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Mechanical analysis of end‐to‐end silk‐sutured anastomosis for robot‐assisted surgery

Ying Liu, Shuxin Wang, S. Jack Hu, Wei Qiu

Year
2009
Citations
9
Access
Open access

Abstract

BACKGROUND: Robot-assisted anastomosis holds great promise for the future. To secure surgery quality, some key process factors, such as the force arrangement of sutures, should be provided because of the lack of haptic feedback in robotics systems METHODS: A model of anastomosis is presented to establish the mechanical relationship between vessel and sutures. Stress distribution of the vessel loaded by the suture was then achieved through finite-element simulations, based on the material property test results. Further, experiments were performed to validate the reliability of the FEM simulation of the anastomosis process. RESULTS: To avoid blood osmosis, the allowable lower limit of the suture tension was 0.05 N. To keep the tissue free from injury, the allowable upper limit of tension on the suture was 0.4 N. CONCLUSIONS: The study provided meaningful results for directing the robot-assisted anastomosis procedure and design of the surgical tools.

Keywords

AnastomosisSILKSurgeryEnd-to-end principleComputer scienceMedicineArtificial intelligenceOperating system

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