Evaluation of a novel universal robotic surgery virtual reality simulation proficiency index that will allow comparisons of users across any virtual reality simulation curriculum

Study objective Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum. Design Retrospective analysis of VR Simulation metrics. Setting Two training institutions. Patients or participants Residents,...

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Published in	Surgical endoscopy Vol. 35; no. 10; pp. 5867 - 5875
Main Authors	Simmonds, Christopher, Brentnall, Mark, Lenihan, John
Format	Journal Article
Language	English
Published	New York Springer US 01.10.2021 Springer Nature B.V
Subjects	Abdominal Surgery Core curriculum Gastroenterology Gynecology Hepatology Medicine Medicine & Public Health New Technology Proctology Robotic surgery Robotics Simulation Standard deviation Students Surgery Virtual reality Robotic surgery VR simulation metrics Proficiency-based surgical training Robotic surgery training
Online Access	Get full text
ISSN	0930-2794 1432-2218 1432-2218
DOI	10.1007/s00464-021-08609-5

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Abstract	Study objective Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum. Design Retrospective analysis of VR Simulation metrics. Setting Two training institutions. Patients or participants Residents, fellows and practicing surgeons. Interventions Analysis of the Mimic robotic Virtual Reality (VR)-Simulation database of over 600,000 sessions was utilized to calculate Mean scores for each exercise. Those Mean scores were then normalized to 100. Subject's scores were also averaged and normalized to 100. We called this Index score the MScore Proficiency Index (MPI © ). Scores above 100 were better than average; Less than 100 were worse than average. Measurements and main results Seventeen thousand six hundred and forty eight sessions were analyzed (2017–2020) comparing 77 students (residents to practicing surgeons) working in 7 different curriculums. On average, each student spent 8 h and 24 min on simulation, attempted 26.5 different exercises, and became proficient in 20.6 exercises per user. The MPI © mean score for all participants in all curricula was an MPI © of 104.9 (SD: 15.5). Thirteen students were 1 standard deviation below the norm with an average MPI © of 80.15. This group averaged 9 h 27 min each on the simulator attempting 23.46 exercises but becoming proficient in only 10.38 (47%) of them in 224 sessions. Twelve students were 1 standard deviation above the norm with an average MPI © of 127.05. This group averaged 6 h 31 min each on the simulator attempting 29.08 exercises but becoming proficient in 27.5 (95%) of them in 196 sessions. Conclusion A universal skill-based performance index (MPI © ) was calculated and found to be a reliable tool that could be used to identify relative proficiency among students in different robotic surgery VR Simulation curriculums. An individual user’s proficiency can be utilized to identify a student’s progress in a given curriculum. Future studies of MPI © will determine if machine learning can provide timely personalized feedback to the user.
AbstractList	Study objective Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum. Design Retrospective analysis of VR Simulation metrics. Setting Two training institutions. Patients or participants Residents, fellows and practicing surgeons. Interventions Analysis of the Mimic robotic Virtual Reality (VR)-Simulation database of over 600,000 sessions was utilized to calculate Mean scores for each exercise. Those Mean scores were then normalized to 100. Subject's scores were also averaged and normalized to 100. We called this Index score the MScore Proficiency Index (MPI © ). Scores above 100 were better than average; Less than 100 were worse than average. Measurements and main results Seventeen thousand six hundred and forty eight sessions were analyzed (2017–2020) comparing 77 students (residents to practicing surgeons) working in 7 different curriculums. On average, each student spent 8 h and 24 min on simulation, attempted 26.5 different exercises, and became proficient in 20.6 exercises per user. The MPI © mean score for all participants in all curricula was an MPI © of 104.9 (SD: 15.5). Thirteen students were 1 standard deviation below the norm with an average MPI © of 80.15. This group averaged 9 h 27 min each on the simulator attempting 23.46 exercises but becoming proficient in only 10.38 (47%) of them in 224 sessions. Twelve students were 1 standard deviation above the norm with an average MPI © of 127.05. This group averaged 6 h 31 min each on the simulator attempting 29.08 exercises but becoming proficient in 27.5 (95%) of them in 196 sessions. Conclusion A universal skill-based performance index (MPI © ) was calculated and found to be a reliable tool that could be used to identify relative proficiency among students in different robotic surgery VR Simulation curriculums. An individual user’s proficiency can be utilized to identify a student’s progress in a given curriculum. Future studies of MPI © will determine if machine learning can provide timely personalized feedback to the user. Study objectiveEvaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum.DesignRetrospective analysis of VR Simulation metrics.SettingTwo training institutions.Patients or participantsResidents, fellows and practicing surgeons.InterventionsAnalysis of the Mimic robotic Virtual Reality (VR)-Simulation database of over 600,000 sessions was utilized to calculate Mean scores for each exercise. Those Mean scores were then normalized to 100. Subject's scores were also averaged and normalized to 100. We called this Index score the MScore Proficiency Index (MPI©). Scores above 100 were better than average; Less than 100 were worse than average.Measurements and main resultsSeventeen thousand six hundred and forty eight sessions were analyzed (2017–2020) comparing 77 students (residents to practicing surgeons) working in 7 different curriculums. On average, each student spent 8 h and 24 min on simulation, attempted 26.5 different exercises, and became proficient in 20.6 exercises per user. The MPI© mean score for all participants in all curricula was an MPI© of 104.9 (SD: 15.5).Thirteen students were 1 standard deviation below the norm with an average MPI© of 80.15. This group averaged 9 h 27 min each on the simulator attempting 23.46 exercises but becoming proficient in only 10.38 (47%) of them in 224 sessions. Twelve students were 1 standard deviation above the norm with an average MPI© of 127.05. This group averaged 6 h 31 min each on the simulator attempting 29.08 exercises but becoming proficient in 27.5 (95%) of them in 196 sessions.ConclusionA universal skill-based performance index (MPI©) was calculated and found to be a reliable tool that could be used to identify relative proficiency among students in different robotic surgery VR Simulation curriculums. An individual user’s proficiency can be utilized to identify a student’s progress in a given curriculum. Future studies of MPI© will determine if machine learning can provide timely personalized feedback to the user. Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum.STUDY OBJECTIVEEvaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR curriculum.Retrospective analysis of VR Simulation metrics.DESIGNRetrospective analysis of VR Simulation metrics.Two training institutions.SETTINGTwo training institutions.Residents, fellows and practicing surgeons.PATIENTS OR PARTICIPANTSResidents, fellows and practicing surgeons.Analysis of the Mimic robotic Virtual Reality (VR)-Simulation database of over 600,000 sessions was utilized to calculate Mean scores for each exercise. Those Mean scores were then normalized to 100. Subject's scores were also averaged and normalized to 100. We called this Index score the MScore Proficiency Index (MPI©). Scores above 100 were better than average; Less than 100 were worse than average.INTERVENTIONSAnalysis of the Mimic robotic Virtual Reality (VR)-Simulation database of over 600,000 sessions was utilized to calculate Mean scores for each exercise. Those Mean scores were then normalized to 100. Subject's scores were also averaged and normalized to 100. We called this Index score the MScore Proficiency Index (MPI©). Scores above 100 were better than average; Less than 100 were worse than average.Seventeen thousand six hundred and forty eight sessions were analyzed (2017-2020) comparing 77 students (residents to practicing surgeons) working in 7 different curriculums. On average, each student spent 8 h and 24 min on simulation, attempted 26.5 different exercises, and became proficient in 20.6 exercises per user. The MPI© mean score for all participants in all curricula was an MPI© of 104.9 (SD: 15.5). Thirteen students were 1 standard deviation below the norm with an average MPI© of 80.15. This group averaged 9 h 27 min each on the simulator attempting 23.46 exercises but becoming proficient in only 10.38 (47%) of them in 224 sessions. Twelve students were 1 standard deviation above the norm with an average MPI© of 127.05. This group averaged 6 h 31 min each on the simulator attempting 29.08 exercises but becoming proficient in 27.5 (95%) of them in 196 sessions.MEASUREMENTS AND MAIN RESULTSSeventeen thousand six hundred and forty eight sessions were analyzed (2017-2020) comparing 77 students (residents to practicing surgeons) working in 7 different curriculums. On average, each student spent 8 h and 24 min on simulation, attempted 26.5 different exercises, and became proficient in 20.6 exercises per user. The MPI© mean score for all participants in all curricula was an MPI© of 104.9 (SD: 15.5). Thirteen students were 1 standard deviation below the norm with an average MPI© of 80.15. This group averaged 9 h 27 min each on the simulator attempting 23.46 exercises but becoming proficient in only 10.38 (47%) of them in 224 sessions. Twelve students were 1 standard deviation above the norm with an average MPI© of 127.05. This group averaged 6 h 31 min each on the simulator attempting 29.08 exercises but becoming proficient in 27.5 (95%) of them in 196 sessions.A universal skill-based performance index (MPI©) was calculated and found to be a reliable tool that could be used to identify relative proficiency among students in different robotic surgery VR Simulation curriculums. An individual user's proficiency can be utilized to identify a student's progress in a given curriculum. Future studies of MPI© will determine if machine learning can provide timely personalized feedback to the user.CONCLUSIONA universal skill-based performance index (MPI©) was calculated and found to be a reliable tool that could be used to identify relative proficiency among students in different robotic surgery VR Simulation curriculums. An individual user's proficiency can be utilized to identify a student's progress in a given curriculum. Future studies of MPI© will determine if machine learning can provide timely personalized feedback to the user.
Author	Simmonds, Christopher Lenihan, John Brentnall, Mark
Author_xml	– sequence: 1 givenname: Christopher surname: Simmonds fullname: Simmonds, Christopher organization: Mimic Technologies Inc – sequence: 2 givenname: Mark surname: Brentnall fullname: Brentnall, Mark organization: Mimic Technologies Inc – sequence: 3 givenname: John orcidid: 0000-0002-2643-2384 surname: Lenihan fullname: Lenihan, John email: john.lenihan@surgicalscience.com organization: Mimic Technologies Inc., Dept OB-GYN, Univ. of WA School of Medicine
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Cites_doi	10.1097/01.sla.0000151982.85062.80 10.1097/01.JU.0000555971.26833.fl 10.1016/j.amcollsurg.2017.07.387 10.1016/j.ajog.2016.02.048 10.1001/jamasurg.2015.2405 10.1016/j.amjsurg.2009.07.035 10.1016/j.ophtha.2016.11.015 10.1016/j.juro.2011.09.032 10.1001/jamanetworkopen.2020.1664 10.1007/s00595-012-0313-7 10.1007/s00464-009-0539-7 10.1089/end.2012.0328 10.1097/SLA.0000000000003220 10.1016/S1072-7515(03)00237-
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Snippet	Study objective Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any... Study objectiveEvaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any... Evaluate a universal proficiency metric for Robotic Surgery Virtual Reality (VR) simulation that will allow comparison of all users across any VR...
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StartPage	5867
SubjectTerms	Abdominal Surgery Core curriculum Gastroenterology Gynecology Hepatology Medicine Medicine & Public Health New Technology Proctology Robotic surgery Robotics Simulation Standard deviation Students Surgery Virtual reality
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Title	Evaluation of a novel universal robotic surgery virtual reality simulation proficiency index that will allow comparisons of users across any virtual reality simulation curriculum
URI	https://link.springer.com/article/10.1007/s00464-021-08609-5 https://www.proquest.com/docview/2572076992 https://www.proquest.com/docview/2549208089
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