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Page 193 Body et al. Art Int Surg 2022;2:186-94 https://dx.doi.org/10.20517/ais.2022.28

13. Guerrini GP, Esposito G, Magistri P, et al. Robotic versus laparoscopic gastrectomy for gastric cancer: the largest meta-analysis. Int J
Surg 2020;82:210-28. DOI PubMed
14. Gall TM, Pencavel TD, Cunningham D, Nicol D, Jiao LR. Transition from open and laparoscopic to robotic pancreaticoduodenectomy
in a UK tertiary referral hepatobiliary and pancreatic centre - early experience of robotic pancreaticoduodenectomy. HPB (Oxford)
2020;22:1637-44. DOI PubMed
15. Prete FP, Pezzolla A, Prete F, et al. Robotic versus laparoscopic minimally invasive surgery for rectal cancer: a systematic review and
meta-analysis of randomized controlled trials. Ann Surg 2018;267:1034-46. DOI PubMed
16. Basiri A, de la Rosette JJ, Tabatabaei S, Woo HH, Laguna MP, Shemshaki H. Comparison of retropubic, laparoscopic and robotic
radical prostatectomy: who is the winner? World J Urol 2018;36:609-21. DOI PubMed
17. Lanfranco AR, Castellanos AE, Desai JP, Meyers WC. Robotic surgery: a current perspective. Ann Surg 2004;239:14-21. DOI
PubMed PMC
18. Diana M, Marescaux J. Robotic surgery. Br J Surg 2015;102:e15-28. DOI PubMed
19. Giulianotti PC, Sbrana F, Bianco FM, et al. Robot-assisted laparoscopic pancreatic surgery: single-surgeon experience. Surg Endosc
2010;24:1646-57. DOI PubMed
20. Ji WB, Wang HG, Zhao ZM, Duan WD, Lu F, Dong JH. Robotic-assisted laparoscopic anatomic hepatectomy in China: initial
experience. Ann Surg 2011;253:342-8. DOI PubMed
21. Zureikat AH, Beane JD, Zenati MS, et al. 500 minimally invasive robotic pancreatoduodenectomies: one decade of optimizing
performance. Ann Surg 2021;273:966-72. DOI PubMed PMC
22. Sheetz KH, Claflin J, Dimick JB. Trends in the adoption of robotic surgery for common surgical procedures. JAMA Netw Open
2020;3:e1918911. DOI PubMed PMC
23. Childers CP, Maggard-Gibbons M. Estimation of the acquisition and operating costs for robotic surgery. JAMA 2018;320:835-6. DOI
PubMed PMC
24. Panni RZ, Guerra J, Hawkins WG, Hall BL, Asbun HJ, Sanford DE. National pancreatic fistula rates after minimally invasive
pancreaticoduodenectomy: a NSQIP analysis. J Am Coll Surg 2019;229:192-199.e1. DOI PubMed
25. Lam K, Clarke J, Purkayastha S, Kinross JM. Uptake and accessibility of surgical robotics in England. Int J Med Robot 2021;17:1-7.
DOI PubMed
26. Hanna T, Imber C. Robotics in HPB surgery. Ann R Coll Surg Engl 2018;100:31-7. DOI PubMed PMC
27. Lai ECH, Tang CN. Training robotic hepatectomy: the Hong Kong experience and perspective. Hepatobiliary Surg Nutr 2017;6:222-9.
DOI PubMed PMC
28. Hawksworth J, Llore N, Holzner ML, et al. Robotic hepatectomy is a safe and cost-effective alternative to conventional open
hepatectomy: a single-center preliminary experience. J Gastrointest Surg 2021;25:825-8. DOI PubMed
29. Bozkurt E, Sijberden JP, Hilal MA. What is the current role and what are the prospects of the robotic approach in liver surgery?
Cancers 2022;14:4268. DOI PubMed PMC
30. Conlon KC, de Rooij T, van Hilst J, et al; Minimally Invasive Pancreatic Resection Organizing Committee. Minimally invasive
pancreatic resections: cost and value perspectives. HPB (Oxford) 2017;19:225-33. DOI PubMed
31. Ryoo DY, Eskander MF, Hamad A, et al. Mitigation of the robotic pancreaticoduodenectomy learning curve through comprehensive
training. HPB (Oxford) 2021;23:1550-6. DOI PubMed
32. Liu R, Wakabayashi G, Palanivelu C, et al. International consensus statement on robotic pancreatic surgery. Hepatobiliary Surg Nutr
2019;8:345-60. DOI PubMed PMC
33. Asbun HJ, Moekotte AL, Vissers FL, et al; International Study Group on Minimally Invasive Pancreas Surgery (I-MIPS). The miami
international evidence-based guidelines on minimally invasive pancreas resection. Ann Surg 2020;271:1-14. DOI PubMed
34. Herron DM, Marohn M; SAGES-MIRA Robotic Surgery Consensus Group. A consensus document on robotic surgery. Surg Endosc
2008;22:313-25; discussion 311. DOI PubMed
35. de Rooij T, van Hilst J, Boerma D, et al; Dutch Pancreatic Cancer Group. Impact of a nationwide training program in minimally
invasive distal pancreatectomy (LAELAPS). Ann Surg 2016;264:754-62. DOI
36. Hogg ME, Besselink MG, Clavien PA, et al; Minimally Invasive Pancreatic Resection Organizing Committee. Training in minimally
invasive pancreatic resections: a paradigm shift away from “See one, Do one, Teach one”. HPB (Oxford) 2017;19:234-45. DOI
PubMed
37. Knab LM, Zureikat AH, Zeh HJ 3rd, Hogg ME. Towards standardized robotic surgery in gastrointestinal oncology. Langenbecks Arch
Surg 2017;402:1003-14. DOI PubMed
38. Radi I, Tellez JC, Alterio RE, et al. Feasibility, effectiveness and transferability of a novel mastery-based virtual reality robotic training
platform for general surgery residents. Surg Endosc 2022;36:7279-87. DOI PubMed PMC
39. Mark Knab L, Zenati MS, Khodakov A, et al. Evolution of a novel robotic training curriculum in a complex general surgical oncology
fellowship. Ann Surg Oncol 2018;25:3445-52. DOI PubMed
40. LEARNBOT. European consortium on minimally invasive pancreatic surgery. Available from: http://e-mips.com/learnbot [Last
accessed on 8 Dec 2022].
41. Adam MA, Thomas S, Youngwirth L, Pappas T, Roman SA, Sosa JA. Defining a hospital volume threshold for minimally invasive
pancreaticoduodenectomy in the United States. JAMA Surg 2017;152:336-42. DOI PubMed PMC
42. Torphy RJ, Friedman C, Halpern A, et al. Comparing short-term and oncologic outcomes of minimally invasive versus open

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