REFERENCES 1. DATO Dutch Audit for Treatment of Obesity. DATO 2015-2019. Published 2019. https://dica.nl/jaarrapportage-2019/dato 2. Felsenreich DM, Yang W, Taskin HE, et al. Young-IFSO Bariatric/Metabolic Surgery Training and Education Survey. Obes Surg. 2023;33(9):2816-2830. 3. Yule S, Rowley D, Flin R, et al. Experience matters: comparing novice and expert ratings of nontechnical skills using the NOTSS system. ANZ J Surg. 2009;79(3):154-160. 4. Nieboer P, Cnossen F, Stevens M, Huiskes M, Bulstra SK, Jaarsma DA. Residents Think in the “Now” and Supervisors Think Ahead in the Operating Room. A Survey Study About Task Perception of Residents and Supervising Surgeons. J Surg Educ. 2021;78(1):104-112. 5. Hu JSL, Lu J, Tan WB, Lomanto D. Training improves laparoscopic tasks performance and decreases operator workload. Surg Endosc. 2016;30(5):1742-1746. 6. Tien T, Pucher PH, Sodergren MH, Sriskandarajah K, Yang GZ, Darzi A. Eye tracking for skills assessment and training: A systematic review. Journal of Surgical Research. 2014;191(1):169-178. 7. Dreyfus SE, Dreyfus HL. A Five-Stage Model of the Mental Activities Incolved in Directed Skill Acquisition.; 1980. 8. Higgins M, Madan C, Patel R. Development and decay of procedural skills in surgery: A systematic review of the effectiveness of simulation-based medical education interventions. Surgeon. 2021;19(4):e67-e77. 9. Ahlberg G, Enochsson L, Gallagher AG, et al. Proficiency-based virtual reality training significantly reduces the error rate for residents during their first 10 laparoscopic cholecystectomies. Am J Surg. 2007;193(6):797-804. 10. Lewis TM, Aggarwal R, Kwasnicki RM, et al. Can virtual reality simulation be used for advanced bariatric surgical training? Surgery (United States). 2012;151(6):779-784. 11. Boza C, Varas J, Buckel E, et al. A cadaveric porcine model for assessment in laparoscopic bariatric surgery - A validation study. Obes Surg. 2013;23(5):589-593. d 12. Zevin B. Simulation in Bariatric Surgery. In: Comprehensive Healthcare Simulation: Surgery and SurGical Subspecialties. 2019. 13. Kaijser MA, van Ramshorst GH, van Wagensveld BA, Veeger NJGM, Pierie JPEN. A New Procedure-Based Assessment of Operative Skills in Gastric Bypass Surgery, Evaluated by Video Fragment Rating. Obes Surg. 2024;(0123456789). 14. Bethlehem MS, Kramp KH, Van Det MJ, Ten Cate Hoedemaker HO, Veeger NJGM, Pierie JPEN. Development of a standardized training course for laparoscopic procedures using delphi methodology. J Surg Educ. 2014;71(6):810-816. 15. Dijkstra FA, Bosker RJI, Veeger NJGM, van Det MJ, Pierie JPEN. Procedural key steps in laparoscopic colorectal surgery, consensus through Delphi methodology. Surgical Endoscopy and Other Interventional Techniques. 2015;29(9):2620-2627. 16. Kramp KH, van Det MJ, Veeger NJGM, Pierie JPEN. Validity, reliability and support for implementation of independence-scaled procedural assessment in laparoscopic surgery. Surg Endosc. 2016;30(6):2288-2300. 17. Clark RE, Pugh CM, Yates KA, Inaba K, Green DJ, Sullivan ME. The use of cognitive task analysis to improve instructional descriptions of procedures. Journal of Surgical Research. 2012;173(1):e37e42. 18. Thorvald P, Hogeberg D, Case K. Incorporating Cognitive Aspects in Digital Human Modeling. (Duffy VG, ed.). CRC Press; 2016. 19. Zevin B, Bonrath EM, Aggarwal R, Dedy NJ, Ahmed N, Grantcharov TP. Development, feasibility, validity, and reliability of a scale for objective assessment of operative performance in laparoscopic gastric bypass surgery. J Am Coll Surg. 2013;216(5):955-965.e8. 8 167 General discussion and future perspectives
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