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Sebastián-Tomás et al. Mini-invasive Surg 2019;3:30 I http://dx.doi.org/10.20517/2574-1225.2019.29 Page 9 of 10

1998;(354):82-91.
34. Harris SJ, Arambula-Cosio F, Mei Q, Hibberd RD, Davies BL, et al. The probot--an active robot for prostate resection. Proc Inst Mech
Eng H 1997;211:317-25.
35. Fowler DL, White SA. Laparoscopy-assisted sigmoid resection. Surg Laparosc Endosc 1991;1:183-8.
36. Kraft BM, Jager C, Kraft K, Leibl BJ, Bittner R. The AESOP robot system in laparoscopic surgery: increased risk or advantage for
surgeon and patient? Surg Endosc 2004;18:1216-23.
37. Cheng CL, Rezac C. The role of robotics in colorectal surgery. BMJ 2018;360:j5304.
38. Nozawa H, Watanabe T. Robotic surgery for rectal cancer. Asian J Endosc Surg 2017;10:364-71.
39. Gorpas D, Phipps J, Bec J, Ma D, Dochow S, et al. Autofluorescence lifetime augmented reality as a means for real-time robotic
surgery guidance in human patients. Sci Rep 2019;9:1187.
40. Atallah S, Parra-Davila E, Melani AGF, Romagnolo LG, Larach SW, et al. Robotic-assisted stereotactic real-time navigation: initial
clinical experience and feasibility for rectal cancer surgery. Tech Coloproctol 2019;23:53-63.
41. Porpiglia F, Checcucci E, Amparore D, Autorino R, Piana A, et al. Augmented-reality robot-assisted radical prostatectomy using hyper-
accuracy three-dimensional reconstruction (HA3D) technology: a radiological and pathological study. BJU Int 2019;123:834-45.
42. Andolfi C, Umanskiy K. Appraisal and current considerations of robotics in colon and rectal surgery. J Laparoendosc Adv Surg Tech
A 2019;29:152-8.
43. Huang CW, Yeh YS, Ma CJ, Choy TK, Huang MY, et al. Robotic colorectal surgery for laparoscopic surgeons with limited experience:
preliminary experiences for 40 consecutive cases at a single medical center. BMC Surg 2015;15:73.
44. Jimenez-Rodriguez RM, Rubio-Dorado-Manzanares M, Diaz-Pavon JM, Reyes-Diaz ML, Vazquez-Monchul JM, et al. Learning
curve in robotic rectal cancer surgery: current state of affairs. Int J Colorectal Dis 2016;31:1807-15.
45. Odermatt M, Ahmed J, Panteleimonitis S, Khan J, Parvaiz A. Prior experience in laparoscopic rectal surgery can minimise the
learning curve for robotic rectal resections: a cumulative sum analysis. Surg Endosc 2017;31:4067-76.
46. Foo CC, Law WL. The learning curve of robotic-assisted low rectal resection of a novice rectal surgeon. World J Surg 2016;40:456-62.
47. Mohd Azman ZA, Kim SH. A review on robotic surgery in rectal cancer. Transl Gastroenterol Hepatol 2016;1:5.
48. Duchalais E, Machairas N, Kelley SR, Landmann RG, Merchea A, et al. Does prolonged operative time impact postoperative
morbidity in patients undergoing robotic-assisted rectal resection for cancer? Surg Endosc 2018;32:3659-66.
49. Gachabayov M, You K, Kim SH, Yamaguchi T, Jimenez-Rodriguez R, et al. Meta-analysis of the impact of the learning curve in
robotic rectal cancer surgery on histopathologic outcomes. Surg Technol Int 2019;34:139-55.
50. Szold A, Bergamaschi R, Broeders I, Dankelman J, Forgione A, et al. European association of endoscopic surgeons (EAES) consensus
statement on the use of robotics in general surgery. Surg Endosc 2015;29:253-88.
51. Baek SJ, Kim SH. Robotics in general surgery: an evidence-based review. Asian J Endosc Surg 2014;7:117-23.
52. Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg
Endosc 2014;28:3379-84.
53. Berguer R, Smith W. An ergonomic comparison of robotic and laparoscopic technique: the influence of surgeon experience and task
complexity. J Surg Res 2006;134:87-92.
54. Choi PJ, Oskouian RJ, Tubbs RS. Telesurgery: past, present, and future. Cureus 2018;10:e2716.
55. Abiri A, Pensa J, Tao A, Ma J, Juo YY, et al. Multi-Modal haptic feedback for grip force reduction in robotic surgery. Sci Rep
2019;9:5016.
56. Rao PP. Robotic surgery: new robots and finally some real competition! World J Urol 2018;36:537-41.
57. Bertani E, Chiappa A, Biffi R, Bianchi PP, Radice D, et al. Assessing appropriateness for elective colorectal cancer surgery: clinical,
oncological, and quality-of-life short-term outcomes employing different treatment approaches. Int J Colorectal Dis 2011;26:1317-27.
58. Baek SJ, Kim SH, Cho JS, Shin JW, Kim J. Robotic versus conventional laparoscopic surgery for rectal cancer: a cost analysis from a
single institute in Korea. World J Surg 2012;36:2722-9.
59. Ielpo B, Duran H, Diaz E, Fabra I, Caruso R, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of
clinical outcomes and costs. Int J Colorectal Dis 2017;32:1423-9.
60. Kim CW, Baik SH, Roh YH, Kang J, Hur H, et al. Cost-effectiveness of robotic surgery for rectal cancer focusing on short-term
outcomes: a propensity score-matching analysis. Medicine (Baltimore) 2015;94:e823.
61. Morelli L, Guadagni S, Lorenzoni V, Di Franco G, Cobuccio L, et al. Robot-assisted versus laparoscopic rectal resection for cancer
in a single surgeon’s experience: a cost analysis covering the initial 50 robotic cases with the da Vinci Si. Int J Colorectal Dis
2016;31:1639-48.
62. Biffi R, Luca F, Bianchi PP, Cenciarelli S, Petz W, et al. Dealing with robot-assisted surgery for rectal cancer: Current status and
perspectives. World J Gastroenterol 2016;22:546-56.
63. Cleary RK, Mullard AJ, Ferraro J, Regenbogen SE. The cost of conversion in robotic and laparoscopic colorectal surgery. Surg Endosc
2018;32:1515-24.
64. Ohtani H, Maeda K, Nomura S, Shinto O, Mizuyama Y, et al. Meta-analysis of robot-assisted versus laparoscopic surgery for rectal
cancer. In Vivo 2018;32:611-23.
65. Lee SH, Lim S, Kim JH, Lee KY. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-
analysis. Ann Surg Treat Res 2015;89:190-201.
66. Somashekhar SP, Ashwin KR, Rajashekhar J, Zaveri S. Prospective randomized study comparing robotic-assisted surgery with
traditional laparotomy for rectal cancer-Indian study. Indian J Surg 2015;77:788-94.

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