Articulated Instruments and 3D Visualization: A Synergy? Evaluation of Execution Time,Errors,and Visual Fatigue

Abstract

Objective. The introduction of advanced endoscopic systems, such as the Storz Image1S and the Olympus Endoeye, heralds a new era of 3-dimensional (3D) visualization. The aim of this report is to provide a comprehensive overview of the neurophysiology of 3D view, its relevance in videoscopy, and to quantify the benefit of the new 3D technologies for both rigid and articulated instruments. Method. Sixteen medical students without any laparoscopic experience were trained each for a total of 27 hours. Proficiency scores were determined for rigid and articulated instruments under 2D and 3D visualization conditions. Results. A reduction in execution time of 14%, 28%, and 36% was seen for the rigid instruments, the da Vinci, and Steerable instruments, respectively. A reduction in errors of 84%, 92%, and 87% was seen for the rigid instruments, the da Vinci, and Steerable instruments, respectively. Conclusion. 3D visualization greatly augments endoscopic procedures. The advanced endoscopic systems employed in the recent study caused no visual fatigue or discomfort. The benefit of 3D was most distinct with articulated instruments.

Keywords

articulated instruments 3D visualization vergence-accommodation conflict laparoscopy minimal invasive surgery

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References

Mouret

How I developed laparoscopic cholecystectomy. Ann Acad Med Singapore. 1996;25:744-747.

Polychronidis

Laftsidis

Bounovas

, et al. Twenty years of laparoscopic cholecystectomy: Philippe Mouret—March 17, 1987. JSLS. 2008;12:109-111.

Blum

Adams

DM.

Who did the first laparoscopic cholecystectomy?

J Minim Access Surg. 2011;7:165-168.

Chan

ACW

Chung

SCS

Yim

APC

Lau

. Comparison of two-dimensional vs three-dimensional camera systems in laparoscopic surgery. Surg Endosc. 1997;11:438-440.

Hanna

Shimi

Cuschieri

Randomised study of influence of two-dimensional versus three-dimensional imaging on performance of laparoscopic cholecystectomy. Lancet. 1998;351:248-251.

McDougall

Soble

Wolf

Jr Nakada

Elashry

Clayman

RV.

Comparison of three-dimensional and two-dimensional laparoscopic video systems. J Endourol. 1996;10:371-374.

Fergo

Burcharth

Pommergaard

Kildebro

Rosenberg

Three-dimensional laparoscopy vs 2-dimensional laparoscopy with high-definition technology for abdominal surgery: a systematic review. Am J Surg. 2017;213:159-170.

Sinha

Raie

Rao

GA.

Three-dimensional laparoscopy: principles and practice. J Minim Access Surg. 2017;13:165-169.

Vilaça

Pinto

Fernandes

Costa

Correia-Pinto

Leão

Comparative study of 2D and 3D optical imaging systems: laparoendoscopic single-site surgery in an ex vivo model. Surg Innov. 2017;24:598-604.

10.

Dewaele

Mabilde

Blanckaert

Steerable tubes. European patent EP2664270 (B1); October 19, 2016.

11.

Dewaele

Mabilde

Blanckaert

Steerable tube. US patent US9579013 (B2); February 28, 2017.

12.

Breedveld

Stassen

Meijer

Jakimowicz

JJ.

Observation in laparoscopic surgery: overview of impeding effects and supporting aids. J Laparoendosc Adv Surg Tech. 2009;10:231-241.

13.

Leite

Carvalho

Costa

, et al. Assessment of laparoscopic skills performance: 2D versus 3D vision and classic Instrument versus new hand-held robotic device for laparoscopy. Surg Innov. 2016;23:52-61.

14.

Bogdanova

Boulanger

Zheng

Depth perception of surgeon in minimally invasive surgery. Surg Innov. 2016;23:515-524.

15.

Lambooij

Ijsselsteijn

Fortuin

Heynderickx

Visual discomfort and visual fatigue of stereoscopic displays: a review. J Imaging Sci Technol. 2009;53:030201-14

16.

Hoffman

Girshick

Akeley

Banks

MS.

Vergence–accommodation conflicts hinder visual performance and cause visual fatigue. J Vis. 2008;8:33.1-30.

17.

Munz

Moorthy

Dosis

, et al. The benefits of stereoscopic vision in robotic-assisted performance on bench models. Surg Endosc. 2004;18:611-616.

18.

Wagner

Hagen

Kurmann

Horgan

Candinas

Vorburger

SA.

Three-dimensional vision enhances task performance independently of the surgical method. Surg Endosc. 2012;26:2961-2968.

19.

Shao

ZLi

Jiang

, et al. Visual discomfort relaxation for stereoscopic 3D images by adjusting zero-disparity plane for projection. Displays. 2015;39:125-132.

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