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NCT07384871
This study aims to develop and validate a fully automated imaging and modeling pipeline for the analysis of mitral valve prolapse (MVP) using real-time three-dimensional transesophageal echocardiography (RT3DE). The primary goal is to automatically segment mitral valve (MV) substructures, extract anatomical landmarks, and generate 3D models of the MV apparatus to characterize morphological and functional features of degenerative MVP. Advanced deep learning techniques and geometric processing tools will be applied to enable automated analysis. A secondary objective is to build patient-specific finite element (FE) models based on RT3DE data to evaluate the biomechanical consequences of MVP and to simulate the effects of surgical repair. These simulations will assess stress distribution and force transmission within the MV apparatus. Additionally, in cases where substantial surgical resection of MV tissue occurs, excised leaflet samples will be collected and preserved for histological and morphometric analysis.
NCT06378996
Mitral valve prolapse (MVP) affects up to 3% of the general population and a small subset of patients is at risk for ventricular arrhythmias. This subgroup is referred to as AMVP (arrhythmic MVP) and was recently defined using the following criteria: (1) Presence of MVP), (2) Ventricular arrhythmia that is either frequent (≥5% total premature ventricular contraction (PVC) burden on Holter) or complex (non-sustained ventricular tachycardia (nsVT), ventricular tachycardia (VT), or ventricular fibrillation (VF)), and (3) The absence of any other well-defined arrhythmic substrate. Currently, diagnosis is often based on repeated 24-hour Holter monitoring. However, the ventricular arrhythmia burden varies from day-to-day and long-term rhythm monitoring has shown in other pathologies to increase the diagnostic yield with up to 200% (from 22.5% on 24h to 75.3% on 14 days). This pilot study aims to study the diagnostic yield of long-term rhythm monitoring in patients with MVP as well as the day-to-day variability of ventricular arrhythmias to facilitate power calculation for a future large-scale prospective registry.
NCT06255457
Study objectives: * To assess the impact of mitral valve surgery for mitral regurgitation on ventricular arrhythmic burden and surrogate markers of fibrosis in patients with arrhytmogenic mitral valve prolapse (MVP) from baseline to 6 months after surgery * To characterize the molecular landscape of arrhytmogenic MVP Study design: -Prospective explorative observational study Study population: -90 patients with arrhytmogenic MVP and without arrhytmogenic MVP (controls) eligible for mitral valve surgery for mitral regurgitation will be enrolled. All patients will be evaluated with cardiac magnetic resonance (CMR) imaging and continuous seven day arrhythmic monitoring before and at 6 months after mitral valve surgery
NCT02768870
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.
NCT04852731
Mitral valve prolapse (MVP) is a frequent affection of the mitral valve 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. Subsequent examinations (24-hour external loop recording, exercise electrocardiogram, cardiac Magnetic Resonance Imaging) and a close follow-up can be proposed to the patient depending on its condition. More recently, detection of myocardial fibrosis and a mitral ring disjunction among patients with MVP were associated with the occurrence of severe ventricular arrhythmia. The investigators hypothesize that ventricular remodeling over time is mediated by the progression of mitral insufficiency severity from myocardial fibrosis secondary to MVP and possibly promoted by other mitral valve abnormalities. This remodeling, characterized by circulating biomarkers and imaging (MRI and echocardiography), could allow the identification of patients with a higher risk of severe ventricular arrhythmia. The main objective of this study is to identify prognostic factors for unfavorable evolution (ventricular remodeling or a rhythm disorder event) at 3 years from initial assessments in MVP patients.
NCT03884426
Phenotypic characterisation of MVP by echocardiography in families. Identification of genes involved in MVP.
NCT04067635
This longitudinal cohort study evaluates the relationship of myocardial tissue markers characteristics assessed by cardiac MRI, with clinical measures of symptoms and functions in adults with primary mitral regurgitation. Participants are followed conservatively or may choose to undergo surgical repair at the discretion of their clinical team.