CONICET | Buscador de Institutos y Recursos Humanos

AbstractMicrosurgery is a technically demanding field with long learning curves. Robotic-assisted microsurgery has the ability to decrease these learning curves. We, therefore, sought to assess the feasibility of robotic-assisted microvascular surgery in a rat model, and whether this could be translated into a worthwhile skills acquisition exercise for residents. Twenty-eight rats underwent microvascular anastomosis. Procedures were performed by a trained microvascular surgeon with no robotic experience (n = 14), or a trained robotic surgeon with no microvascular experience (n = 14). Anesthetized rats were subjected to complete transection and end-to-end anastomosis of the abdominal aorta using 10-0 prolene. Manually (n = 6) and robotic-assisted (n = 8) procedures were performed by both surgeons. A successful procedure required a patent anastomosis and no bleeding. After approximately 35 days, angiography and histopathological studies of the anastomoses were performed. Median times for robotic-assisted anastomoses were 37.5 (34.2-42.7) min for the microsurgeon and 38.5 (32.7-52) min for robotic surgeon. In the manual group, it took 17 (13.5-23) min for microsurgeon and 44 (34.5-60) min for robotic surgeon. Within the robotic-assisted group, there was a trend toward improvement in both surgeons, but greater in the microsurgeon. Robotic-assisted microvascular anastomosis in a rat model is a feasible skill acquisition exercise. By eliminating the need for a skilled microsurgical assistant, as well as, improved microsurgical technology, the robotic system may prove to be a crucial player in future microsurgical skill training.