View clinical trials related to Mitral Valve Repair.
Filter by:Rationale: Patients with mitral valve insufficiency suffer from left atrial remodeling. Atrial fibrosis is part of this remodeling process. The presence of atrial fibrosis is associated with adverse events. Currently, mitral valve repair surgery is the ultimate treatment for severe primary mitral valve insufficiency. The main indications and timing for surgery are severe mitral valve insufficiency with symptoms or left ventricular dysfunction. However, the role of atrial fibrosis in this process remains undetermined despite its well-recognized clinical implications. Characterization of atrial fibrosis patterns in mitral valve insufficiency patients might be potentially valuable for the indication and timing of mitral valve repair surgery in order to improve clinical outcomes. To date, however, mitral valve insufficiency patients suffering from left atrial remodeling have hardly been studied using these new imaging techniques. Therefore, the investigators intend to combine advanced cardiac MRI and post-processing techniques prior to and after mitral valve repair surgery to gain more insight in the clinical implications of atrial fibrosis in this patient population. It is hypothesized that the atrial fibrosis surface area paradoxically will increase after mitral valve surgery because of global shrinkage of the left atrium caused by the reversed remodeling process. As a consequence, more frequently atrial fibrosis related events including (paroxysmal) atrial fibrillation, may be observed in these patients. Objective: To assess the effects of (reduced) volume overload on the left atrial wall texture (presence, amount and location of atrial fibrosis) and associated geometry and function in patients with mitral valve insufficiency, prior to and after mitral valve repair surgery. Study design: Single center pilot study. Study population: The research population consists of mitral valve insufficiency patients scheduled for elective surgical mitral valve repair (N=20) according to the current European guideline criteria.
Primary objective: To compare the safety and efficacy of closure strategies post venous access procedures. Hypothesis: We anticipate that the use of a venous closure device will decrease the time to hemostasis (TTH), time to ambulation (TTA) and time to discharge (TTD) compared to conventional methods of closure following venous access procedure.
The ChordArt System is a novel catheter based technology for mitral chordal replacement that enables controlled implantation of artificial mitral chords to treat mitral regurgitation with a minimally invasive approach. The implant is designed to allow transfemoral antegrade implantation.
Mitral prolapse is a common cardiac disease whose patients are at higher risk for serious complications. Mitral valve (MV) repair offers several important advantages compared with valve replacement and it achieves excellent midterm and long-term results. Two major problems of using pre-measured expanded polytetrafluoroethylene(ePTFE) neochordae (the loop technique) are deciding the length of the neochordae and tying the knot at the intended length. Therefore, a great need still exists to find new method to simplify and precise the length of neochordae. 20 patients with mitral valve prolapse who undergo mitral valve repair using neochorda will be recruited in this study. Trans thoracic echocardiography (TTE) will be done preoperatively for all patients. Two, three, and four chamber view of each patient will be pre-operatively recorded. The device will be set with extracted measurements. Artificial corda loops are made using CV-4 ePTFE sutures. After artificial chordae replacement, the ring annuloplasty will be done. Follow up: A leakage test after attaching the 1st loop; Post operative trans esophageal echocardiography (TEE) and determining the severity of mitral regurgitation [Wall motion Score Index (WMSI), Mitral Annulus Area (MAA), LVEF, End Systolic Volume (ESV), End Diastolic Volume (EDV), Iso-Volemic Relaxation Time (IVRT), (IVRT/(QE-QE^') ,Chamber Relaxation velocity)/(Myocard relaxation velocity(E/E^' ), HR]; TEE 3 months after discharge; Cross clamp time; Intubation period in ICU.
The purpose of this study is to determine if blowing carbon dioxide into the surgical field during open-heart surgery to displace retained chest cavity air from the atmosphere will decrease the number of microembolic being introduced into the heart chambers and brain.