PURPOSE: The use of robotics is a recent innovation in surgery. In addition to dexterity enhancement and motion scaling, this new technology opens the horizon of remote surgery. This latter advancement has potential use during surgery involving a high risk of patient-to-professional or professional-to-patient virus transmission. We investigated the feasibility of robotic assisted kidney transplantation. MATERIALS AND METHODS: A right cadaveric kidney was transplanted into a 26-year-old male patient who has been on hemodialysis for 11 years. Surgery was done with the help of the da Vinci robot (Intuitive Surgical, Inc., Mountain View, California) by a remote surgeon, who completely performed vascular dissection and anastomosis as well as ureterovesical anastomosis. The role of the assistant by the side of the patient was limited to access creation, exposure, hemostasis and maintaining traction on the running sutures performed by the robot. RESULTS: Operative time was 178 minutes. Robotic assistance made anastomosis possible by its unique ability of stereoscopic magnification and ultra-precise suturing techniques due to the flexibility of the robotic wristed instruments. Renal perfusion was excellent with immediate diuresis. Postoperative acute tubular necrosis started to resolve after 1 week. CONCLUSIONS: This study demonstrates that robotic assisted kidney transplantation is feasible. Currently technical and cost hindrances limit the routine use of robots. However, with ongoing improvement and future availability of this technology the prevention of patient-to-professional and professional-to-patient viral transmission may become a potential field of application.
PURPOSE: The use of robotics is a recent innovation in surgery. In addition to dexterity enhancement and motion scaling, this new technology opens the horizon of remote surgery. This latter advancement has potential use during surgery involving a high risk of patient-to-professional or professional-to-patient virus transmission. We investigated the feasibility of robotic assisted kidney transplantation. MATERIALS AND METHODS: A right cadaveric kidney was transplanted into a 26-year-old male patient who has been on hemodialysis for 11 years. Surgery was done with the help of the da Vinci robot (Intuitive Surgical, Inc., Mountain View, California) by a remote surgeon, who completely performed vascular dissection and anastomosis as well as ureterovesical anastomosis. The role of the assistant by the side of the patient was limited to access creation, exposure, hemostasis and maintaining traction on the running sutures performed by the robot. RESULTS: Operative time was 178 minutes. Robotic assistance made anastomosis possible by its unique ability of stereoscopic magnification and ultra-precise suturing techniques due to the flexibility of the robotic wristed instruments. Renal perfusion was excellent with immediate diuresis. Postoperative acute tubular necrosis started to resolve after 1 week. CONCLUSIONS: This study demonstrates that robotic assisted kidney transplantation is feasible. Currently technical and cost hindrances limit the routine use of robots. However, with ongoing improvement and future availability of this technology the prevention of patient-to-professional and professional-to-patient viral transmission may become a potential field of application.
Authors: A Breda; L Gausa; A Territo; J M López-Martínez; O Rodríguez-Faba; J Caffaratti; J Ponce de León; L Guirado; H Villavicencio Journal: World J Urol Date: 2015-08-28 Impact factor: 4.226
Authors: Ulrich Pein; Matthias Girndt; Silke Markau; Annekathrin Fritz; Alberto Breda; Michael Stöckle; Nasreldin Mohammed; Felix Kawan; Andre Schumann; Paolo Fornara; Karl Weigand Journal: World J Urol Date: 2019-05-24 Impact factor: 4.226