View clinical trials related to Pulmonary Arterial Hypertension.
Filter by:This is a US multi-center, prospective, real world, observational drug registry enrolling patients actively treated with Uptravi. Participating patients will be followed prospectively for a maximum of 18 months from the date of enrollment into the registry.
The main OBJECTIVE of this proposal is to extend our preclinical findings on the role of DNA damage and poly(ADP-ribose) polymerases (PARP) inhibition as a therapy for a devastating disease, pulmonary arterial hypertension (PAH), to early-phase clinical trials. We, and others, have published strong evidence that DNA damage accounts for disease progression in PAH and showed that PARP1 inhibition can reverse PAH in several animal models1. Interestingly, PARP1 inhibition is also cardioprotective. Olaparib, an orally available PARP1 inhibitor, can reverse cancer growth in animals and humans with a good safety profile, and is now approved for the treatment of ovarian cancer in Canada, Europe and the USA. The time is thus right to translate our findings in human PAH. The industry-sponsored clinical research on PARP1 inhibitor is currently entirely cancer-oriented. Nonetheless, AstraZeneca Canada accepted to support an early phase clinical trial through in-kind contribution, but the support from foundations and federal agencies is critical to catalyze early-stage development of PARP1 inhibitors for other indications, especially for orphan diseases. A CIHR Project Scheme grant will thus be submitted on September 15 2017, proposing a Phase 1, followed by a Phase 2 trial that will be conducted in recognized PAH programs throughout Canada. At this stage, however, we propose a pilot study to assess the feasibility of the proposed trials in the PAH population. The overall HYPOTHESIS is that PARP1 inhibition with olaparib is a safe and effective therapy for PAH. The primary objective of the study is to confirm feasibility, to support the safety of using olaparib in PAH patients, and precise the sample size of the coming Phase 1B trial. The feasibility of the comprehensive patient phenotyping that will be proposed within the phase 1B trial will thus be assessed, in addition to adverse events and efficacy signals. ***OPTION pilot trial was merged with the new OPTION multicenter trial (NCT03782818)***
In this prospective long term feasibility study we examine whether a goal oriented therapeutic strategy that is able to preserve right ventricular function will result in improved clinical outcome in patients with pulmonary arterial hypertension. We hypothesize that right ventricular function can only be preserved when early and aggressive medical combination therapy not only reduces pulmonary vascular resistance but also pulmonary pressures.
The primary objectives of this study are to determine whether the study drug, anastrozole may improve six minute walk distance at six months compared to placebo and to assess safety and side effects up to twelve months in pulmonary arterial hypertension (PAH).
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.
The development of selexipag for intravenous administration will be useful to avoid treatment interruptions in patients with pulmonary arterial hypertension (PAH) already treated with selexipag administered orally as tablets (Uptravi®). The target population for intravenous selexipag includes those PAH patients who are hospitalized and are unable to swallow tablets of Uptravi. The primary objective of this study is to assess whether it is safe for patients with PAH to temporarily change from selexipag tablets (Uptravi®) to selexipag given directly into a vein (intravenous selexipag), and then switching back to the initial oral dose of selexipag.
Pulmonary arterial hypertension (PAH) is a disorder of elevated pulmonary vascular resistance characterized by progressive remodeling and obliteration of vessels of the distal pulmonary circulation. Outcomes in PAH could be improved with earlier diagnosis, and with the early deployment of therapies before irreversible changes have occurred. This study tests the sensitivity of positron emission tomography (PET)-CT scanning with [89Zr]-bevacizumab, a radioisotope-conjugated anti-VEGF antibody for detecting pulmonary vascular remodeling in PAH disease. This test could enable non-invasive diagnosis early in the course of the disease, and potentially improve outcomes in PAH,
Background: A heart catheterization is a diagnostic heart procedure used to measure pressures and take pictures of the blood flow through the heart chambers. Magnetic resonance imaging (MRI) fluoroscopy shows continuous pictures of the heart chambers that doctors can watch while they work. Researchers want to test this procedure with catheterization tools routinely used in x-ray catheterization called guidewires. Guidewires will help move the heart catheter through the different heart chambers. Guidewires are usually considered unsafe during MRI because MRI can cause a guidewire to heat while inside the blood vessels and heart. Researchers are testing special low energy MRI settings that allow certain guidewires to be used during MRI catheterization without heating. Using these guidewires during MRI may help to decrease the amount of time you are in the MRI scanner, and the overall time the MRI catheterization procedure takes. Objectives: To test if certain MRI settings make it safe to use a guidewire during MRI fluoroscopy. Eligibility: Adults 18 and older whose doctors have recommended right heart catheterization. Design: Researchers will screen participants by reviewing their lab results and questionnaire answers. Participants may give 4 blood samples. Participants will be sedated. They will have a tube (catheter) placed in the groin, arm, or neck if they don t already have one. Patches on the skin will monitor heart rhythm. Special antennas, covered in pads, will be placed against the body. Participants will lie flat on a table that slides in and out of the MRI scanner as it makes pictures. Participants will get earplugs for the loud knocking noise. They can talk on an intercom. They will be inside the scanner for up to 2 hours. They can ask to stop at any time. During a heart catheterization, catheters will be inserted through the tubes already in place. The catheters are guided by MRI fluoroscopy into the chambers of the heart and vessels. The guidewire will help position the catheter.
Pulmonary Arterial Hypertension or PAH is a progressive condition for which there is no cure. Even with substantial pharmacologic advances in the modern treatment era, survival still remains unacceptably poor, as reported in large PAH registries. Preclinical studies suggest that the administration of allogeneic CDCs have the potential to reduce adverse arteriolar remodeling in PAH which was the basis for the approved investigational new drug (IND). The use of CDCs as an adjunctive therapy in patients comprising 4 sub-groups of patients with PAH in which inflammation and immune dysfunction are key pathophysiologic drivers of PAH.
The purpose of this research is to gather information on the safety and effectiveness of a new procedure called Fetoscopic Endoluminal Tracheal Occlusion (FETO).