Native and Post-Repair Residual Mitral Valve Prolapse Increases Forces Exerted on the Papillary Muscles: A Possible Mechanism for Localized Fibrosis?
Matthew H ParkAntonia van KampenSerguei MelnitchoukRobert J WilkersonYasufumi NagataYuanjia ZhuHanjay WangPearly K PandyaJordan E MorningstarMichael A BorgerRobert A LevineYiping Joseph WooPublished in: Circulation. Cardiovascular interventions (2022)
We discovered that bileaflet prolapse with the absence of hemodynamic dysfunction results in significantly elevated forces and altered dynamics on the papillary muscles. Our work suggests that the sole reduction of mitral regurgitation without addressing reduced coaptation lengths and thus increased leaflet surface area exposed to ventricular pressure gradients (ie, billowing leaflets) is insufficient for an optimal repair.