Abstract

Rectal cancer is an important cause of morbidity and mortality worldwide. The most effective and curative treatment is surgery, and the standard procedure is total mesorectal excision, initially performed by open surgery and posteriorly by minimally invasive techniques. Robotic surgery is an emerging technology that is expected to overcome the limitations of the laparoscopic approach. It has several advantages, including a stable camera platform with high definition three-dimensional image, flexible instrumentswith seven degrees of freedom, a third arm for fixed retraction, fine motion scaling, excellent dexterity, ambidextrous capability, elimination of physiological tremors and better ergonomics, that facilitate a steady and precise tissue dissection. The main technical disadvantages are the loss of tactile sensation and tensile feedback and the complex installation process. The aim of the present study is to review the importance and benefits of robotic surgery in rectal cancer, particularly in comparison with the laparoscopic approach. Intraoperative estimated blood loss, short and long-term outcomes as well as pathological outcomes were similar between robotic and laparoscopic surgery. The operative time is usually longer in robotic surgery and the high costs are still itsmajor drawback. Robotic surgery for rectal cancer demonstrated lower conversion rate to open surgery and benefits in urinary and sexual functions and has been established as a safe and feasible technique.

Keywords:
rectal cancer; minimally invasive surgery; robotic surgery

Resumo

O cancro do reto é uma importante causa de morbidade e mortalidade em todo o mundo. O único tratamento curativo e mais eficaz é a cirurgia, sendo que o procedimento padrão é a excisão total do mesoreto, inicialmente realizada por cirurgia aberta e mais tarde por técnicas minimamente invasivas. A cirurgia robótica é uma tecnologia emergente que pretende ultrapassar as limitações da laparoscopia. As vantagens incluem plataforma de câmera estável, imagem tridimensional com alta definição, instrumentos flexíveis com sete graus de liberdade, terceiro braço para retração fixa, movimentos finos, excelente destreza, ambidestria, eliminação do tremor fisiológico e maior conforto ergonômico, que facilitam uma disseção firme e precisa dos tecidos. As principais desvantagens técnicas são a perda da sensaçãotáctil e feedback tensional e o complexo processo de instalação. O objetivo deste estudo é fazer uma revisão bibliográfica da importância e dos benefícios da cirurgia robótica no cancro do reto, particularmente em comparação coma cirurgia laparoscópica. A perda estimada de sangue intraoperatória, os outcomes a curto e longo-prazo e os outcomes patológicos foram equivalentes entre a cirurgia robótica e laparoscópica. O tempo operatório é geralmente mais longo na cirurgia robótica e os elevados custos são a sua principal desvantagem. A cirurgia robótica no cancro do reto demonstrou menor taxa de conversão para cirurgia aberta e benefícios nas funções urinária e sexual e está estabelecida como uma técnica segura e viável.

Palavras-chave:
cancro do recto; cirurgia minimamente invasiva; cirurgia robótica

Introduction

According to data from The Global Cancer Incidence, Mortality and Prevalence (GLOBOCAN) 2018,¹1 Global Cancer Observatory. Cancer Today [Internet]. Lyon, FranceInternational Agency for Research on Cancer. [cited 2020 Jan 18]. Available from: https://gco.iarc.fr/today
https://gco.iarc.fr/today... colorectal cancer is the 3rd most common cancer worldwide, with an annual global incidence of 1,849,518 cases per year (10.2%), and the 2nd most deadly cancer in the world, with 880,792 deaths per year (9.2%). Rectal cancer represents 38% of all colorectal cancers, being a significant cause of morbidity and mortality worldwide. In Portugal, rectal cancer is the fifth most common cancer and the eighth deadliest.¹1 Global Cancer Observatory. Cancer Today [Internet]. Lyon, FranceInternational Agency for Research on Cancer. [cited 2020 Jan 18]. Available from: https://gco.iarc.fr/today
https://gco.iarc.fr/today...

The most effective and only curative treatment for the majority of patients with rectal cancer is surgery, and the standard procedure is total mesorectal excision (TME), introduced by Heald et al.²2 Heald RJ, Husband EM, Ryall RD. The mesorectum in rectal cancer surgery-the clue to pelvic recurrence? Br J Surg 1982;69(10): 613-616 in 1982.³3 Tomassi MJ, Taller J, Yuhan R, Ruan JH, Klaristenfeld DD. Robotic transanal minimally invasive surgery for the excision of rectal neoplasia: Clinical experience with 58 consecutive patients. Dis Colon Rectum 2019;62(03):279-285⁴4 Vignali A, Elmore U, Milone M, Rosati R. Transanal total mesorectal excision (TaTME): current status and future perspectives. Updates Surg 2019;71(01):29-37⁵5 Lee L, de Lacy B, Gomez Ruiz M, et al. A multicenter matched comparison of transanal and robotic total mesorectal excision for mid and low-rectal adenocarcinoma. Ann Surg 2019;270(06): 1110-1116⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464 Total mesorectal excision involves complete and sharp circumferential dissection and en bloc resection of the mesorectum, from the sacral promontory to the pelvic floor, to ensure negative circumferential and distal margins and complete removal of the local lymph nodes.⁷7 Wells KO, Peters WR. Minimally invasive surgery for locally advanced rectal cancer. Surg Oncol Clin N Am 2019;28(02): 297-308⁸8 Nozawa H, Watanabe T. Robotic surgery for rectal cancer. Asian J Endosc Surg 2017;10(04):364-371⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807 Therefore, TME is associated with reduced local recurrence rate, increased survival rates, and high sphincter-saving rate. As the pelvic autonomic nerves are outside the mesorectum, this technique also allows better preservation of the urinary and sexual functions.¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807¹¹11 Schmiegelow AFT, Broholm M, Gögenur I, Fode M. Evaluation of sexual and urinary function after implementation of robotassisted surgery for rectal cancer: A single-center study. Surg Laparosc Endosc Percutan Tech 2016;26(02):141-145¹²12 Wang G,Wang Z, Jiang Z, Liu J, Zhao J, Li J.Male urinary and sexual function after robotic pelvic autonomic nerve-preserving surgery for rectal cancer. Int J Med Robot 2017;13(01):¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640

Initially, during the 1980s, TME was performed by open surgery, which is still acceptable and commonly used in the treatment of rectal cancer. Currently, minimally invasive surgery techniques, such as laparoscopy and robotic surgery, are gaining popularity.¹⁴14 Alsowaina KN, Schlachta CM, Alkhamesi NA. Cost-effectiveness of current approaches in rectal surgery. Ann Med Surg (Lond) 2019; 45:36-39¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570

In 2004, the first laparoscopic TME (LaTME) for rectal cancer was reported, and, since then, it has been widely used.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852 Laparoscopic TME is a safe and effective approach with oncological outcomes, such as TME quality and resection margins, number of lymph nodes removed, local recurrence, and overall survival, comparable to those of open surgery.¹⁷17 Grass JK, Perez DR, Izbicki JR, Reeh M. Systematic review analysis of robotic and transanal approaches in TME surgery- A systematic review of the current literature in regard to challenges in rectal cancer surgery. Eur J Surg Oncol 2019;45(04):498-509¹⁸18 Huang YJ, Kang YN, Huang YM,Wu AT,WangW,Wei PL. Effects of laparoscopic vs robotic-assisted mesorectal excision for rectal cancer: An update systematic review and meta-analysis of randomized controlled trials. Asian J Surg 2019;42(06):657-666¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099 Additionally, it is consistently associated to improved short-term outcomes, including less tissue trauma, better cosmetic results, reduced analgesia, reduced intraoperative blood loss, less wound complications, less postoperative pain, faster recovery of oral intake and return to normal activities, faster recovery time and shorter hospital stay.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²²22 Chen ST, Wu MC, Hsu TC, et al; Health Economics and Outcome Research Group, National Taiwan University Hospital. Comparison of outcome and cost among open, laparoscopic, and robotic surgical treatments for rectal cancer: A propensity score matched analysis of nationwide inpatient sample data. J Surg Oncol 2018; 117(03):497-505²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142²⁴24 Sugoor P, Verma K, Chaturvedi A, et al. Robotic versus laparoscopic sphincter-preserving total mesorectal excision: A propensity case-matched analysis. Int J Med Robot 2019;15(01):e1965 Nonetheless, laparoscopy has limitations and is technically challenging in rectal cancer surgery, with a long learning curve, particularly due to the narrow and deep pelvic cavity and anatomical complexity.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852²⁴24 Sugoor P, Verma K, Chaturvedi A, et al. Robotic versus laparoscopic sphincter-preserving total mesorectal excision: A propensity case-matched analysis. Int J Med Robot 2019;15(01):e1965²⁵25 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(06):1034-1046 Unstable, assistant-dependent two-dimensional camera, straight and rigid instruments, poor dexterity, limited range of motion, poor ergonomics, reduction of tactile sensation and tremor amplification contribute to the difficulty of LaTME. Moreover, the conversion rate to open surgery is still considerably high.²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142²⁶26 Alfieri S, Di Miceli D, Menghi R, et al. Single-docking full robotic surgery for rectal cancer: A single-center experience. Surg Innov 2018;25(03):258-266²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338²⁸28 Li L, Zhang W, Guo Y, et al. Robotic versus laparoscopic rectal surgery for rectal cancer: A meta-analysis of 7 randomized controlled trials. Surg Innov 2019;26(04):497-504

Robotic surgery is an emerging technology that is expected to overcome the limitations of the laparoscopic approach.²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504 The first robotic TME (RoTME) for rectal cancer was performed in 2006.¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570¹⁷17 Grass JK, Perez DR, Izbicki JR, Reeh M. Systematic review analysis of robotic and transanal approaches in TME surgery- A systematic review of the current literature in regard to challenges in rectal cancer surgery. Eur J Surg Oncol 2019;45(04):498-509 Robotic systems provide a stable camera platform with high-definition three-dimensional image, flexible instruments with seven degrees of freedom that mimic and enhance human wrist movements and a third arm for fixed retraction. These features enable fine motion scaling, excellent dexterity, ambidextrous capability, elimination of physiological tremors, greater ergonomic comfort, and less fatigue for the surgeon, which facilitates a steady and precise dissection in deep and narrow spaces, such as the pelvic cavity, and ultimately may result in better clinical, oncological, and functional outcomes in rectal cancer treatment.¹⁷17 Grass JK, Perez DR, Izbicki JR, Reeh M. Systematic review analysis of robotic and transanal approaches in TME surgery- A systematic review of the current literature in regard to challenges in rectal cancer surgery. Eur J Surg Oncol 2019;45(04):498-509²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576³¹31 Tsukamoto S, Nishizawa Y, Ochiai H, et al. Surgical outcomes of robot-assisted rectal cancer surgery using the da Vinci Surgical System: amulti-center pilot Phase II study. Jpn J Clin Oncol 2017; 47(12):1135-1140³²32 Matsuyama T, Kinugasa Y, Nakajima Y, Kojima K. Robotic-assisted surgery for rectal cancer: Current state and future perspective. Ann Gastroenterol Surg 2018;2(06):406-412 Nevertheless, the robotic approach has disadvantages, particularly the loss of tactile sensation and tensile feedback, the complex installation process, and the high cost and maintenance fees.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585¹⁸18 Huang YJ, Kang YN, Huang YM,Wu AT,WangW,Wei PL. Effects of laparoscopic vs robotic-assisted mesorectal excision for rectal cancer: An update systematic review and meta-analysis of randomized controlled trials. Asian J Surg 2019;42(06):657-666²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142

More recently, a new technique has been performed and studied for the treatment of rectal cancer. Transanal TME (TaTME), first described in 2010, overcomes the difficulty of operating in a narrow pelvis and allows excellent access to the distal rectum and, consequently, a more accurate distal dissection with wider margins.⁴4 Vignali A, Elmore U, Milone M, Rosati R. Transanal total mesorectal excision (TaTME): current status and future perspectives. Updates Surg 2019;71(01):29-37⁵5 Lee L, de Lacy B, Gomez Ruiz M, et al. A multicenter matched comparison of transanal and robotic total mesorectal excision for mid and low-rectal adenocarcinoma. Ann Surg 2019;270(06): 1110-1116⁷7 Wells KO, Peters WR. Minimally invasive surgery for locally advanced rectal cancer. Surg Oncol Clin N Am 2019;28(02): 297-308¹⁷17 Grass JK, Perez DR, Izbicki JR, Reeh M. Systematic review analysis of robotic and transanal approaches in TME surgery- A systematic review of the current literature in regard to challenges in rectal cancer surgery. Eur J Surg Oncol 2019;45(04):498-509 However, it is a technically difficult procedure and, therefore, several authors proposed a transanal approach surgery using a robotic platform, with all its inherent advantages, which is proving to be a safe, feasible, and promising technique.³3 Tomassi MJ, Taller J, Yuhan R, Ruan JH, Klaristenfeld DD. Robotic transanal minimally invasive surgery for the excision of rectal neoplasia: Clinical experience with 58 consecutive patients. Dis Colon Rectum 2019;62(03):279-285³³33 Lee SG, Russ AJ, Casillas MA Jr. Laparoscopic transanal minimally invasive surgery (L-TAMIS) versus robotic TAMIS (R-TAMIS): short-term outcomes and costs of a comparative study. Surg Endosc 2019;33(06):1981-1987³⁴34 Huang YJ, Huang YM,WangWL, Tong YS, HsuW,Wei PL. Surgical outcomes of robotic transanal minimally invasive surgery for selected rectal neoplasms: A single-hospital experience. Asian J Surg 2020;43(01):290-296

The aim of this study is to review the importance and benefits of robotic surgery in rectal cancer, particularly in comparison with the laparoscopic approach.

Methods

A literature search was performed in PubMed between October and November 2019, for articles in English and Portuguese, published after 2014, using the terms robotic surgery and rectal cancer. In total, 69 articles were selected, including cross-referenced studies from the chosen articles.

Results and Discussion

Intraoperative Parameters

Operative Time

Robotic surgery is generally associated with longer operative time compared with laparoscopic and open approaches.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁰40 Liao G, Li YB, Zhao Z, Li X, Deng H, Li G. Robotic-assisted surgery versus open surgery in the treatment of rectal cancer: the current evidence. Sci Rep 2016;6:26981 Nevertheless, there is some variability, with some studies and meta-analysis reporting comparable results between robotic and laparoscopic surgery.¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640²⁸28 Li L, Zhang W, Guo Y, et al. Robotic versus laparoscopic rectal surgery for rectal cancer: A meta-analysis of 7 randomized controlled trials. Surg Innov 2019;26(04):497-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴²42 Wang Y, Zhao GH, Yang H, Lin J. A pooled analysis of robotic versus laparoscopic surgery for total mesorectal excision for rectal cancer. Surg Laparosc Endosc Percutan Tech 2016;26(03):259-264⁴³43 Sun Y, Xu H, Li Z, et al. Robotic versus laparoscopic low anterior resection for rectal cancer: a meta-analysis. World J Surg Oncol 2016;14:61⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435 A study by Crolla et al. showed that the mean operative time in the robotic group was significantly 40 minutes longer than in the laparoscopic group.³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570 The Robotic vs Laparoscopic Resection for Rectal Cancer (ROLARR) randomized clinical trial, a well-designed phase-III study with clear objectives and rigorous methodology, also demonstrated a significantly longer operative time in the robotic-assisted group, which was performed by surgeons with varying experience.³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 In contrast, Rouanet et al. reported no significant difference between RoTME and LaTME in terms of operative time in a retrospective study in which RoTME and LaTME were performed by the same senior surgeon.⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 In fact, surgeon and team experience seems to be one of the factors that improves operative time.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585²⁵25 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(06):1034-1046³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435 Mégevand et al. compared the operative time between the first 17 patients and the last 18 patients in both robotic and laparoscopic groups. Statistically significant difference in operative time was found between the two subpopulations of the robotic group. Additionally, considering only the last group of patients, no difference was found between laparoscopy and robotic surgery. These results show not only that the operative time decreases with experience but also that robotic and laparoscopic approaches are comparable once the learning curve is stabilized.²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338 Alfieri et al. made a similar comparison and also concluded that the operative time significantly decreases as the number of robotic surgeries performed increases.²⁶26 Alfieri S, Di Miceli D, Menghi R, et al. Single-docking full robotic surgery for rectal cancer: A single-center experience. Surg Innov 2018;25(03):258-266 Kim et al. also reported shorter operative time as the experience in robotic surgery increases.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852 The longer operative time of RoTME may also be related to the complexity of the technique itself, the set-up time and the robotic system.²⁶26 Alfieri S, Di Miceli D, Menghi R, et al. Single-docking full robotic surgery for rectal cancer: A single-center experience. Surg Innov 2018;25(03):258-266³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁴²42 Wang Y, Zhao GH, Yang H, Lin J. A pooled analysis of robotic versus laparoscopic surgery for total mesorectal excision for rectal cancer. Surg Laparosc Endosc Percutan Tech 2016;26(03):259-264 However, the latest version of the da Vinci system, with narrower arms and easier docking process, may contribute to decrease the operative time.³3 Tomassi MJ, Taller J, Yuhan R, Ruan JH, Klaristenfeld DD. Robotic transanal minimally invasive surgery for the excision of rectal neoplasia: Clinical experience with 58 consecutive patients. Dis Colon Rectum 2019;62(03):279-285³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308

With improvement of robotic systems and increased surgeon experience, the operative time of robotic surgery is expected to decrease in the future.

Estimated Blood Loss

Since robotic systems warrant better visualization and a more precise dissection, a lower estimated blood loss (EBL) in RoTME could be expected, in comparison with LaTME. In fact, some studies reported lower EBL as an advantage of robotic surgery.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴⁷47 Bedirli A, Salman B, Yuksel O. Robotic versus laparoscopic resection for mid and low rectal cancers. JSLS 2016;20(01):e2015.00110⁴⁸48 Lee SH, KimDH, LimSW. Robotic versus laparoscopic intersphincteric resection for low rectal cancer: a systematic review and meta-analysis. Int J Colorectal Dis 2018;33(12):1741-1753 Tang et al. inclusively reported no blood vessels injury nor intraoperative bleeding in a series of 392 patients who underwent RoTME.³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576 Contrariwise, several studies and meta-analysis failed to find any significant differences in EBL between RoTME and LaTME.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570²³23 Sun XY, Xu L, Lu JY, Zhang GN. Robotic versus conventional laparoscopic surgery for rectal cancer: systematic review and meta-analysis. Minim Invasive Ther Allied Technol 2019;28(03): 135-142²⁸28 Li L, Zhang W, Guo Y, et al. Robotic versus laparoscopic rectal surgery for rectal cancer: A meta-analysis of 7 randomized controlled trials. Surg Innov 2019;26(04):497-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴²42 Wang Y, Zhao GH, Yang H, Lin J. A pooled analysis of robotic versus laparoscopic surgery for total mesorectal excision for rectal cancer. Surg Laparosc Endosc Percutan Tech 2016;26(03):259-264 Nevertheless, low EBL is a clear advantage of minimally invasive techniques over open surgery.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055⁴⁰40 Liao G, Li YB, Zhao Z, Li X, Deng H, Li G. Robotic-assisted surgery versus open surgery in the treatment of rectal cancer: the current evidence. Sci Rep 2016;6:26981 Although the results are variable, rectal surgery is considered a relatively bloodless procedure, regardless of the approach.⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308

Conversion to Open Procedure

In general, conversion rate to open procedure is associated with higher intraoperative and postoperative complication rates, longer hospital stay, higher costs, and worse oncological outcome with increased postoperative mortality, higher long-term disease recurrence, and poorer survival.²⁵25 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(06):1034-1046²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338²⁸28 Li L, Zhang W, Guo Y, et al. Robotic versus laparoscopic rectal surgery for rectal cancer: A meta-analysis of 7 randomized controlled trials. Surg Innov 2019;26(04):497-504²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁴⁹49 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(04):190-201 Amongst the reasons for conversion to open surgery, the more frequently reported are obesity, difficulty in dissection, narrow pelvis, intraoperative hemorrhage and tumor invasion.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585²⁵25 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(06):1034-1046

Most studies demonstrate that RoTME has a significantly lower conversion rate than LaTME.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁵25 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(06):1034-1046²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579⁵⁰50 HopkinsMB, Geiger TM, BethurumAJ, et al. Comparing pathologic outcomes for robotic versus laparoscopic Surgery in rectal cancer resection: a propensity adjusted analysis of 7616 patients. Surg Endosc 2020;34(06):2613-2622 Kim et al. reported no need for conversion in the 60 RoTME performed.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852 Tang et al. reported only 7 conversions in 392 RoTME (1.8%), all within the first 50 cases.³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576 The ROLARR trial, however, found no statistically significant differences. Once again, it is important to note that robotic procedures were performed by surgeons with varying experience, some still in their learning curve. The authors analyzed the potential learning effects and concluded that lower conversion rate is a significant advantage of robotic surgery over laparoscopy when performed by experienced surgeons.³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 Moreover, this study reported a lower conversion rate when using robotic surgery in the subgroups of male patients, with typically narrower pelvis, and obese patients.³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580

The better conversion rate achieved by robotic surgery in rectal cancer may result from the characteristics of the robotic systems, namely high exposure, high three-dimensional definition, stable camera platform, ergonomic instruments and freedom of movements that enable a better visualization and dissection in the narrow pelvis.¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526

Notwithstanding the lower conversion rate of RoTME, the expected advantage over LaTME in terms of postoperative courses and oncological outcomes, discussed ahead, is yet to be established.²⁵25 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(06):1034-1046²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435

Ergonomic Comfort

The ergonomic comfort of the surgeon during surgery is an important parameter with impact on the quality of the surgical performance, surgical errors, and surgeon's well-being but seldom assessed in studies comparing robotic and laparoscopic rectal surgery.³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁵¹51 Lee GI, Lee MR, Clanton T, Sutton E, Park AE, Marohn MR. Comparative assessment of physical and cognitive ergonomics associated with robotic and traditional laparoscopic surgeries. Surg Endosc 2014;28(02):456-465⁵²52 van der Schatte Olivier RH, Van't Hullenaar CDP, Ruurda JP, Broeders IAMJ. Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 2009;23(06):1365-1371

Laparoscopic surgery certainly has advantages over open surgery, particularly in patient-related short-term outcomes. Nevertheless, the ergonomic conditions for surgeons are not especially favorable, due to the instability of the assistant-dependent camera, monitor positioning, rigid instruments with limited degrees of freedom and maintenance of awkward or uncomfortable positions for long periods of time, and, thus, require more physical and mental effort.⁵¹51 Lee GI, Lee MR, Clanton T, Sutton E, Park AE, Marohn MR. Comparative assessment of physical and cognitive ergonomics associated with robotic and traditional laparoscopic surgeries. Surg Endosc 2014;28(02):456-465⁵³53 Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg Endosc 2014;28(12):3379-3384⁵⁴54 TarrME, Brancato SJ, Cunkelman JA, Polcari A, Nutter B, Kenton K. Comparison of postural ergonomics between laparoscopic and robotic sacrocolpopexy: a pilot study. J Minim Invasive Gynecol 2015;22(02):234-238 Studies indicate that around 73 to 88% of laparoscopic surgeons report musculoskeletal pain or discomfort related with laparoscopy.⁵³53 Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg Endosc 2014;28(12):3379-3384⁵⁴54 TarrME, Brancato SJ, Cunkelman JA, Polcari A, Nutter B, Kenton K. Comparison of postural ergonomics between laparoscopic and robotic sacrocolpopexy: a pilot study. J Minim Invasive Gynecol 2015;22(02):234-238

In robotic surgery, the work environment is quite different. The surgeon sits at a remote-control console in a stable position, with forehead and arm-rests, and manipulates the camera and the lightweight masters that control the instruments with great range of motion, while observing the procedure through a stable three-dimensional image.⁵¹51 Lee GI, Lee MR, Clanton T, Sutton E, Park AE, Marohn MR. Comparative assessment of physical and cognitive ergonomics associated with robotic and traditional laparoscopic surgeries. Surg Endosc 2014;28(02):456-465⁵²52 van der Schatte Olivier RH, Van't Hullenaar CDP, Ruurda JP, Broeders IAMJ. Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 2009;23(06):1365-1371⁵³53 Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg Endosc 2014;28(12):3379-3384⁵⁵55 Hubert N, Gilles M, Desbrosses K, Meyer JP, Felblinger J, Hubert J. Ergonomic assessment of the surgeon's physical workload during standard and robotic assisted laparoscopic procedures. Int J Med Robot 2013;9(02):142-147⁵⁶56 Pigazzi A, Ellenhorn JDI, Ballantyne GH, Paz IB. Robotic-assisted laparoscopic low anterior resection with total mesorectal excision for rectal cancer. Surg Endosc 2006;20(10):1521-1525 These features contribute to a healthier and more ergonomic work environment. Actually, most studies report less physical and mental strain in robotic surgery than in laparoscopic surgery, with fewer occupational injuries, particularly musculoskeletal.³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁵¹51 Lee GI, Lee MR, Clanton T, Sutton E, Park AE, Marohn MR. Comparative assessment of physical and cognitive ergonomics associated with robotic and traditional laparoscopic surgeries. Surg Endosc 2014;28(02):456-465⁵²52 van der Schatte Olivier RH, Van't Hullenaar CDP, Ruurda JP, Broeders IAMJ. Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 2009;23(06):1365-1371⁵³53 Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg Endosc 2014;28(12):3379-3384⁵⁴54 TarrME, Brancato SJ, Cunkelman JA, Polcari A, Nutter B, Kenton K. Comparison of postural ergonomics between laparoscopic and robotic sacrocolpopexy: a pilot study. J Minim Invasive Gynecol 2015;22(02):234-238⁵⁵55 Hubert N, Gilles M, Desbrosses K, Meyer JP, Felblinger J, Hubert J. Ergonomic assessment of the surgeon's physical workload during standard and robotic assisted laparoscopic procedures. Int J Med Robot 2013;9(02):142-147⁵⁶56 Pigazzi A, Ellenhorn JDI, Ballantyne GH, Paz IB. Robotic-assisted laparoscopic low anterior resection with total mesorectal excision for rectal cancer. Surg Endosc 2006;20(10):1521-1525 These assessments were based on both objective parameters, such as muscle activation and heart rate, as well as subjective questionnaires, and the results were consistent. The surgeon's perception is that robotic system improves comfort and mental and physical efforts. Consistently, surgeon's monitoring revealed higher levels of muscle activation, namely in the back and shoulders, and increased heart rate during laparoscopy when compared with robotic surgery.⁵²52 van der Schatte Olivier RH, Van't Hullenaar CDP, Ruurda JP, Broeders IAMJ. Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 2009;23(06):1365-1371⁵³53 Zihni AM, Ohu I, Cavallo JA, Cho S, Awad MM. Ergonomic analysis of robot-assisted and traditional laparoscopic procedures. Surg Endosc 2014;28(12):3379-3384⁵⁵55 Hubert N, Gilles M, Desbrosses K, Meyer JP, Felblinger J, Hubert J. Ergonomic assessment of the surgeon's physical workload during standard and robotic assisted laparoscopic procedures. Int J Med Robot 2013;9(02):142-147 Furthermore, ergonomic improvements of robotic systems appear to be more beneficial to surgeons with greater experience in robotic surgery, underlining the importance of well-trained surgeons.⁵¹51 Lee GI, Lee MR, Clanton T, Sutton E, Park AE, Marohn MR. Comparative assessment of physical and cognitive ergonomics associated with robotic and traditional laparoscopic surgeries. Surg Endosc 2014;28(02):456-465

The improved ergonomic comfort of robotic surgery ensures better surgical performance and work satisfaction and may contribute to its acceptance amongst surgeons.³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570⁵²52 van der Schatte Olivier RH, Van't Hullenaar CDP, Ruurda JP, Broeders IAMJ. Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 2009;23(06):1365-1371⁵⁵55 Hubert N, Gilles M, Desbrosses K, Meyer JP, Felblinger J, Hubert J. Ergonomic assessment of the surgeon's physical workload during standard and robotic assisted laparoscopic procedures. Int J Med Robot 2013;9(02):142-147

Short-term Postoperative Parameters

Length of Hospital Stay

Although some studies⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579⁵⁰50 HopkinsMB, Geiger TM, BethurumAJ, et al. Comparing pathologic outcomes for robotic versus laparoscopic Surgery in rectal cancer resection: a propensity adjusted analysis of 7616 patients. Surg Endosc 2020;34(06):2613-2622 found significant shorter length of hospital stay following RoTME compared with LaTME, most meta-analysis demonstrated that there are no statistically significant differences between the two techniques in terms of hospital stay.¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570²⁵25 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(06):1034-1046⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308 Despite the technical advantages of robotic systems, the degree of surgical stress caused by RoTME and LaTME and recovery time appear to be similar.¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640

First Passing Flatus

Return to bowel function measurement is variable between studies, with some considering the first passing flatus and others first bowel movement.⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308 Prete et al. found a significant earlier recovery of bowel function after robotic surgery but stated that this is supported by very low quality evidence.²⁵25 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(06):1034-1046 Other studies also found a shorter time to first flatus following RoTME, yet only marginally significant and with little clinical significance at the moment.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338⁴⁹49 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(04):190-201 RoTME appears to be comparable to LaTME in terms of first passing flatus.¹⁸18 Huang YJ, Kang YN, Huang YM,Wu AT,WangW,Wei PL. Effects of laparoscopic vs robotic-assisted mesorectal excision for rectal cancer: An update systematic review and meta-analysis of randomized controlled trials. Asian J Surg 2019;42(06):657-666⁴²42 Wang Y, Zhao GH, Yang H, Lin J. A pooled analysis of robotic versus laparoscopic surgery for total mesorectal excision for rectal cancer. Surg Laparosc Endosc Percutan Tech 2016;26(03):259-264⁴³43 Sun Y, Xu H, Li Z, et al. Robotic versus laparoscopic low anterior resection for rectal cancer: a meta-analysis. World J Surg Oncol 2016;14:61⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁷47 Bedirli A, Salman B, Yuksel O. Robotic versus laparoscopic resection for mid and low rectal cancers. JSLS 2016;20(01):e2015.00110⁴⁸48 Lee SH, KimDH, LimSW. Robotic versus laparoscopic intersphincteric resection for low rectal cancer: a systematic review and meta-analysis. Int J Colorectal Dis 2018;33(12):1741-1753

Time of Return to Normal Diet

No significant difference was demonstrated in terms of time of return to normal diet between patients who underwent RoTME and LaTME.¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570⁴⁷47 Bedirli A, Salman B, Yuksel O. Robotic versus laparoscopic resection for mid and low rectal cancers. JSLS 2016;20(01):e2015.00110⁴⁸48 Lee SH, KimDH, LimSW. Robotic versus laparoscopic intersphincteric resection for low rectal cancer: a systematic review and meta-analysis. Int J Colorectal Dis 2018;33(12):1741-1753

Some studies applied, to all patients, fast-track/enhanced recovery after surgery (ERAS) protocols, that consist of a set of perioperative recommendations and aim to reduce surgical stress and improve surgical outcomes. These protocols include, amongst others, recommendations for early optimized nutrition, and, therefore, in these cases, time of return to normal diet was not considered as an outcome.¹²12 Wang G,Wang Z, Jiang Z, Liu J, Zhao J, Li J.Male urinary and sexual function after robotic pelvic autonomic nerve-preserving surgery for rectal cancer. Int J Med Robot 2017;13(01):²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338³⁶36 Crolla RMPH, Mulder PG, van der Schelling GP. Does robotic rectal cancer surgery improve the results of experienced laparoscopic surgeons? An observational single institution study comparing 168 robotic assisted with 184 laparoscopic rectal resections. Surg Endosc 2018;32(11):4562-4570³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610⁵⁷57 Asklid D, Gerjy R, Hjern F, Pekkari K, Gustafsson UO. Robotic vs laparoscopic rectal tumour surgery: a cohort study. Colorectal Dis 2019;21(02):191-199⁵⁸58 Eskicioglu C, Forbes SS, Aarts MA, Okrainec A, McLeod RS. Enhanced recovery after surgery (ERAS) programs for patients having colorectal surgery: a meta-analysis of randomized trials.J Gastrointest Surg 2009;13(12):2321-2329 Additionally, Asklid et al. compared compliance to the ERAS protocol between laparoscopic and robotic rectal cancer surgery, and the difference was not statistically significant.⁵⁷57 Asklid D, Gerjy R, Hjern F, Pekkari K, Gustafsson UO. Robotic vs laparoscopic rectal tumour surgery: a cohort study. Colorectal Dis 2019;21(02):191-199

Complications

Rectal cancer surgery is a procedure with a relatively high morbidity, averaging 39% in large trials.⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308 Postoperative complications include anastomotic leakage, surgical wound infection, intraabdominal abscess, ileus, postoperative bleeding, and cardiac and pulmonary complications. In general, no statistically significant difference was found between RoTME and LaTME neither in overall complication rate nor in each complication separately.¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁵⁹59 Bo T, Chuan L, Hongchang L, Chao Z, Huaxing L, Peiwu Y. Robotic versus laparoscopic rectal resection surgery: Short-term outcomes and complications: A retrospective comparative study. Surg Oncol 2019;29:71-77 Moreover, there are no significant differences in complication rate between minimally invasive techniques and open surgery.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴⁰40 Liao G, Li YB, Zhao Z, Li X, Deng H, Li G. Robotic-assisted surgery versus open surgery in the treatment of rectal cancer: the current evidence. Sci Rep 2016;6:26981⁶⁰60 Corbellini C, Biffi R, Luca F, et al. Open, laparoscopic, and robotic surgery for rectal cancer: medium-term comparative outcomes from a multicenter study. Tumori 2016;102(04):414-421

The ROLARR trial demonstrated similar complication rate following robotic and laparoscopic surgery and stated that there were no safety issues attributable to the robotic system.³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580 Chang et al. analyzed information from a prospectively designed database with 1,145 consecutive cases of robotic rectal surgery and reported an overall complication rate of 16.3%, of which 2.4% corresponded to severe complications. These results are lower than those reported for laparoscopic rectal surgery in previous studies. The authors identified the male gender, mid-low rectum tumors, combined organ resection, and clinical T category (cT3–4) as independent risk factors for robotic surgery complications. Other risk factors previously associated with laparoscopic or open surgery, such as body mass index ≥ 28, age ≥ 75, comorbidities, preoperative radio or chemoradiotherapy, and tumor size ≥ 5 cm, were not significant in this study.⁶¹61 ChangW,Wei Y, Ren L, et al. Short-termand long-term outcomes of robotic rectal surgery - from the real word data of 1145 consecutive cases in China. Surg Endosc 2019 Tsukamoto et al., in a multi-center pilot phase II study with 50 cases, reported similar overall and severe complication rates (16% and 4%, respectively) with anastomotic leakage being the most common complication. The authors suggest that the low complication rate may be associated, among others, with the robotic system characteristics that allow better visualization and mobilization, precise dissection and safe reconstruction.³¹31 Tsukamoto S, Nishizawa Y, Ochiai H, et al. Surgical outcomes of robot-assisted rectal cancer surgery using the da Vinci Surgical System: amulti-center pilot Phase II study. Jpn J Clin Oncol 2017; 47(12):1135-1140 Tang et al. also reported anastomotic leakage as the most frequent complication (4.1%) out of an overall complication rate of 10.2%.³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576

Additionally, no difference was found between the robotic and laparoscopic surgery in terms of reoperation rate.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429

Pathological Outcomes

Pathological outcomes are important to assess the quality of surgery and its oncological safety.⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027 The main objective of TME is to achieve a good quality mesorectal excision with negative resection margins and an acceptable number of harvested lymph nodes.⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027⁶³63 Esen E, Aytac E, Agcaoglu O, et al. Totally robotic versus totally laparoscopic surgery for rectal cancer. Surg Laparosc Endosc Percutan Tech 2018;28(04):245-249

Positive Circumferential Resection Margin/Radial Margin

Circumferential resection margin (CRM) is a well-known prognostic factor associated with local recurrence, distant metastasis and worse survival outcomes.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585²⁵25 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(06):1034-1046⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027 Positive CRM is usually defined as margin distance ≤ 1 mm.¹⁸18 Huang YJ, Kang YN, Huang YM,Wu AT,WangW,Wei PL. Effects of laparoscopic vs robotic-assisted mesorectal excision for rectal cancer: An update systematic review and meta-analysis of randomized controlled trials. Asian J Surg 2019;42(06):657-666²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027⁶³63 Esen E, Aytac E, Agcaoglu O, et al. Totally robotic versus totally laparoscopic surgery for rectal cancer. Surg Laparosc Endosc Percutan Tech 2018;28(04):245-249

Considering the better image, improved mobility and control and consequent more precise dissection provided by the robotic system, an improvement in pathological outcomes such as CRM would be expected. However, most studies failed to demonstrate a statistically significant superiority of robotic surgery over laparoscopy regarding CRM.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁵25 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(06):1034-1046³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579⁶⁴64 de Jesus JP, Valadão M, de Castro Araujo RO, Cesar D, Linhares E, Iglesias AC. The circumferential resection margins status: A comparison of robotic, laparoscopic and open total mesorectal excision for mid and low rectal cancer. Eur J Surg Oncol 2016;42 (06):808-812 The ROLARR trial reported positive CRM in 5.1% and 6.2% of cases in the robotic and laparoscopic groups, respectively, which was not statistically significant.³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580 A meta-analysis by Prete et al. reported a CRM involvement of < 5%, similar between the two techniques.²⁵25 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(06):1034-1046 A study by Chang et al. including 1,145 cases of robotic rectal cancer surgery reported a positive CRM rate of 1.3%, and Tang et al., in a series of 392 cases, reported 2.5% of CRM involvement, which supports the safety and feasibility of RoTME.³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576⁶¹61 ChangW,Wei Y, Ren L, et al. Short-termand long-term outcomes of robotic rectal surgery - from the real word data of 1145 consecutive cases in China. Surg Endosc 2019 Moreover, no significant difference was found between these minimally invasive techniques and open surgery.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055⁶⁰60 Corbellini C, Biffi R, Luca F, et al. Open, laparoscopic, and robotic surgery for rectal cancer: medium-term comparative outcomes from a multicenter study. Tumori 2016;102(04):414-421⁶⁴64 de Jesus JP, Valadão M, de Castro Araujo RO, Cesar D, Linhares E, Iglesias AC. The circumferential resection margins status: A comparison of robotic, laparoscopic and open total mesorectal excision for mid and low rectal cancer. Eur J Surg Oncol 2016;42 (06):808-812

Lymph Nodes Harvested

Another important parameter with impact on the patient's prognosis is the number of harvested lymph nodes (HLN).¹⁸18 Huang YJ, Kang YN, Huang YM,Wu AT,WangW,Wei PL. Effects of laparoscopic vs robotic-assisted mesorectal excision for rectal cancer: An update systematic review and meta-analysis of randomized controlled trials. Asian J Surg 2019;42(06):657-666²⁵25 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(06):1034-1046 For TME, it is recommended to harvest a minimum of 12 lymph nodes and a lower number may be associated with increased risk of recurrence and worse survival.⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027⁶³63 Esen E, Aytac E, Agcaoglu O, et al. Totally robotic versus totally laparoscopic surgery for rectal cancer. Surg Laparosc Endosc Percutan Tech 2018;28(04):245-249

Although some results regarding HLN are contradictory, the average number of HLN in RoTME is usually similar to that in LaTME and both are beyond the minimum recommended.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁵25 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(06):1034-1046²⁷27 Mégevand JL, Lillo E, Amboldi M, Lenisa L, Ambrosi A, Rusconi A. TME for rectal cancer: consecutive 70 patients treated with laparoscopic and robotic technique-cumulative experience in a single centre. Updates Surg 2019;71(02):331-338³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁶⁴64 de Jesus JP, Valadão M, de Castro Araujo RO, Cesar D, Linhares E, Iglesias AC. The circumferential resection margins status: A comparison of robotic, laparoscopic and open total mesorectal excision for mid and low rectal cancer. Eur J Surg Oncol 2016;42 (06):808-812 Chang et al., Tang et al. and Kim et al., in their series of cases of robotic rectal surgery, reported a mean number of HLN of 17, 14.6 and 20.1, respectively, all greater than 12 HLN, ensuring the safety of RoTME.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576⁶¹61 ChangW,Wei Y, Ren L, et al. Short-termand long-term outcomes of robotic rectal surgery - from the real word data of 1145 consecutive cases in China. Surg Endosc 2019 When comparing robotic and laparoscopic approaches with open surgery, no significant difference was found.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055⁶⁰60 Corbellini C, Biffi R, Luca F, et al. Open, laparoscopic, and robotic surgery for rectal cancer: medium-term comparative outcomes from a multicenter study. Tumori 2016;102(04):414-421⁶⁴64 de Jesus JP, Valadão M, de Castro Araujo RO, Cesar D, Linhares E, Iglesias AC. The circumferential resection margins status: A comparison of robotic, laparoscopic and open total mesorectal excision for mid and low rectal cancer. Eur J Surg Oncol 2016;42 (06):808-812

Distal and Proximal Resection Margins

The length of distal and proximal resection margins (DRMs and PRMs, respectively) are also important parameters to assess surgical quality and may affect long-term oncological outcomes.⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435

In most studies, the length of the DRM or DRM involvement (usually ≤ 1 mm) achieved by RoTME was comparable to that obtained with LaTME and open surgery.⁶6 Jones K, Qassem MG, Sains P, Baig MK, Sajid MS. Robotic total meso-rectal excision for rectal cancer: A systematic review following the publication of the ROLARR trial. World J Gastrointest Oncol 2018;10(11):449-464²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁵35 Ishihara S, Kiyomatsu T, Kawai K, et al. The short-term outcomes of robotic sphincter-preserving surgery for rectal cancer: comparison with open and laparoscopic surgery using a propensity score analysis. Int J Colorectal Dis 2018;33(08):1047-1055³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 The average DRM length of robotic surgery reported by Tang et al. and Kim et al. was 3.5 cm and 3.1 cm, respectively, which is considered a safe margin.¹⁶16 Kim CN, Bae SU, Lee SG, et al. Clinical and oncologic outcomes of totally robotic total mesorectal excision for rectal cancer: initial results in a center for minimally invasive surgery. Int J Colorectal Dis 2016;31(04):843-852³⁰30 Tang B, Zhang C, Li C, et al. Robotic total mesorectal excision for rectal cancer: A series of 392 cases andmid-termoutcomes froma single center in china. J Gastrointest Surg 2017;21(03):569-576

Although few studies evaluated PRM, no statistically significant difference was found between RoTME and LaTME.¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027

Quality of the Mesorectum

Macroscopic TME completeness has been reported to reflect the quality of the surgery more precisely than CRM.²⁵25 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(06):1034-1046⁴¹41 Xiong B, Ma L, Huang W, Zhao Q, Cheng Y, Liu J. Robotic versus laparoscopic total mesorectal excision for rectal cancer: a metaanalysis of eight studies. J Gastrointest Surg 2015;19(03): 516-526⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435 Incomplete TME may result in worse long-term oncological outcomes with increased risk of local recurrence and worse survival.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435

Robotic systems provide improved image, flexibility, freedom of movement, and control of instruments that enable a better grasping and traction, consequently causing less tissue shearing, which would likely translate into better TME completeness. In fact, some studies demonstrated a statistically significant superiority of robotic surgery in terms of TME quality, although there is no evidence that this affects long-term outcomes such as survival rate, as will be further discussed.⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁶⁵65 Milone M, Manigrasso M, Velotti N, et al. Completeness of total mesorectum excision of laparoscopic versus robotic surgery: a review with a meta-analysis. Int J Colorectal Dis 2019;34(06): 983-991 Contrarily, several studies found no significant difference in TME quality between robotic and laparoscopic techniques.¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623²¹21 Valverde A, Goasguen N, Oberlin O, et al. Robotic versus laparoscopic rectal resection for sphincter-saving surgery: pathological and short-term outcomes in a single-center analysis of 130 consecutive patients. Surg Endosc 2017;31(10):4085-4091²⁵25 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(06):1034-1046⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579⁶²62 Liao G, Zhao Z, Deng H, Li X. Comparison of pathological outcomes between robotic rectal cancer surgery and laparoscopic rectal cancer surgery: A meta-analysis based on seven randomized controlled trials. Int J Med Robot 2019;15(05):e2027 Rouanet et al. found that 98% and 99% of cases were graded as complete or nearly complete in the RoTME and LaTME groups, respectively.⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 Chang et al. reported no cases of incomplete mesorectum in their study of 1,145 cases of robotic rectal surgery, and Alfieri et al. reported 98.3% of complete or near complete mesorectum.²⁶26 Alfieri S, Di Miceli D, Menghi R, et al. Single-docking full robotic surgery for rectal cancer: A single-center experience. Surg Innov 2018;25(03):258-266⁶¹61 ChangW,Wei Y, Ren L, et al. Short-termand long-term outcomes of robotic rectal surgery - from the real word data of 1145 consecutive cases in China. Surg Endosc 2019 These results, although comparable with those of LaTME, are very satisfactory and validate the safety of TME.¹⁹19 Ohtani H, Maeda K, Nomura S, et al. Meta-analysis of robotassisted versus laparoscopic surgery for rectal cancer. In Vivo 2018;32(03):611-623⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435

Functional Outcomes

Urinary and sexual dysfunction are well-known sequelae, whether temporary or definitive, of rectal cancer surgery, due to unintentional injury or excision of pelvic autonomic nerves.⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁶⁶66 Kim HJ, Choi GS, Park JS, Park SY, Yang CS, Lee HJ. The impact of robotic surgery on quality of life, urinary and sexual function following total mesorectal excision for rectal cancer: a propensity score-matched analysis with laparoscopic surgery. Colorectal Dis 2018;20(05):O103-O113

The robotic systems' features, namely stable high definition three-dimensional image, flexible-wristed tremor-free instruments and steady counter-traction by the third arm that enable precise dissection even in confined spaces such as the pelvic cavity, are expected to translate into greater preservation of autonomic nerves and consequently of the urinary and sexual functions.⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁶⁶66 Kim HJ, Choi GS, Park JS, Park SY, Yang CS, Lee HJ. The impact of robotic surgery on quality of life, urinary and sexual function following total mesorectal excision for rectal cancer: a propensity score-matched analysis with laparoscopic surgery. Colorectal Dis 2018;20(05):O103-O113⁶⁷67 Tang X, Wang Z, Wu X, Yang M, Wang D. Robotic versus laparoscopic surgery for rectal cancer in male urogenital function preservation, a meta-analysis. World J Surg Oncol 2018;16(01): 196 In fact, several studies suggest that robotic surgery is advantageous in terms of these functional outcomes.¹²12 Wang G,Wang Z, Jiang Z, Liu J, Zhao J, Li J.Male urinary and sexual function after robotic pelvic autonomic nerve-preserving surgery for rectal cancer. Int J Med Robot 2017;13(01):⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁹49 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(04):190-201⁶⁶66 Kim HJ, Choi GS, Park JS, Park SY, Yang CS, Lee HJ. The impact of robotic surgery on quality of life, urinary and sexual function following total mesorectal excision for rectal cancer: a propensity score-matched analysis with laparoscopic surgery. Colorectal Dis 2018;20(05):O103-O113⁶⁷67 Tang X, Wang Z, Wu X, Yang M, Wang D. Robotic versus laparoscopic surgery for rectal cancer in male urogenital function preservation, a meta-analysis. World J Surg Oncol 2018;16(01): 196⁶⁸68 Broholm M, Pommergaard HC, Gögenür I. Possible benefits of robot-assisted rectal cancer surgery regarding urological and sexual dysfunction: a systematic review and meta-analysis. Colorectal Dis 2015;17(05):375-381

Kim et al. concluded that robotic surgery in male patients resulted in less urinary and sexual function deterioration and faster recovery, compared with laparoscopic surgery. The authors analyzed urinary and sexual functions at baseline, 3, 6, and 12 months after surgery. The urogenital function was impaired at 3 months after surgery in both robotic and laparoscopic groups and then progressively improved, which is consistent with the expected resolution of postoperative tissue inflammation and nerve repair. In male patients, urinary function at 6 months, although different from baseline in both groups, was significantly better in the robotic group. At 12 months, urinary function was similar between the groups but only comparable to baseline in the robotic group. In female patients, no significant difference was found regarding urinary function, which may be justified by the more difficult approach to the male pelvic cavity that is usually narrower and deeper. Therefore, male patients may benefit more from robotic rectal cancer surgery. In terms of sexual function, no differences were found between the groups, but male patients in the robotic group recovered to baseline function at 6 months, faster than the ones from the laparoscopic group, that recovered at 12 months.⁶⁶66 Kim HJ, Choi GS, Park JS, Park SY, Yang CS, Lee HJ. The impact of robotic surgery on quality of life, urinary and sexual function following total mesorectal excision for rectal cancer: a propensity score-matched analysis with laparoscopic surgery. Colorectal Dis 2018;20(05):O103-O113 A study by Tang et al. suggested that robotic surgery may result in faster recovery of urogenital function.⁶⁷67 Tang X, Wang Z, Wu X, Yang M, Wang D. Robotic versus laparoscopic surgery for rectal cancer in male urogenital function preservation, a meta-analysis. World J Surg Oncol 2018;16(01): 196 Wang et al. compared urinary and sexual functions at baseline and 12 months after surgery and demonstrated that robotic surgery significantly preserves urinary and sexual functions.¹²12 Wang G,Wang Z, Jiang Z, Liu J, Zhao J, Li J.Male urinary and sexual function after robotic pelvic autonomic nerve-preserving surgery for rectal cancer. Int J Med Robot 2017;13(01): A meta-analysis by Broholm et al. showed an inconsistent tendency toward improved urinary and sexual functions following robotic surgery suggesting that further investigation is necessary to assess functional outcomes.⁶⁸68 Broholm M, Pommergaard HC, Gögenür I. Possible benefits of robot-assisted rectal cancer surgery regarding urological and sexual dysfunction: a systematic review and meta-analysis. Colorectal Dis 2015;17(05):375-381 The ROLARR trial compared urinary and sexual functions between the robotic and laparoscopic groups at 6 months after surgery and found no statistically significant differences. Furthermore, the authors state that, given the small differences between baseline and 6 months evaluation, autonomic nerve preservation was accomplished, and urinary and sexual dysfunctions were infrequent events in both robotic and laparoscopic groups.³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580

In conclusion, robotic surgery appears to have some benefits in terms of urinary and sexual functions.

Long-term Parameters

Long-term outcomes are also important to evaluate the oncologic safety of the robotic approach in rectal cancer surgery and include overall survival, disease-free survival and local recurrences.

Overall survival and disease-free survival at 3 and 5 years are comparable between RoTME and LaTME.¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579⁵⁰50 HopkinsMB, Geiger TM, BethurumAJ, et al. Comparing pathologic outcomes for robotic versus laparoscopic Surgery in rectal cancer resection: a propensity adjusted analysis of 7616 patients. Surg Endosc 2020;34(06):2613-2622 In a study by Feroci et al., the 3-year overall and disease-free survival rates were 90.2% and 79.2% in RoTME and 90.0% and 83.4% in LaTME, differences not statistically significant.³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610 Rouanet et al. reported lower 3-year overall survival rates of 84.1% and 88.4% in RoTME and LaTME, respectively, also non-statistically significant.⁴⁶46 Rouanet P, Bertrand MM, Jarlier M, et al. Robotic versus laparoscopic total mesorectal excision for sphincter-saving surgery: Results of a single-center series of 400 consecutive patients and perspectives. Ann Surg Oncol 2018;25(12):3572-3579 Additionally, no statistically significant difference was found in 5-year overall and disease-free survival rates between the minimally invasive techniques and open surgery.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴⁰40 Liao G, Li YB, Zhao Z, Li X, Deng H, Li G. Robotic-assisted surgery versus open surgery in the treatment of rectal cancer: the current evidence. Sci Rep 2016;6:26981

No significant difference was found in 3-year local recurrence between RoTME and LaTME and between these minimally invasive techniques and open surgery.⁹9 Li X, Wang T, Yao L, et al. The safety and effectiveness of robotassisted versus laparoscopic TME in patients with rectal cancer: A meta-analysis and systematic review.Medicine (Baltimore) 2017; 96(29):e7585¹⁰10 Law WL, Foo DCC. Comparison of short-term and oncologic outcomes of robotic and laparoscopic resection for mid- and distal rectal cancer. Surg Endosc 2017;31(07):2798-2807¹³13 Ishihara S, Otani K, Yasuda K, et al. Recent advances in robotic surgery for rectal cancer. Int J Clin Oncol 2015;20(04):633-640¹⁵15 Hoshino N, SakamotoT, Hida K, Sakai Y. Robotic versus laparoscopic surgery for rectal cancer: an overview of systematic reviews with quality assessment of current evidence. Surg Today 2019;49 (07):556-570²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁷37 Feroci F, Vannucchi A, Bianchi PP, et al. Total mesorectal excision for mid and low rectal cancer: Laparoscopic vs robotic surgery. World J Gastroenterol 2016;22(13):3602-3610⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308⁴⁸48 Lee SH, KimDH, LimSW. Robotic versus laparoscopic intersphincteric resection for low rectal cancer: a systematic review and meta-analysis. Int J Colorectal Dis 2018;33(12):1741-1753

In conclusion, despite the above-mentioned features and advantages of robotic systems and short-term benefits reported by some studies, there is still no evidence of robotic surgery superiority in terms of the prognosis of patients with rectal cancer.

Cost

The major drawback and main limitation to widespread use of robotic surgery is the high costs.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308 Most studies found that robotic surgery has statistically significant higher overall costs than laparoscopic surgery, even excluding the acquisition and maintenance costs.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504³⁸38 Jayne D, Pigazzi A, Marshall H, et al. Effect of robotic-assisted vs conventional laparoscopic surgery on risk of conversion to open laparotomy among patients undergoing resection for rectal cancer: The ROLARR randomized clinical trial. JAMA 2017;318(16): 1569-1580³⁹39 Ielpo B, Duran H, Diaz E, et al. Robotic versus laparoscopic surgery for rectal cancer: a comparative study of clinical outcomes and costs. Int J Colorectal Dis 2017;32(10):1423-1429⁴⁴44 Melstrom K. Robotic rectal cancer surgery. Cancer Treat Res 2016; 168:295-308 According to Quero et al., the mean operating room costs and the mean costs of surgical equipment of robotic surgery are higher, to which the longer operative time may contribute, but no difference was found regarding hospital stay costs between robotic and laparoscopic surgery, which may be related to similar length of hospital stay and complication rate.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504

Nevertheless, the development of new robotic platforms is expected to result in a reduction of costs associated with robotic surgery and ultimately in its widespread use.²⁹29 Quero G, Rosa F, Ricci R, et al. Open versus minimally invasive surgery for rectal cancer: a single-center cohort study on 237 consecutive patients. Updates Surg 2019;71(03):493-504⁴⁵45 Kwak JM, Kim SH. Robotic surgery for rectal cancer: An update in 2015. Cancer Res Treat 2016;48(02):427-435

High-risk Patients

High-risk patients are those in which pelvic surgery is significantly more challenging and include the following characteristics: male gender, obesity, preoperative chemoradiotherapy, tumors < 8 cm from the anus, and previous abdominal surgery.²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099⁶⁴64 de Jesus JP, Valadão M, de Castro Araujo RO, Cesar D, Linhares E, Iglesias AC. The circumferential resection margins status: A comparison of robotic, laparoscopic and open total mesorectal excision for mid and low rectal cancer. Eur J Surg Oncol 2016;42 (06):808-812 In high-risk patients, robotic surgery appears to have additional benefits compared with laparoscopic surgery, namely higher sphincter preservation rate, reduced blood loss, reduced conversion rate and shorter length of stay.²⁰20 Ahmed J, Cao H, Panteleimonitis S, Khan J, Parvaiz A. Robotic vs laparoscopic rectal surgery in high-risk patients. Colorectal Dis 2017;19(12):1092-1099⁶³63 Esen E, Aytac E, Agcaoglu O, et al. Totally robotic versus totally laparoscopic surgery for rectal cancer. Surg Laparosc Endosc Percutan Tech 2018;28(04):245-249

In elderly and very elderly patients (> 65 years old and ≥ 80 years old, respectively), who have a significantly higher American Society of Anesthesiologists (ASA) score and comorbidity index, the conversion rate to open surgery and the complication rate following robotic surgery were similar to those of the younger population (≤ 65 years old). Thus, robotic surgery is also safe and feasible in elderly and very elderly patients and should be an option in these populations, although a multidisciplinary case-to-case selection is advisable.⁶⁹69 Ramallo-Solis I, Jimenez-Rodriguez RM, Reyes-Diaz ML, et al. Influence of robotics in surgical complication rate in elderly population with rectal cancer. Aging Clin Exp Res 2019

Conclusion

Robotic surgery, with its high definition three-dimensional image and flexible instruments with high freedom of movements, has a major importance in rectal cancer, given the technical difficulty of operating in a confined and deep space such as the pelvic cavity. In terms of intraoperative EBL, short and long-term outcomes, and pathological outcomes, RoTME is similar to LaTME. The operative time is usually longer in robotic surgery, but there is a tendency to improve with surgeon experience and improvement of robotic systems. The high costs are still its major drawback, and it is essential to understand in which cases robotic surgery is more beneficial, with special attention to high-risk patients. Notwithstanding, robotic surgery for rectal cancer demonstrated lower conversion rate to open surgery, benefits in the functional outcomes and in the urinary and sexual functions, and it has been established as a safe and feasible technique with improved ergonomic comfort for surgeons.

References

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