View clinical trials related to Mitral Stenosis.
Filter by:Mitral valve disease is the most common structure heart disease, and surgical valve replacement is an important treatment for severe mitral valve disease. There are 2 types of valve often been used, mechanical or biological protheses valves. Mechanical valve requires lifelong use of anticoagulants and take the risk of bleeding through all lifetime, but bioprotheses valve do not..
In recent years increasing number of mitral bioprosthesis implantation, especially in elderly population, is observed. Bioprosthetic valves are associated with a lower risk of thrombotic and bleeding adverse events compared with mechanical prostheses, but their use is limited due to their durability. After years numerous patients may develop bioprosthesis failure, requiring valve reintervention. Significantly burdened ones are oftentimes disqualified or not referred to surgery redo. An emerging treatment method for these patients is transcatheter mitral valve-in-valve implantation as an alternative to re-operation. This technique is applied with the use of devices previously dedicated to transcatheter aortic valve implantation (TAVI). Recent papers prove that transcatheter mitral valve replacement (TMVR) is a safe and effective procedure when performed in a selected group of high-surgical-risk patients. However, data regarding the Polish population are limited. Therefore, the aim of the study is to create a nationwide registry, collecting data from all Polish centers performing TMVR in order to describe the population of patients developing mitral bioprosthesis failure, evaluate their follow-up after TMVR as well as results of the transcatheter valvular intervention and identify potential limitations of the procedure.
Consecutive patients with severe mitral stenosis and clot in left atrial appendage (LAA) on transesophageal echocardiography fulfilling the inclusion criteria will be recruited for this study. An ACUSON 128-XP echocardiographic system equipped with omniplane and biplane transesophageal probes will be used for this study. TEE followed by CT Angiography will be performed according to the standard procedure after obtaining informed consent.
A prospective multicenter study enrolling high surgical risk patients with severe mitral annular calcification (MAC) and symptomatic mitral valve dysfunction (severe stenosis, ≥ moderate to severe regurgitation, or mixed ≥ moderate stenosis and ≥ regurgitation). There are 2 Arms in this study: 1) "Transseptal (TS) Valve-in-MAC" (ViMAC) Arm, and 2) Natural History of Disease Registry (NHDR) for patients treated with medical treatment only (which includes patients who meet inclusion criteria but can't be treated with transeptal ViMAC due to the presence of anatomical exclusion criteria or other exclusion criteria) and have not had other procedures that may impact outcomes (i.e., alcohol septal ablation or radiofrequency ablation). The study also includes a Registry of Permanently Unassigned" for subjects who undergo preemptive septal ablation procedures (alcohol or radiofrequency) in anticipation of continuing onto ViMAC arm, but are not accepted in the ViMAC Study arm or the patient chooses not to undergo ViMAC procedure.
Atrial fibrillation (AF) is the most common sustained cardiac arrythmia encountered in clinical practice and patients suffer from this are at increased risk of ischemic stroke and systemic thromboembolism due to the formation and embolism of left atrial thrombi. Current international guidelines recommend non-vitamin K oral anticoagulants (NOACs) for stroke prevention amongst these patients with non-valvular AF at significant ischemic stroke risk, given the superior safety and comparable efficacy of NOACs over warfarin. However, warfarin therapy remains in the stroke prevention strategy for AF patients with mitral stenosis (MS) as NOACs lack of evidence for safety and efficacy amongst this group of patients. A local study is initiated to compare and evaluate the safety and efficacy among the two groups of anticoagulants - NOACs and traditional Warfarin therapy - in AF patients with underlying moderate to severe MS.
Objective propose: to investigate the effect of Ramipril in suppressing ST2 (suppression of tumorigenicity 2) in the cardiac mitral valve in patients with Rheumatic Heart Disease. We hypothesized that we hypothesized that ramipril will improve rheumatic mitral valve fibrosis through the downregulation of ST2.
Vasoconstrictive signaling via endothelin receptors is not limited to primary pulmonary arterial hypertension, but has also been documented in secondary pulmonary hypertension due to congestive heart failure, including cardiac valve disease. The investigators aim to examine the clinical and physiologic effects of bosentan therapy in patients with secondary pulmonary hypertension due to severe, inoperable cardiac valve disease, using a single-center, prospective, open-label, non-randomized study of oral bosentan in outpatients with severe mitral stenosis due to childhood rheumatoid fever. Primary end-point will be exercise capacity at six months determined by six-minute walking distance and cardiopulmonary exercise testing. Secondary end-points will be symptomatic relief, echocardiographic left ventricular function and pulmonary pressure, serum pro-brain natriuretic peptide, and adverse events at six months.