A Study on the Learning Curve of the Robotic Virtual Reality Simulator

Title
A Study on the Learning Curve of the Robotic Virtual Reality Simulator
Author(s)
고영휘Kang, Sung Gu[Kang, Sung Gu]Yang, Kyung Sook[Yang, Kyung Sook]Kang, Seok Ho[Kang, Seok Ho]Park, Hong Seok[Park, Hong Seok]Lee, Jeong Gu[Lee, Jeong Gu]Kim, Je Jong[Kim, Je Jong]Cheon, Jun[Cheon, Jun]
Keywords
PERFORMANCE; VALIDATION; SURGERY
Issue Date
201206
Publisher
MARY ANN LIEBERT INC
Citation
JOURNAL OF LAPAROENDOSCOPIC & ADVANCED SURGICAL TECHNIQUES, v.22, no.5, pp.438 - 442
Abstract
Purpose: A robotic virtual reality simulator (dV-Trainer (TM), Mimic Technologies) has been accepted as an effective training tool for the da Vinci (R) Surgical System (Intuitive Surgical, Inc.) in previous reports. However, there are no data available so far on how much time is required for an individual using the simulator to become proficient. We investigated how long and how many performances it takes to gain proficiency with the robotic virtual reality simulator through the learning curve. Subjects and Methods: The novice group included 20 medical students who had no previous experience. The "Tube 2" task, a program released for the dV-Trainer that imitates a vesicourethral anastomosis, was repeated more than 80 times to obtain the plateau of the learning curve. The learning curve of "Tube 2" was obtained through the S-curve trend model and cumulative sum control chart graph. Results: In the comparison of the initial and final sessions, every parameter such as mean time, collision, and critical errors was significantly improved. The repeat count for acquiring sufficient proficiency was 74 times, and the total amount of time invested for this was calculated as about 4 hours. The mean time at the plateau of the learning curve was 138 seconds. Conclusions: Our study showed that the robotic virtual reality simulator (dV-Trainer) can yield sufficient improvement in technical performance in the "Tube 2" task within 4 hours. The simulator improves the technical surgical performance, but the development of more applications to reflect actual surgical situations is needed to improve and maximize the usefulness of the simulator.
URI
http://hdl.handle.net/YU.REPOSITORY/28136http://dx.doi.org/10.1089/lap.2011.0452
ISSN
1092-6429
Appears in Collections:
의과대학 > 비뇨기과학교실 > Articles
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