View clinical trials related to Mitral Regurgitation.
Filter by:ARB-PMCF is a multicenter, observational study of the safety and performance of Abbott annuloplasty devices used in surgical repair of mitral and tricuspid valve regurgitation. The devices included in this study are the SJM™ Rigid Saddle Ring and SJM Séguin Annuloplasty Ring, indicated for mitral valve repair, and the SJM Tailor™ Annuloplasty Ring and SJM Tailor Annuloplasty Band, indicated for mitral or tricuspid repair. Participants will be enrolled prior to undergoing mitral or tricuspid valve repair surgery including an Abbott annuloplasty implant and will complete annual follow-up visits through five years from implant. The study is being conducted to meet post-market clinical follow-up requirements of the European Union Medical Device Directives.
This is an investigator initiated, prospective study to demonstrate the safety and feasibility of implantation of the V-Wave Interatrial Shunt System (herein called the "V-Wave Shunt" in patients immediately following percutaneous mitral valve repair using the MitraClip system.
Mitral Valve repair (MVr) is the gold standard treatment for primary Mitral Regurgitation. Implantation of artificial Gore-Tex chordae (or neochordae implantation) is often used for MVr. The NeoChord DS1000 (NeoChord Inc., Minneapolis, USA) is a device designed to deploy neochordae through transapical access in a beating heart and without cardiopulmonary bypass. NeoChord System is CE marked and therefore authorized for use in Europe. Procedure is conducted under 3D transesophageal echocardiography (TEE) guidance. The device is introduced through the apex of the left ventricular (LV) and the prolapsed leaflet is grabbed and harpooned. The neochordae are thus stretched between the valve and the LV apex. Neochordae length can be precisely adapted to restore a normal coaptation, to treat the regurgitation. Recently, the principal investigator's teams (heart surgery department at Hospices Civils de Lyon and Laboratoire de Génie Electrique et Ferromagnétique lab at Institut National des Sciences Appliquées (INSA) de Lyon, France) created a platform allowing the measurement of the tension applied on neochordae during a NeoChord procedure. A dedicated protocol was designed and approved by the ethical committee of the French Society of Cardiology. The measurement was performed in 7 patients. This preliminary study shows that the technic is safe. It also suggests that chordal tension might be correlated to the quality of MVr: the sub-valvular apparatus appears to be in a low stress state when the structure and the function of the valve are restored. These first findings raise new questions: 1. The mechanism involved in the changes in tensions during chordal length adjustment cannot be understood with current standard medical imaging tools. Numerical simulation technologies could bring physical data in order to approach physical phenomenon underlying these findings. 2. Novel chordal tension measurement tools could lead to a change in current paradigm enabling a MVr based on objective data measurement, instead of sole morphological analysis. Prognostic value of chordal tension must be studied through a larger clinical study and a systematic protocol. A large consortium involving physicians and scientists has been created to address those questions, and a large national funding has been raised to fulfil our objectives over a 4 years period (SIMR project). The present clinical study is the core of this large project.
This multinational, investigator-initiated, retrospective study aims to investigate outcomes of patients, who underwent transcatheter mitral valve implantation (TMVI), in comparison to those screened for TMVI but deemed ineligible, who subsequently underwent interventional mitral valve edge-to-edge repair, mitral valve surgery or medical/conservative therapy.
This comparative diagnostic accuracy study will determine the accuracy of a noninvasive wearable infrasonic sensor to detect the mechanical, electrical, and hemodynamic function of the cardiovascular system.
To establish the safety and effectiveness of the DragonFly transcatheter mitral valve repair system in symptomatic patients with moderate to severe and severe mitral regurgitation who have been determined to be at an high risk of mortality with mitral valve surgery by the cardiac surgeon with concurrence by the local Heart Team
The study proposes to develop a phenylephrine protocol to be used during transesophageal echocardiography, whereby intravenous phenylephrine would be used to increase afterload with the intent to mimic the awake hemodynamic profile and variation that occurs with normal physical activity. The expectation is to see changes in severity of Mitral Regurgitation (MR) grade with increasing afterload, which in turn can provide more accurate quantification of MR severity to assist in clinical decision making.
To identify changes on mitral valve morphology and functionality by the application of the PascalTM in MR.
This study is a prospective, single-arm, multi-center feasibility clinical study of the SATURN TA System for the treatment of NYHA Class ≥ II patients with severe functional mitral regurgitation who are not suitable for surgical treatment following Heart Team assessment.
The 3D-PRIME study will analyse whether use of 3D echocardiography can improve risk stratification and cardiovascular outcome in patients with mitral regurgitation of different etiologies.