exercise testing. For prognosis of PH patients the limitation of the pulmonary circulation is very important. Therefore the cardiac index (CI) is a good parameter for the right ventricular function. The gold standard for CI measures is the thermodilution, an invasive method performed during right heart catheterization.
Pulmonary hypertension (PH) is defined as a pulmonary arterial mean pressure (meanPAP) ≥ 25 mmHg measured in the right heart catheterization. There are different forms of PH defined in the classification of Dana Point 2008. PH is diagnosed with right heart catheterization but there are other non invasive methods which can be used for screening like the echocardiography, stress echocardiography and cardio pulmonary exercise testing. In the diagnosis process and in the follow up of PH patients biomarkers like NTproBNP are helpful. There are no specific biomarkers for the disease which can make the diagnosis process easier and predict prognosis. The systematic data collection in a data base provides better information about patients in daily routine and clinical studies as well as in the design of new studies.