View clinical trials related to Mitral Valve Prolapse.
Filter by:Mitral valve prolapse (MVP) is a frequent affection of the mitral valve or its sub-valvular apparatus with a prevalence of 2-3% in the general population. This valvular disease is generally considered as benign, but may at term evolve toward mitral valve regurgitation of various severity and/or arrhythmia. Mitral valve prolapse is routinely diagnosed using transthoracic echocardiography and only patients with significant mitral regurgitation will undergo subsequent examination (24-hour external loop recording, exercise ECG, cardiac MRI) and a close follow-up. External loop recording and exercise ECG have an interest in the identification of patients presenting with arrhythmic complications, such as premature ventricular contractions, and in the global evaluation of hemodynamic consequences of the mitral regurgitation. More recently, detection of myocardial fibrosis among patients with MVP and severe ventricular arrhythmia has been identified. Fibrosis could evolve independently of the valvular regurgitation's severity and could be a substrate (myocardial scar) leading to ventricular arrhythmia. However, no study has specifically characterized myocardial lesions among patients with MVP and none, or not significant, mitral regurgitation. Using cardiac magnetic resonance imaging (MRI), gold standard technique in myocardial imaging and characterization, and echocardiography, particularly speckle-tracking imaging, identification of static (fibrosis) and/or dynamic (ventricular systolic deformation patterns using speckle-tracking strain) myocardial lesions. Identification of patients with impaired deformation patterns, fibrosis or with premature ventricular contractions may isolate a sub-group of patients with a higher risk of severe ventricular arrhythmia for whom a closer follow-up could be justified.
The purpose of this study is to evaluate the safety and performance of the Harpoon Medical TSD-5. The Harpoon device will provide many significant advantages over current surgical interventions including: 1) a small minimally invasive incision, 2) no sternotomy, 3) no cardiopulmonary bypass, 4) no aortic manipulation, 5) a direct path to the valve plane, 6) performed on a beating heart, 7) real-time TEE-guided chordal length adjustment and 8) less complicated procedure that is teachable and adoptable.
The purpose of this study is to evaluate the safety and performance of the Harpoon Medical device. It is anticipated, that the Harpoon Medical device will provide advantages over current surgical interventions including: 1) a small minimally invasive incision, 2) no sternotomy, 3) no cardiopulmonary bypass, 4) no aortic manipulation, 5) a direct path to the valve plane, 6) performed on a beating heart, 7) real-time TOE-guided chordal length adjustment and 8) less complicated procedure that is teachable and adoptable.
Multicentre, double-armed, randomized controlled trial designed to compare mitral valve leaflet resection versus leaflet preservation with regards to the development of functional mitral stenosis following surgical repair of mitral valve prolapse. Patients will be randomized (1:1) to receive: (1) mitral valve repair with a leaflet resection or (2) mitral valve repair with leaflet preservation (using polytetrafluoroethylene neochordae), followed by echocardiographic and clinical assessment at 12-months following surgery.
The purpose of this preliminary clinical study is to assess the quality of a computational algorithm that automatically classifies murmurs of phonocardiograms (PCGs) as either pathologic (AHA class I) or as no- or innocent (AHA class III) in the pediatric population. Each patient is auscultated and diagnosed independently by a medical specialist by means of a standard mechanical stethoscope. Additionally, for each patient, a PCG is recorded using a Littmann 3200 electronic stethoscope and later analyzed using the computational algorithm. An echocardiogram is performed as the gold-standard for determining heart pathologies. The results of the computer aided auscultation (CAA) are compared to the findings of the medical professionals as well as to the echocardiogram findings. Hypothesis: The specific CAA algorithms used in this study are able to differentiate pathologic (AHA class I) from no- or innocent murmurs (AHA class III) in a pediatric population.
Mitral valve prolapse (MVP) is a relatively common cardial problem in which one or more of the leaflets of the mitral valve prolapse during systole into the left atrium. The disease is very heterogeneous and can vary from a benign disease with almost no impact on the patient's life to a severe cardiac problem with many complications and high mortality rate. The purpose of the study is to see if the investigators can find a relation between the severity of the MVP to the exercise capacity of the patient. The investigators also want to see if they can find a difference between the exercise capacity of mild MVP patients and healthy people. To evaluate the exercise capacity of the subjects the investigators use Cardiopulmonary Exercise Testing (CPET). CPET is probably the best known way to get a full picture of the subject's functions during exercise. By combining gas exchange monitoring and ECG during a controlled exercise in which the subject reaches maximal effort, the test gives information about the cardiac, the pulmonary and the metabolic functions of the subject. This information can help identify if there is a problem to perform exercise properly and more specifically if the limitation is due to a cardiac, pulmonary or metabolic problem.
The purpose of this study is to evaluate the safety and performance of the Harpoon Medical TSD-5. The Harpoon device will provide many significant advantages over current surgical interventions including: 1) a small minimally invasive incision, 2) no sternotomy, 3) no cardiopulmonary bypass, 4) no aortic manipulation, 5) a direct path to the valve plane, 6) performed on a beating heart, 7) real-time TEE-guided chordal length adjustment and 8) less complicated procedure that is teachable and adoptable.
The purpose of this double-blind pivotal clinical utility study is to determine on a large patient population whether heart murmurs can be reliably detected with high sensitivity and specificity using a locked, automated algorithm-based phonocardiogram analysis (also referred to as computer aided auscultation (CAA)). Each patient is auscultated and diagnosed independently by a medical specialist. Additionally, for each patient, an echocardiogram is performed as the gold-standard for determining heart pathologies. The CAA results are compared to the findings of the medical professionals as well as to the echocardiogram findings. Hypothesis: The specific (locked) CAA algorithms used in this study are able to automatically diagnose pathological heart murmurs in premature babies and newborns with at least the same accuracy as experienced medical specialists.
The investigators have successfully identified two novel genetic loci for MVP on chromosomes 11 and 13 and are searching for altered genes in these regions. This requires recruiting large families who may have MVP linked to these or other chromosomes; and obtaining DNA samples from 1,000-1,500 individually affected patients to study the relation between DNA markers throughout the genome and MVP. It is our expectation that the results of this study will lead to the discovery of gene(s) responsible for MVP. This will lead to improved understanding of the disease and, in turn, improved ability to treat and prevent progression in genetically susceptible individuals.
The purpose of this proof-of-concept study is to assess the relative safety and feasibility of the SJM Percutaneous Mitral Valve Repair (PMVr) Device.