Technological literacy that accompanies technology development has become an integral part of our society. In a survey evaluating technology use among school-going individuals from the United States of America and Australia, 96% of students had online access and used technology for various functions, especially video games. Thus, video games have become the most popular multimedia entertainment for them[1,2].
In addition to their entertainment and leisure capabilities, video games may have potential as an education tool, especially in medicine. According to a survey with medical students, 98% of them believed that technology should be better integrated within their medical curriculum, and 80% of them believed that video games can improve their education[1].
Most interesting of all, video games and surgical procedures share similar skills, such as visuospatial skills and hand-eye coordination; therefore, video games can be a valuable tool for surgical training among medical students[3,4]. As is well known, robot-assisted surgery is on the rise, and previous video game experience can be advantageous for budding robotic surgeons[5].
In an observational study, 30 medical students and two interns with a median age of 25 years were recruited and subsequently divided into groups according to their previous gaming experience - gamers (≥ 6 hours of video game/week) vs. non-gamers (< 6 hours of video game/week). Participants performed urethrovesical anastomosis by virtual reality simulator on RobotiX Mentor™, which measured performance parameters, and answered a questionnaire for demographics and gaming experience. Players significantly outperformed non-gamers in three of the 24 performance metrics (P<0.05), and there was a trend towards better results for seven of the remaining 21 metrics. Previous video game experience > 6 hours/week may give an advantage in simulated robotic surgery[6].
Therefore, training curricula that include video games can help fine-tune the technical interface between surgeons and screen-mediated applications such as robotic surgery. Video games can be a practical teaching tool to help train surgeons[7]. Finding high-fidelity ways to teach surgical skills to medical students is vital, as the acquisition of these skills begins at this early point of training[3,8]. An important point for further exploration is video game-based training (or VGBT) protocols with hardware and software tailored to surgical skill sets, especially among inexperienced individuals[5,8,9].
However, comprehensive and up-to-date systematic reviews are needed to confirm this. Methodological heterogeneity among included studies limits the ability to make conclusive decisions; thus, future studies with long-term follow-up, larger sample sizes, results stratified by video game characteristics, and up-to-date technology are needed to validate these preliminary results. Also, future studies testing this hypothesis are recommended to develop simulator programs for certification of robotic surgeons.
REFERENCES
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2 Thomas NJ, Martin FH. Video-arcade game, computer game and Internet activities of Australian students: participation habits and prevalence of addiction. Aust J Psychol.2010;62:59-66. doi: 10.1080/00049530902748283.
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4 Glassman D, Yiasemidou M, Ishii H, Somani BK, Ahmed K, Biyani CS. Effect of Playing Video Games on Laparoscopic Skills Performance: A Systematic Review. J Endourol. 2016;30(2):146-52. doi: 10.1089/end.2015.0425.
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5 Gupta A, Lawendy B, Goldenberg MG, Grober E, Lee JY, Perlis N. Can video games enhance surgical skills acquisition for medical students? A systematic review. Surgery. 2021;169(4):821-829. doi: 10.1016/j.surg.2020.11.034.
» https://doi.org/10.1016/j.surg.2020.11.034. -
6 Hvolbek AP, Nilsson PM, Sanguedolce F, Lund L. A prospective study of the effect of video games on robotic surgery skills using the high-fidelity virtual reality RobotiX simulator. Adv Med Educ Pract. 2019;10:627-634. doi: 10.2147/AMEP.S199323.
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7 Rosser JC Jr, Lynch PJ, Cuddihy L, Gentile DA, Klonsky J, Merrell R. The impact of video games on training surgeons in the 21st century. Arch Surg. 2007;142(2):181-6; discusssion 186. doi: 10.1001/archsurg.142.2.181
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8 Naylor RA, Hollett LA, Castellvi A, Valentine RJ, Scott DJ. Preparing medical students to enter surgery residencies. Am J Surg. 2010;199(1):105-9. doi: 10.1016/j.amjsurg.2009.09.003.
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9 Schreuder HW, Wolswijk R, Zweemer RP, Schijven MP, Verheijen RH. Training and learning robotic surgery, time for a more structured approach: a systematic review. BJOG. 2012;119(2):137-49. doi: 10.1111/j.1471-0528.2011.03139.x.
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Publication Dates
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Publication in this collection
25 Nov 2022 -
Date of issue
Nov-Dec 2022