Virtual Reality Simulators Based on a Novel Robotic Catheter Operating System for Training in Minimally Invasive Surgery-Reference-Cited by-同舟云学术

Virtual Reality Simulators Based on a Novel Robotic Catheter Operating System for Training in Minimally Invasive Surgery

Published:2012-08-20 Issue:4 Volume:24 Page:649-655
ISSN:1883-8049
Container-title:Journal of Robotics and Mechatronics
language:en
Short-container-title:J. Robot. Mechatron.

Author:

Guo Jin, ,Guo Shuxiang,Xiao Nan,Gao Baofeng, ,

Abstract

Minimally invasive surgery is a specialized surgical technique that permits vascular interventions through very small incisions. This minimizes patients’ trauma and permits faster recovery compared to conventional surgery. The significant disadvantage of this surgical technique is, however, its complexity; therefore, it requires extensive training before surgery. In this paper, we presented virtual reality simulators for training with force feedback in minimally invasive surgery. This application allows generating realistic physicalbased models of catheters and blood vessels, and enables surgeons to touch, feel and manipulate virtual catheter inside a vascularmodel through the same surgical operation mode as is used in actual MIS. Experimental results show that the error rate is in an acceptable range and that simulators can be used for surgery training.

Publisher

Fuji Technology Press Ltd.

Subject

Electrical and Electronic Engineering,General Computer Science

Reference30 articles.

1. C. Basdogan, C. Ho, and M. A. Srinivasan, “Virtual Environments forMedical Training: Graphical and Haptic Simulation of Common Bile Duct Exploration,” IEEE ASME Trans. Mechatronics, Vol.6, No.3, pp. 267-285, 2001.

2. H. K. Çakmak and U. Kühnapfel, “Animation and Simulation Techniques for VR Training Systems in Endoscopic Surgery,” Proc. Eurographics Workshop Animation and Simulation (EGCAS 2000), pp. 173-185, 2000.

3. J. Brown et al., “Algorithmic Tools for Real-Time Microsurgery Simulation,” Medical Image Analysis, Vol.6, No.3, pp. 289-300, 2002.

4. J. S. Tsang, P. A. Naughton, S. Leong, A. D. K. Hill, C. J. Kelly, and A. L. Leahy, “Virtual reality simulation in endovascular surgical training, The Surgeon,” Vol.6, Issue 4, pp. 214-220, August 2008.

5. D. Wei, S. Hasegawa, K. Takahashi, E. Ryzhii, and X. Zhu, “A Virtual Reality for Catheter-based EPS based on Whole-heart Model,” Int. J. of Bioelectromagnetism, Vol.11, No.1, pp. 2-6, 2009.

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