Robotic-Assisted Anastomosis in Orthoplastic Surgery: Preliminary Data.

BACKGROUND: The evolution of microsurgery has relied on advancements in operating microscopes and surgical instruments. Pioneering advancements, however, especially within the domain of "super-microsurgery", challenge the limits of human dexterity by dealing with anastomoses between vessels smaller than 0.8 mm. Based on these premises, the Symani robotic system was designed and developed. This platform utilizes teleoperation and motion-scaled movement to provide surgeons with precision and accuracy in manipulating millimetre and submillimetre-sized anatomical structures. In this study, we present our experience in performing robotic-assisted anastomoses using the Symani Surgical System in free flap reconstruction.

METHODS: We present a comprehensive analysis of all reconstructive procedures involving microsurgical free flaps performed using the Symani robotic platform at the orthoplastic unit of the Rizzoli Orthopaedic Institute from 1 October 2022 to 1 May 2023.

RESULTS: Sixteen microsurgical reconstructions using free flaps were performed, involving a total of 40 anastomoses on vessel calibres ranging from 0.6 mm to 2.5 mm. In each case, the anastomosis was executed with the assistance of the robotic platform, achieving a 100+% success rate in patent anastomoses, and no major complications occurred.Conclusion The Symani system has proven to be safe and reliable in performing microsurgical anastomoses. While this platform demonstrated successful in various vessel calibres, its most promising potential lies in anastomoses below the size of a millimetre. Larger patient cohorts and extended investigation periods will be essential to explore whether robotics in microsurgery offers advantages across all microsurgical procedures or should be reserved for selected cases.