Title :
Articulating minimally invasive ultrasonic tool for robotics-assisted surgery
Author :
Khalaji, Iman ; Naish, Michael D. ; Patel, Rajni V.
Author_Institution :
Dept. of Mech. & Mater. Eng., Western Univ., London, ON, Canada
Abstract :
In this paper, a robotics-assisted articulating ultrasonic surgical scalpel for minimally invasive soft tissue cutting and coagulation is designed and developed. For this purpose, the optimal design of a Langevin transducer with stepped horn profile is presented for internal-body applications. The modeling, optimization and design of the ultrasonic scalpel are performed through equivalent circuit theory and verified by finite element analysis. Moreover, a novel two degrees-of-freedom (DOFs) surgical end effector (1-DOF pitch, 1-DOF grip) with decoupled motions is developed that is compatible with the da Vinci® surgical system. The developed instrument is then driven using the dVRK (da Vinci® research kit) and the Classic da Vinci® surgical system.
Keywords :
end effectors; medical robotics; surgery; ultrasonic devices; Langevin transducer; coagulation; dVRK; da Vinci research kit; da Vinci surgical system; equivalent circuit theory; finite element analysis; internal-body applications; minimally invasive soft tissue cutting; minimally invasive ultrasonic tool; robotics-assisted articulating ultrasonic surgical scalpel; stepped horn profile; surgical end effector; Acoustics; Actuators; Impedance; Optimization; Transducers; Vibrations; Wrist;
Conference_Titel :
Robotics and Automation (ICRA), 2015 IEEE International Conference on
Conference_Location :
Seattle, WA
DOI :
10.1109/ICRA.2015.7139236
