View clinical trials related to Pulmonary Artery Hypertension.
Filter by:The aim of the study is that evaluation of basic and accessory respiratory muscles and their relationship of six minute walk test in patient with pulmonary arterial hypertension (PAH)
This observational study is being done to understand why people with scleroderma can develop pulmonary arterial hypertension (high blood pressure in the lungs, abbreviated PAH) and a weak heart muscle (heart failure). The study will also help the investigators understand why people with PAH from an unknown cause (called idiopathic PAH, or IPAH) can also develop a weakened heart muscle. The response of the right side of the heart or right ventricle (RV) to standard PAH therapy in scleroderma-associated PAH and in IPAH will be assessed. Blood and tissue samples will be collected from research participants during participants' normal standard of care procedures. People with scleroderma-associated PAH or idiopathic cause (IPAH) who need a right heart catheterization may join this study.
The primary objective for this trial is to determine the effect of GB002 (seralutinib) on improving pulmonary hemodynamics in subjects with World Health Organization (WHO) Group 1 PAH who are Functional Class (FC) II and III. The secondary objective for this trial is to determine the effect of GB002 (seralutinib) on improving exercise capacity in this population.
This study investigated the effect of 12 weeks of aerobic training on sleep quality and aerobic fitness in patients with Pulmonary arterial hypertension(PAH).
In pulmonary arterial hypertension (PAH), progressive pulmonary vascular remodeling leads to supraphysiologic right ventricular (RV) afterload. Pharmacologic trials have shown that aggressive upfront treatment reversing pulmonary vascular remodeling successfully increases RV function and improves survival. To date, however, there are no proven treatments that target RV contractile function. Echocardiographic studies of RV dysfunction in the setting of pressure overload have demonstrated intra and interventricular dyssynchrony even in the absence of overt right bundle branch block (RBBB). Electrophysiologic studies of patients with chronic thromboembolic disease (CTEPH) at the time of pulmonary endarterectomy have shown prolongation of action potential and slowed conduction in the right ventricle which has correlated with echocardiographic measures of dyssynchrony. Cardiac MRI measures of RV strain in patients with PAH demonstrated simultaneous initiation of RV and left ventricular (LV) contraction, but delayed peak RV strain suggesting that interventricular dyssynchrony is a mechanical rather than electrical phenomenon. Prior studies of RV dysfunction in an animal model, computer model, congenital heart disease, and CTEPH have suggested acute hemodynamic benefits of RV pacing. However, RV pacing has not been studied in patients with PAH. Furthermore, it remains unclear if pacing particular regions of the RV can achieve a hemodynamic benefit and what cost this hemodynamic improvement may incur with regards to myocardial energetics and wall stress. Therefore, the investigators propose to examine RV electrical activation in PAH, map the area of latest activation, and then evaluate the hemodynamic and energetic effects of RV pacing in these patients.
The purpose of this study is the evaluation of PAH in patients, who are treated with DAA medication for HCV infection.
Pulmonary arterial hypertension (PAH) is characterized by the progressive increase in pulmonary vascular resistance ultimately leading to right ventricular (RV) failure. Its prevalence is estimated at 40-60 persons per million and predominantly affects people between 20 and 60 years of age. Newly available therapies have improved the 3-year survival to >80%. This improvement in prognosis brings new challenges for clinicians: PAH has changed from a rapidly fatal disease to a chronic disorder with persistent exercise limitation and poor quality of life. Many observations suggest that exercise limitation in PAH is not simply due to pulmonary hemodynamic impairment, but that other determinants are involved. Interestingly, even in absence of obesity or diabetes, insulin resistance (IR) and metabolic syndrome (MS) are highly prevalent amongst PAH patients and associated with worse outcomes. Indeed, lipid accumulation in skeletal muscle (a feature of IR) is observed in both human and experimental model of PAH, but its impact on skeletal muscle function and thus exercise intolerance in PAH remains elusive. Over the past years, several pathophysiological pathways activated by MS have been identified, including the downregulation PPARg/PGC1a and the insulin signalling pathways, especially the insulin-receptor substrate 1 (IRS1)-mediated one. The decrease in these axes is associated with lipid accumulation and impaired mitochondrial function. The investigators previously reported in PAH lungs that the downregulation of these pathways contributes to the establishment of the Warburg effect. This metabolic unbalance contributes to pulmonary artery smooth muscle (PASMC) proliferation, and resistance to apoptosis contributing to PA remodelling. The investigators recently documented that PAH skeletal muscles are less perfused and are also characterized by the presence of a Warburg effect. These features were independent of daily life physical activity. Nonetheless, the origin of these abnormalities and their impact on skeletal muscle function have never been studied. The investigators propose to determine whether or not MS seen in PAH patients impairs mitochondrial functions through an IRS1/PPARg/PGC1-dependent mechanism, which will ultimately decrease skeletal muscle function and perfusion, and thus overall exercise capacity.
The primary objective of this study is to determine the impact of two interventions against insulin resistance on the composite endpoint of 10% improvement in baseline six minute walk distance or improvement in World Health Organization (WHO) functional class in humans with pulmonary artery hypertension (PAH).
The collected data from the Zurich Registry for pulmonary Hypertension (PH) are evaluated in a retrospective analysis. This study examines the number of patients and their exact diagnoses who are treated at the University Hospital of Zurich and potentially other participating in the Zurich Registry. Other demographic parameters such as age, gender and body-mass-index are also part of the evaluation. Furthermore, the analysis will focus on the newest guidelines on PH. Therefore, it will be checked how many patients would fulfill the therapeutic goals in terms of New York Heart Classification (NYHA), 6-minute walk distance, sign of right heart failure and N-terminal pro-brain-natriuretic peptide(NTproBNP). Additionally, the study examines on how the patients are treated. Despite the different kind of Drugs, the focus lies on the combination therapy (single, double, triple) and the impact the therapy had on the patients.
The objective of the present study is to assess blood coagulation disorders in patients with Pulmonary Arterial Hypertension and Chronic Thromboembolic Pulmonary Hypertension. The investigators aim to evaluate any possible coagulation abnormalities related to the patients' primary disease and any possible effects the pulmonary hypertension- specific therapy may have on hemostasis.