View clinical trials related to Pulmonary Hypertension.
Filter by:The purpose of the study is to determine whether the excretion of renal water- and salt-channels in the urine reflects the handling of water and salt in the kidneys, and whether the excretion can be used to monitor and/or predict the effects of treatment of certain heart or lung diseases.
In Patients with rheumatic disease exercise training is a well established element of therapy. In contrast patients with severe pulmonary hypertension are advised to avoid physical exertion and must not perform exercise training. This study aims to evaluate the effectivity and safety of a low-dose training program in patients with pulmonary hypertension and rheumatic disease.
Severe CTEPH leads to an impaired physical capacity and a restricted quality of life and poor prognosis. Pulmonary endarterectomy represents the best choice as therapy, when the thrombi are located in the central pulmonary vessels and therefore can be operated. By this operation the pulmonary artery pressure can be normalised and the patients' survival improved. Up to now, after successful endarterectomy patients only receive anticoagulation. Despite operation many patients remain symptomatic and are restricted in their physical capacity. Therefore a hypothesis of this project is that most of the patients, even after successful operation, show peripheral vascular remodelling with a ventilation-perfusion mismatch and elevated pulmonary pressure during exercise. In this study we aim to analyse how many patients with CTEPH after endarterectomy show elevated pulmonary artery pressures at rest or during exercise and are limited in their physical capacity, hemodynamics, oxygen uptake and quality of life and need further therapy. Another aim is to examine whether exercise and respiratory therapy may improve the patients postoperatively. Therefore 30 patients with CTEPH > six months after endarterectomy, with ongoing restricted exercise capacity shall be included. After baseline examination in the University hospital Heidelberg the patients receive exercise and respiratory therapy for three weeks. The patients will receive further examinations at the end of rehabilitation after 3 weeks and after 15 weeks. All examinations include medical history, family history, physical examination, ECG and echocardiography at rest and during exercise, cardiopulmonary exercise testing, assessment of the respiratory muscle strength, the SF-36 questionnaire for quality of life, laboratory testing and MRI. Rehabilitation will be conducted in the clinic for rehabilitation Koenigstuhl, Heidelberg. Participants will be randomised into two groups, a control group receiving a conventional therapy for three weeks, in which physical exertion is to be avoided and a training group with additional exercise and respiratory therapy.
Primary pulmonary hypertension (PPH) is a rare lung disorder in which the blood pressure in the pulmonary artery rises far above normal levels for no apparent reason. The pulmonary artery is a blood vessel carrying oxygen-poor blood from the right ventricle (one of the heart's pumping chambers) to the lungs. In the lungs, the blood picks up oxygen, then flows to the heart's left side, where the left ventricle pumps it to the rest of the body through the aorta. In the United States, an estimated 500 to 1,000 new cases of primary pulmonary hypertension are diagnosed each year. The greatest number is reported in women between ages 20 and 40. However, men and women in all age ranges as well as very young children can develop PPH. Researchers have identified more than 40 BMPR2 mutations that can cause primary pulmonary hypertension. Many of these mutations introduce a stop signal that halts protein production prematurely, decreasing the amount of functional BMPR2 protein. Other mutations prevent the BMPR2 protein from reaching the cell surface, or alter its structure so it cannot form a complex with other proteins. It remains unclear how BMPR2 mutations cause primary pulmonary hypertension. Researchers suggest that a mutation in this gene prevents cell death or promotes cell proliferation, resulting in an overgrowth of cells in the blood vessels of the lungs. Cell overgrowth can narrow the diameter of the vessels, restricting blood flow and resulting in elevated blood pressure. However, it has not yet been reported regarding the genetic variants in Taiwan. Further details have been described in this project proposal.