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Design of a robotic instrument for minimally invasive waterjet surgery

Christopher Schlenk, Andrea Schwier, Michael Heiß, Thomas Bahls, Alin Albu‐Schäffer

Year
2019
Citations
4

Abstract

Using a pressurized waterjet for cutting or abrasing tissue is a well established method in surgery. This paper presents a robotic tool for minimally invasive waterjet surgery with two degrees of freedom, integrated suction and an optional splash protection. The function of the tool and the effect of the splash protection on the suction of the applicated water was successfully evaluated in tests with ballistic gelatine. Based on this evaluated design, a concept for further increasing the oscillation frequency of the instrument tip is introduced and the results of preliminary tests of a simplified mockup are shown.

Keywords

SplashSuctionInvasive surgeryMinimally invasive proceduresOscillation (cell signaling)Biomedical engineeringSimulationComputer scienceEngineeringMechanical engineering

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