View clinical trials related to Mitral Insufficiency.
Filter by:To demonstrate reduction of MR with durable performance and im-provements in functional status
Background: Computer aided auscultation in the differentiation of pathologic (AHA class I) from no- or innocent murmurs (AHA class III) via artificial intelligence algorithms could be a useful tool to assist healthcare providers in identifying pathological heart murmurs and may avoid unnecessary referrals to medical specialists. Objective: Assess the quality of the artificial intelligence (AI) algorithm that autonomously detects and classifies heart murmurs as either pathologic (AHA class I) or as no- or innocent (AHA class III). Hypothesis: The algorithm used in this study is able to analyze and identify pathologic heart murmurs (AHA class I) in an adult population with valve defects with a similar sensitivity compared to medical specialist. Methods: Each patient is auscultated and diagnosed independently by a medical specialist by means of standard auscultation. Auscultation findings are verified via gold-standard echocardiogram diagnosis. For each patient, a phonocardiogram (PCG) - a digital recording of the heart sounds - is acquired. The recordings are later analyzed using the AI algorithm. The algorithm results are compared to the findings of the medical professionals as well as to the echocardiogram findings.
Congenital mitral insufficiency is one of the most common valvular diseases in the pediatric population worldwide, carrying a high morbidity and mortality risk if not treated immediately and properly. Given that mitral replacement likely increased risk of cardiac dysfunction and mitral reoperation, mitral repair is the currently preferred surgical strategy in the majority of pediatric patients with mitral insufficiency. Unfortunately, previous evidences demonstrated the long-term hemodynamic alteration in response to significant mitral regurgitant might lead to a reversible or irreversible pulmonary vascular remodeling regardless of concomitant other cardiac malformations, which is associated with increased risk of morbidity and mortality following the surgery. Currently available researches mainly focused the association of pulmonary vascular pressures with risk of mortality and morbidity on adult rheumatic or degenerative mitral insufficiency; however, knowledge is still lacking regarding pediatric population with congenital mitral insufficiency. The investigator wil assess the relationship between baseline sPAP and risk of operative morbidity and mortality.
This study is a prospective, single-arm, multi-center feasibility clinical study of the Tendyne Mitral Valve System for the treatment of eligible subjects with symptomatic, severe mitral regurgitation and severe mitral annular calcification (MAC). Subjects satisfying the study inclusion/exclusion criteria will undergo a procedure to implant the Tendyne mitral valve replacement device.
Prospective, controlled, multicenter clinical investigation with four trial cohorts: Randomized, Non-repairable, Severe Mitral Annular Calcification (MAC) and Severe Mitral Annular Calcification Continued Access Protocol (MAC CAP). Subjects in the Randomized cohort will be randomized in a 1:1 ratio to the trial device or to the MitraClip system. Subjects in the Non-repairable, Severe MAC, and Severe MAC CAP cohorts will receive the trial device. The objective of the Clinical Trial to Evaluate the Safety and Effectiveness of Using the Tendyne Transcatheter Mitral Valve System for the Treatment of Symptomatic Mitral Regurgitation (SUMMIT) is to evaluate the safety and effectiveness of the Tendyne Transcatheter Mitral Valve System for the treatment of patients with symptomatic, moderate-to-severe or severe mitral regurgitation or for patients with symptomatic mitral valve disease due to severe mitral annular calcification. This randomized controlled trial will provide the opportunity to evaluate the safety and clinical benefits of the Tendyne Transcatheter Mitral Valve System compared to the MitraClip System in patients with symptomatic, moderate-to-severe or severe mitral regurgitation, within approved MitraClip indications. In addition, the safety and effectiveness of the Tendyne Transcatheter Mitral Valve System will be evaluated in patients with severe mitral annular calcification who are at prohibitive risk for mitral valve surgery. Patients who are not suitable for mitral valve surgery for reasons other than severe mitral annular calcification and are also not suitable for transcatheter repair with MitraClip, will be enrolled in the Non-repairable cohort. Subjects will be seen at screening, pre- and post-procedure, discharge, 30 days, 3 months, 6 months, and annually through 5 years.
To establish the safety and effectiveness of the Edwards Cardioband System in patients with functional mitral regurgitation (FMR).
The objective of the study is to confirm the reproducibility of the evidence of safety and efficacy of AVJ-514 System technology in Japanese subjects who have been deemed difficult for mitral valve surgery by the local site heart team.
The purpose of the study is to generate early US feasibility data of the CardiAQ™ Transcatheter Mitral Valve Implant System. The study will enroll patients with moderate to severe mitral valve regurgitation who are considered high risk for mortality and morbidity from conventional open-heart surgery.
The purpose of the study is to evaluate the initial short and long-term safety and performance of the CardiAQ™ Transcatheter Mitral Valve Implantation System using the Transapical Delivery System. The study will enroll patients with moderate to severe mitral valve regurgitation who are considered high or extreme risk for mortality and morbidity from conventional open heart surgery.
The purpose of this study is to determine whether intra- and postoperative use of the cardioPAT® cell saver decreases the need for allogenic red blood cell transfusion in patients, who undergo open heart surgery (with cardiopulmonary bypass) and preoperatively have an increased risk for bleeding.