Di Qi 1 , Karthikeyan Panneerselvam 1 , Woojin Ahn 2 , Venkata Arikatla 3 , Andinet Enquobahrie 3 , Suvranu De 4 Show Affiliations »
Abstract
BACKGROUND: Suturing with intracorporeal knot-tying is one of the five tasks of the Fundamentals of Laparoscopic Surgery (FLS), which is a pre-requisite for board certification in general surgery. This task involves placing a short suture through two marks in a penrose drain and then tying a double-throw knot followed by two single-throw knots using two needle graspers operated by both hands. A virtual basic laparoscopic skill trainer (VBLaST©) is being developed to represent the virtual versions of the FLS tasks, including automated, real time performance measurement and feedback. In this paper, we present the development of a VBLaST suturing simulator (VBLaST-SS©). Developing such a simulator involves solving multiple challenges associated with fast collision detection, response and force feedback. METHODS: In this paper, we present a novel projection-intersection based knot detection method, which can identify the validity of different types of knots at haptic update rates. A simple and robust edge-edge based collision detection algorithm is introduced to support interactive knot tying and needle insertion operations. A bimanual hardware interface integrates actual surgical instruments with haptic devices enabling not only interactive rendering of force feedback but also realistic sensation of needle grasping, which realizes an immersive surgical suturing environment. RESULTS: Experiments on performing the FLS intracorporeal suturing task show that the simulator is able to run on a standard personal computer at interactive rates. CONCLUSIONS: VBLaST-SS© is a computer-based interactive virtual simulation system for FLS intracorporeal knot-tying suturing task that can provide real-time objective assessment for the user's performance.
BACKGROUND: Suturing with intracorporeal knot -tying is one of the five tasks of the Fundamentals of Laparoscopic Surgery (FLS), which is a pre-requisi te for board certification in general surgery. This task involves placing a short suture through two marks in a penrose drain and then tying a double-throw knot followed by two si ngle-throw knot s usi ng two needle graspers operated by both hands. A virtual basi c laparoscopic skill trainer (VBLaST©) is being developed to represent the virtual versi ons of the FLS tasks, including automated, real time performance measurement and feedback. In this paper, we present the development of a VBLaST suturing si mulator (VBLaST-SS©). Developing such a si mulator involves solving multiple challenges associated with fast collisi on detection, response and force feedback. METHODS: In this paper, we present a novel projection-intersection based knot detection method, which can identify the validity of different types of knot s at haptic update rates. A si mple and robust edge-edge based collisi on detection algorithm is introduced to support interactive knot tying and needle insertion operations. A bimanual hardware interface integrates actual surgical instruments with haptic devices enabling not only interactive rendering of force feedback but also realistic sensation of needle grasping, which realizes an immersi ve surgical suturing environment. RESULTS: Experiments on performing the FLS intracorporeal suturing task show that the si mulator is able to run on a standard personal computer at interactive rates. CONCLUSIONS: VBLaST-SS© is a computer-based interactive virtual si mulation system for FLS intracorporeal knot -tying suturing task that can provide real-time objective assessment for the user's performance.
Copyright © 2017 Elsevier Inc. All rights reserved.
Entities: Chemical
Disease
Gene
Species
Keywords:
Collision detection; Haptics; Knot identification; Medical training; Self-collision; Suturing simulation; Virtual reality
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Year: 2017
PMID: 28951209 PMCID: PMC5685933 DOI: 10.1016/j.jbi.2017.09.010
Source DB: PubMed Journal: J Biomed Inform ISSN: 1532-0464 Impact factor: 6.317