Title :
A Telerobotic System for Transnasal Surgery
Author :
Burgner, Jessica ; Rucker, D. Caleb ; Gilbert, Hunter B. ; Swaney, Philip J. ; Russell, Paul T. ; Weaver, Kyle D. ; Webster, Robert J.
Author_Institution :
Hannover Centre for Mechatron., Leibniz Univ. Hannover, Hanover, Germany
Abstract :
Mechanics-based models of concentric tube continuum robots have recently achieved a level of sophistication that makes it possible to begin to apply these robots to a variety of real-world clinical scenarios. Endonasal skull base surgery is one such application, where their small diameter and tentacle-like dexterity are particularly advantageous. In this paper, we provide the medical motivation for an endonasal surgical robot featuring concentric tube manipulators, and describe our model-based design and teleoperation methods, as well as a complete system incorporating image guidance. Experimental demonstrations using a laparoscopic training task, a cadaver reachability study, and a phantom tumor resection experiment illustrate that both novice and expert users can effectively teleoperate the system, and that skull base surgeons can use the robot to achieve their objectives in a realistic surgical scenario.
Keywords :
dexterous manipulators; medical robotics; surgery; telerobotics; cadaver reachability study; concentric tube continuum robots; concentric tube manipulators; endonasal skull base surgery; endonasal surgical robot; expert users; image guidance; laparoscopic training task; mechanics-based models; medical motivation; model-based design; novice users; phantom tumor resection; real-world clinical scenarios; teleoperation methods; telerobotic system; tentacle-like dexterity; transnasal surgery; Active cannula; concentric tube robot; continuum robot; endonasal surgery; minimally-invasive surgery; robot-assisted surgery; teleoperation;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2013.2265804
