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A Single-Port Robotic System for Transanal Microsurgery—Design and Validation

Jianzhong Shang, Konrad Leibrandt, Πέτρος Γιαταγάνας, Valentina Vitiello, Carlo Seneci, Piyamate Wisanuvej, Jindong Liu, Gauthier Gras, James Clark, Ara Darzi, Guang‐Zhong Yang

Year
2017
Citations
74

Abstract

This letter introduces a single-port robotic platform for transanal endoscopic microsurgery (TEMS). Two robotically controlled articulated surgical instruments are inserted via a transanal approach to perform submucosal or full-thickness dissection. This system is intended to replace the conventional TEMS approach that uses manual laparoscopic instruments. The new system is based on master-slave robotically controlled tele-manipulation. The slave robot comprises a support arm that is mounted on the operating table, supporting a surgical port and a robotic platform that drives the surgical instruments. The master console includes a pair of haptic devices, as well as a three-dimensional display showing the live video stream of a stereo endoscope inserted through the surgical port. The surgical instrumentation consists of energy delivery devices, graspers, and needle drivers allowing a full TEMS procedure to be performed. Results from benchtop tests, ex vivo animal tissue evaluation, and in vivo studies demonstrate the clinical advantage of the proposed system.

Keywords

MicrosurgeryPort (circuit theory)Computer scienceRobotic armInstrumentation (computer programming)GrippersEndoscopeComputer hardwareSimulationArtificial intelligence

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