Background: Robotic technology is increasingly utilized in perihilar cholangiocarcinoma treatments, requiring expertise in minimally invasive liver surgeries and biliary reconstructions. These resections often involve vascular and multiple sectoral bile duct reconstructions. Minimally invasive vascular repairs are now emerging with promising outcomes, potentially altering criteria for selecting minimally invasive hepatobiliary tumor resections. In this multimedia article, we describe our technique of robotic portal venous tangential primary reconstruction with right sectoral bile duct unification ductoplasty for the treatment of perihilar cholangiocarcinoma using the robotic approach.
Methods: The robotic technique was chosen in this operation with preoperative anticipation of needing vascular resection and reconstruction due to left portal vein tumor involvement. Additionally, a Roux-en-Y hepaticojejunostomy to the right anterior and posterior sectoral duct was planned for biliary reconstruction. Proximal and distal vascular control of the portal vein bifurcation was obtained by placing vascular bulldog clamps across the main and right portal veins. Once an R0 vascular margin was obtained on the left portal vein, portal bifurcation was tangentially repaired. Perfusion to the liver was then restored, and left hemihepatectomy with en bloc extrahepatic biliary resection was carried out, followed by Roux-en-Y hepaticojejunostomy reconstruction to the right anterior and posterior sectoral bile ducts, as a single anastomosis.
Results: The operation was uneventful without vascular or biliary complications. Robotic unification ductoplasty circumvented the need for multiple anastomoses.
Conclusion: The robotic approach for left-sided perihilar cholangiocarcinoma resections, requiring precise biliovascular management, is safe, feasible, and efficient. This method demonstrates the potential of robotic techniques as an alternative to traditional open surgery.
© 2024. Society of Surgical Oncology.