Case Report

Assistance from a mixing zone model to perform aortic femoral perfusion strategy with severe atherosclerotic and artheromic aortic disease for endoscopic minimally invasive redo mitral valve repair

¹ Department of Clinical Engineering, Kitaharima Medical Center, 926-250, Ichiba-cho, Ono-shi, Hyogo, 675-1392, Hyogo, Japan
² Cardiovascular Surgery, Kitaharima Medical Center, 926-250, Ichiba-cho, Ono-shi, Hyogo, 675-1392, Hyogo, Japan

^* Corresponding author: tommo.tommo@outlook.jp

Received: 19 June 2024
Accepted: 22 November 2024

Abstract

Minimally invasive cardiac surgery (MICS) for redo mitral valve surgery in the presence of severe atheroma and atherosclerotic diseased atherosclerotic and artheromic aorta presents significant challenges and increases the risk of postoperative cerebral infarction. At our institution, to mitigate the risk of postoperative cerebral complications, we employ a strategy combining antegrade and retrograde perfusion during MICS for patients with atherosclerotic and artheromic aorta. However, the mixing zone during cardiopulmonary bypass (CPB) with combined antegrade and retrograde perfusion has not been thoroughly evaluated. In this case, we performed a completely endoscopic MICS redo mitral valve plasty (MVP). CPB was established using cannulation of both the ascending aorta (Asc Ao) and the femoral artery (FA). The patient received planned systemic hyperkalemia without an aortic cross clamp. In addition, due to aortic insufficiency, circulatory arrest was also needed. The patient experienced an uneventful post-operative recovery without any cerebral complication. Furthermore, we evaluated the mixing zone during the combined antegrade and retrograde perfusion using an arteriovenous circulation model. Our findings suggest that when performing perfusion via the Asc Ao and FA, it is advisable to select Asc Ao cannulation size reduced by one size against FA cannulation size to optimize the procedure.