Impact of Preoperative Myocardial Fibrosis Related to Mitral Valve Prolapse on Postoperative Left Ventricular Remodeling (IMPARED)

Primary mitral regurgitation (MR) is the most common valvular disease in western countries. The MR mechanism is often related to a mitral valve prolapse (MVP) defined as a single or bi-leaflet prolapse of at least 2 mm beyond the long-axis mitral annular plane.

In recent years, several studies have identified a subtype of MVP patients at higher risk of ventricular arrhythmias (VA) and sudden cardiac death (SCD). The presence of regional myocardial replacement fibrosis (RMRF) has been shown as a risk marker of arrhythmic events (VA and SCD) in patients with MVP. RMRF can be identified using cardiac magnetic resonance (CMR) imaging with late gadolinium enhancement (LGE+). In these patients, fibrosis was found in the basal inferolateral myocardium and at the level of papillary muscles (PMs). This fibrosis is developed beyond the volume overload related to the MVP. It is probably linked to the mechanical stretch acting upon the valve and the neighboring left ventricle (LV) myocardium. RMRF is associated with a high degree of MR, with specific features of mitral valve apparatus (bi-leaflet prolapse with marked leaflet redundancy, mitral annulus abnormalities (i.e. Mitral-Annular Disjunction)), and more dilated LV. It is also independently associated with the occurrence of cardiovascular events.

Mitral valve repair (MVr) is the gold standard treatment for primary Mitral Regurgitation. Very little data concerning the impact of preoperative RMRF on mitral valve surgery outcomes is available, and the impact of myocardial fibrosis on the postoperative left ventricle remodeling has not been studied so far.

No previous study compares preoperative and postoperative fibrosis evolution. Thus, no data exists regarding the postoperative evolution of this fibrosis and its relationship with ventricular arrhythmic risk after valve surgery. Small observational studies have suggested that mitral valve surgery did not reduce the risk of ventricular arrhythmias in patients with bileaflet MVP.

Finally, the mechanisms involved in the development of regional myocardial replacement fibrosis within the left ventricle myocardium during the natural history of MVP cannot be understood with current standard medical imaging tools. Numerical simulation technologies provide an innovative and in-vivo approach to assess the physical and pathological mechanisms causing this fibrosis. They can also be used to assess the changes in mitral valve and myocardium dynamics after surgical mitral valve repair procedures.

A large consortium, involving physicians and scientists, has been created to address these questions to fulfil our objectives over a 4 year period (SIMR project).