Alexander Beulens

358 48. Mitchell L, Flin R, Yule S, Mitchell J, Coutts K, Youngson G. Development of a behavioural marker system for scrub practitioners’ non-technical skills (SPLINTS system). J Eval Clin Pract [Internet]. 2013 Apr 1 [cited 2018 Oct 26];19(2):317–23. 49. Sharma B, Mishra A, Aggarwal R, Grantcharov TP. Non-technical skills assessment in surgery. Surg Oncol [Internet]. 2011;20(3):169–77. 50. Gjeraa K, Spanager L, Konge L, Petersen RH, Østergaard D. Non-technical skills in minimally invasive surgery teams: a systematic review. Surg Endosc. 2016;30(12):5185–99. 51. van der Vliet WJ, Haenen SM, Solis-Velasco M, Dejong CHC, Neumann UP, Moser AJ, van Dam RM. Systematic review of team performance in minimally invasive abdominal surgery. BJS Open. 2019;3(3):252–9. 52. Undre S, Sevdalis N, Healey AN, Darzi A, Vincent CA. Observational Teamwork Assessment for Surgery (OTAS): Refinement and Application in Urological Surgery. World J Surg [Internet]. 2007 Jun 16 [cited 2018 Oct 26];31(7):1373–81. 53. Raison N, Wood T, Brunckhorst O, Abe T, Ross T, Challacombe B, Shamim M, Giacomo K. Development and validation of a tool for non-technical skills evaluation in robotic surgery — the ICARS system. Surg Endosc. 2017;31(12):5403–10. 54. Cohen TN, Wiegmann DA, Reeves ST, Boquet AJ, Shappell SA. Coding Human Factors Observations in Surgery. Am J Med Qual. 2017;32(5):556– 62. 55. Beulens AJWAJW, Brinkman WM, Porte PJJ, Meijer RP, Van Merriënboer JJG, Van der Poel HG, Wagner C, Brinkman M, Porte PJJ, Meijer P, Merriënboer JJGVJG Van, Poel HGVDG Van Der. The value of a one-day multidisciplinary robot surgery training for novice robot surgeons. J Robot Surg [Internet]. 2018;13(3):435–47. 56. Beulens AJW, Brinkman WM, Van der Poel HG, Vis AN, van Basten JP, Meijer RP, Wijburg CJ, Hendrikx AJM, van Merriënboer JJG, Wagner C. Linking surgical skills to postoperative outcomes: a Delphi study on the robot-assisted radical prostatectomy. J Robot Surg [Internet]. 2019; 57. van Basten JPA, Somford RM, de Baaij J, Sedelaar M, Vrijhof E. Initiatief Comprehensive Prostate Cancer Network (CPCN) in Zuidoost Nederland. Tijdschr voor Urol. 2017;7(6–7):134–44. 58. Goldenberg MG, Goldenberg SL, Grantcharov TP. Mp51-15 Surgical Technical Performance Impacts Patient Outcomes in Robotic-Assisted Radical Prostatectomy. J Urol [Internet]. 2017;197(4S):S269–70. 59. Stern J, Sharma S, Mendoza P, Walicki M, Hastings R, Monahan K, Sheikh B, Wedmid A, Lee DI. Surgeon perception is not a good predictor of peri-operative outcomes in robot-assisted radical prostatectomy. J Robot Surg. 2011;5(4):283–8. 60. Bautista Vidal JC, García Galisteo E, Barón López J, Sánchez Martínez N, Hernández Alcaraz D, Morales Jiménez P, Vozmediano Chicharro R. Objective assessment of early urinary continence by analysis and visualisation of intraoperative variables of radical robotic prostatectomies with a video editor. Actas Urol Esp [Internet]. 2019;43(2):99–105. 61. Grivas N, van der Roest R, Tillier C, Schouten D, van Muilekom E, Schoots I, van der Poel H, Heijmink S. Patterns of Benign Prostate Hyperplasia Based on Magnetic Resonance Imaging Are Correlated With Lower Urinary Tract Symptoms and Continence in Men Undergoing a Robot-assisted Radical Prostatectomy for Prostate Cancer. Urology [Internet]. 2017;107:196–201. 62. Song W, Kim CK, Park BK, Jeon HG, Jeong BC, Seo S Il, Jeon SS, Choi HY, Lee HM. Impact of preoperative and postoperative membranous urethral length measured by 3 Tesla magnetic resonance imaging on urinary continence recovery after robotic-assisted radical prostatectomy. Can Urol Assoc J. 2017;11(3–4):E93–9. 63. Kohjimoto Y, Yamashita S, Kikkawa K, Iba A, Matsumura N, Hara I. The association of length of the resected membranous urethra with urinary incontinence after radical prostatectomy. Urol J. 2019;epub(c):2–6. 64. Hung AJ, Chen J, Jarc A, Hatcher D, Djaladat H, Gill IS. Development and Validation of Objective Performance Metrics for Robot-assisted Radical Prostatectomy – A Pilot Study. J Urol [Internet]. 2017 Jul 29 [cited 2017 Aug 9];199(1):296–304. 65. Ganni S, Botden SMBI, Chmarra M, Goossens RHM, Jakimowicz JJ. A software-based tool for video motion tracking in the surgical skills assessment landscape. Surg Endosc [Internet]. 2018 Jun 16 [cited 2018 Jun 21];32(6):2994–9. 66. Hung AJ, Chen J, Che Z, Nilanon T, Jarc A, Titus M, Oh PJ, Gill IS, Liu Y. Utilizing Machine Learning and Automated Performance Metrics to Evaluate Robot-Assisted Radical Prostatectomy Performance and Predict Outcomes. J Endourol [Internet]. 2018 May [cited 2019 Jul 25];32(5):438–44

RkJQdWJsaXNoZXIy MTk4NDMw