Active clinical trials for "Hypertension, Pulmonary"

Pulmonary hypertension (PH) is a serious condition characterized by a mean pulmonary artery pressure >=25mmHg on right heart catheterization (RHC). Despite advances in PH care, outcomes are still sub-optimal and further research is required into the pathobiology of the disease and development of biomarkers that can guide clinical care. The investigators are establishing a biobank to collect samples (blood, urine, stool) from patients with pulmonary hypertension, patients at high risk for pulmonary hypertension, healthy controls, and patients undergoing right heart catheterization. Specimens will be stored for future investigations.

The aim of this study is to investigate the underlying inflammatory profile in patients with chronic lung disease and determine the association pulmonary hypertension.

The study aim to assess right atrial (RA) remodeling, in terms of RA fibrosis, in pulmonary arterial hypertension and chronic thromboembolic pulmonary hypertension patients. This will be investigated in detail with in-depth cardiac magnet resonance imaging (CMRI). A cohort with exclusion of pulmonary hypertension which underwent CMRI due to dyspnoe of unkown reason will be the control group.

Arrhythmias are considered a prominent phenomenon in pulmonary hypertension (PH) as the disease progresses. According primarily to retrospective studies with up to 24 hours of monitoring, supraventricular tachycardias (SVT) can be found in 8-35% of patients, with significant impact on survival. Furthermore, a few prospective studies to date deploying short-term monitoring (10 minutes-24 hours) have revealed lower heart rate variability (HRV) in patients with pulmonary arterial hypertension (PAH). In ASPIRE arrhythmias and heart rate variability is being assessed via long term monitoring.

Giessen Pulmonary Hypertension Registry and Biobank

In view of the manifold options for mono- and combination therapy that have now emerged for patients with pulmonary (arterial) hypertension (PH/PAH), controlled clinical trials can only provide part of the information needed for optimal management. In order to gather adequate data on PAH/PH treatment in routine clinical care, the ongoing COMPERA registry prospectively documents consecutive patients with newly initiated treatment of PAH/PAH since May 2007. The internet-based registry fulfills high quality standards through several measures (planned minimum centre contribution of at least 10 patients per year, automated plausibility checks of data at entry, queries, monitoring with source data verification in >50% of participating centers). It can be applied, among further purposes, for quality assurance: individual centers can confidentially compare their results with the combined outcome of other centers and the recommendations from guidelines. It is expected that the register contributes to optimization of specific drug therapy for PAH and PH. Since July 2013, also children of any age can be documented (COMPERA-KIDS).

The chief regulator of resistance in pulmonary arterial hypertension (PAH) is the small arteries. In the heart, the invasive measurement of the resistance of the small arteries has been shownto be safe, easy, reliable, and prognostic. This study is intended to translate prior work in heart arteries to the PAH space and invasively measure the resistance of the small arteries of the lung (pulmonary index of microcirculatory resistance [PIMR]) and the coronary artery supplying the right ventricle (acute marginal of the RCA; RV-IMR). Importantly, these measurements will be made during standard of care cardiac catheterizations (right heart catheterization [RHC] +/- left heart catheterization). The correlation between these new indices and the standard ones measured during RHC typically used to determine the severity of pulmonary hypertension will be analyzed. In addition, among newly diagnosed patients, the study will evaluate how these indices change 6 months after starting treatment. Finally, the association of these indices with clinical outcomes at 1 year will be assessed. The findings from this study may deliver an immediate impact to patient care by identifying a new metric to help better identify those who may benefit from a more intensive, personalized treatment regimen.

This observational study aims to assess correlation of right atrial strain measured by two-dimensional speckle tracking echocardiography with intraoperatively measured pulmonary artery pressures, other indices of right ventricular function and short term postoperative outcome.

This is a prospective, longitudinal, observational study of free-living activity trackers and patient reported outcomes to test the hypothesis that daily activity will have stronger prognostic value than 6MWD in patients with pulmonary hypertension after 12 weeks.

Pulmonary arterial hypertension (PAH) is a disease characterized by obliteration and remodeling of small-caliber pulmonary arteries, progressively generating an increase in pulmonary vascular resistance, right heart failure, and death. Current guidelines recommend a multidimensional approach which includes clinical, echocardiographic, exercise and hemodynamic variables to classify patients by risk and thus define a prognosis and guide therapeutic decisions. There is a wide range of studies, which have shown a good correlation between standard echocardiography and portable cardiac ultrasound. There is no doubt about the usefulness of portable cardiac ultrasound in the intensive care unit, emergency department and even during hospital rounds; however, its usefulness during the daily examination in a follow-up consultation of patients at high risk of cardiovascular deterioration, such as patients with PAH, has not yet been demonstrated. There is evidence that a TAPSE measurement <17mm using standard echocardiography by a physician experienced in echocardiography predicts survival in patients with Pulmonary hypertension. We would like to know if patients with low TAPSE will have a higher proportion of morbidity events compared to patients with normal TAPSE measured by portable ultrasound.