Endoaortic Balloon Occlusion in Totally Endoscopic and Percutaneous Robotic Cardiac Surgery.

Abstract

Previous studies have shown that the endoaortic balloon occlusion (EABO) can provide satisfactory aortic cross-clamping with comparable surgical outcomes to thoracic aortic clamping in the setting of minimally invasive and robotic cardiac surgery. We described our approach to EABO use in totally endoscopic and percutaneous robotic mitral valve surgery. Preoperative computed tomography angiography is required to evaluate the quality and size of the ascending aorta, identify access sites for peripheral cannulation and endoaortic balloon insertion, and screen for other vascular anomalies. Continuous bilateral upper extremity arterial pressure and cranial near-infrared spectroscopy monitoring are essential to detect obstruction of the innominate artery due to distal balloon migration. Transesophageal echocardiography is needed for continuous monitoring of balloon positioning and antegrade cardioplegia delivery. Direct fluorescent visualization of the endoaortic balloon on the robotic camera allows for verification of balloon and efficient repositioning if needed. The surgeon should assess hemodynamic and imaging information simultaneously during the balloon inflation and delivery of antegrade cardioplegia. Aortic root pressure, systemic blood pressure, and balloon catheter tension affect the position of the inflated endoaortic balloon in the ascending aorta. The surgeon should eliminate all slack in the balloon catheter and lock it into position to prevent proximal balloon migration after the completion of antegrade cardioplegia. Using scrupulous preoperative imaging assessment and continuous intraoperative monitoring, the EABO can achieve adequate cardiac arrest in totally endoscopic robotic cardiac surgery, even in patients with previous sternotomy without compromise of surgical outcomes.