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Techniques in Coloproctology
Published in: Techniques in Coloproctology 7/2015

01-07-2015 | Original Article

Robotic transanal surgery for local excision of rectal neoplasia, transanal total mesorectal excision, and repair of complex fistulae: clinical experience with the first 18 cases at a single institution

Authors: S. Atallah, B. Martin-Perez, E. Parra-Davila, T. deBeche-Adams, G. Nassif, M. Albert, S. Larach

Published in: Techniques in Coloproctology | Issue 7/2015

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Abstract

Background

Robotic transanal surgery represents a natural evolution of transanal minimally invasive surgery. This new approach to rectal surgery provides the ability to perform local excision of rectal neoplasia with precision. Robotic transanal surgery can also be used to perform more advanced procedures including repair of complex fistulae and transanal total mesorectal excision.

Methods

Data from patients who underwent transanal robotic surgery over a 33-month period were retrospectively reviewed. Patients underwent three types of procedures using this approach: (a) local excision of rectal neoplasia, (b) transanal total mesorectal excision, and (c) closure of complex fistulae, such as rectourethral fistulae.

Results

Eighteen patients underwent robotic transanal surgery during the 33-month study period. Of these, nine patients underwent local excision of rectal neoplasia; four patients underwent transanal total mesorectal excision; four patients underwent repair of rectourethral fistulae; and one patient underwent repair of an anastomotic fistula. Of the patients undergoing robotic transanal surgery for local excision, 6/9 were resections of benign neoplasia, while 3/9 were resections for invasive adenocarcinoma. There was no fragmentation (0/9) noted on any of the locally excised specimens, while one patient (1/9) had a positive lateral margin. During the mean follow-up of 11.4 months, no recurrence was detected. Four patients underwent robotic-assisted transanal total mesorectal excision for curative intent resection of rectal cancer confined to the distal rectum. Mesorectal quality was graded as complete or near complete, and an R0 resection was performed in all four cases. Other transanal robotic procedures performed were the repair of rectourethral fistulae (n = 3) and anastomotic fistula (n = 1). This approach was met with limited success, and only half of the rectourethral fistulae were closed.

Conclusions

Robotic transanal surgery for local excision, transanal total mesorectal excision, and repair of fistulae is feasible, although these new approaches represent a work-in-progress. Improvement in platform design will likely facilitate the ability to perform more complex procedures. Further research with robotic transanal approaches is necessary to determine whether or not this approach can provide patients with significant benefit.

Literature
  1. Atallah S, Albert M, Larach S (2010) Transanal minimally invasive surgery: a giant leap forward. Surg Endosc 24:2200–2205PubMedView Article
  2. Buess G, Theiss R, Gunther M, Hutterer F, Pichlmaier H (1985) Transanal endoscopic microsurgery. Leber Magen Darm 15:271–279PubMed
  3. Martin-Perez B, Andrade-Ribeiro GD, Hunter L, Atallah S (2014) A systematic review of transanal minimally invasive surgery (TAMIS) from 2010 to 2013. Tech Coloproctol 18:775–788PubMedView Article
  4. Albert M, Atallah S, deBeche-Adams T, Izfar S, Larach S (2013) Transanal minimally invasive surgery (TAMIS) for local excision of benign neoplasms and earl-stage rectal cancer: efficacy and outcomes in the first 50 patients. Dis Colon Rectum 56:301–307PubMedView Article
  5. Lim SB, Seo SI, Lee JL, Kwak JY, Jang TY (2012) Feasibility of transanal minimally invasive surgery for mid-rectal lesions. Surg Endosc 26:3127–3132PubMedView Article
  6. McLemore EC, Weston LA, Coker AM et al (2014) Transanal minimally invasive surgery for benign and malignant rectal neoplasia. Am J Surg 208:372–381PubMedView Article
  7. Schiphorst AH, Langenhoff BS, Maring J, Pronk A, Zimmerman DD (2014) Transanal minimally invasive surgery: initial experience and short-term functional results. Dis Colon Rectum 57:927–932PubMedView Article
  8. Atallah S, Albert M, deBeche-Adams T, Larach S (2013) Transanal minimally invasive surgery (TAMIS): applications beyond local excision. Tech Coloproctol 17:239–243PubMedView Article
  9. Atallah S, Albert M, Debeche-Adams T, Nassif G, Polavarapu H, Larach S (2013) Transanal minimally invasive surgery for total mesorectal excision (TAMIS-TME): a stepwise description of the surgical technique with video demonstration. Tech Coloproctol 17:321–325PubMedView Article
  10. Atallah S, Martin-Perez B, Albert M et al (2014) Transanal minimally invasive surgery for total mesorectal excision (TAMIS-TME): results and experience with the first 20 patients undergoing curative-intent rectal cancer surgery at a single institution. Tech Coloproctol 18:473–480PubMedView Article
  11. McLemore EC, Coker AM, Devaraj B et al (2013) TAMIS-assisted laparoscopic low anterior resection with total mesorectal excision in a cadaveric series. Surg Endosc 27:3478–3484PubMed CentralPubMedView Article
  12. Marks J, Mizrahi B, Dalane S, Nweze I, Marks G (2010) Laparoscopic transanal abdominal transanal resection with sphincter preservation for rectal cancer in the distal 3 cm of the rectum after neoadjuvant therapy. Surg Endosc 24:2700–2707PubMedView Article
  13. Whiteford MH, Denk PM, Swanström LL (2007) Feasibility of radical sigmoid colectomy performed as natural orifice translumenal endoscopic surgery (NOTES) using transanal endoscopic microsurgery. Surg Endosc 21:1870–1874PubMedView Article
  14. Sylla P, Rattner DW, Delgado S, Lacy AM (2010) NOTES transanal rectal cancer resection using transanal endoscopic microsurgery and laparoscopic assistance. Surg Endosc 24:1205–1210PubMedView Article
  15. Atallah S (2014) Transanal minimally invasive surgery for total mesorectal excision. Minim Invasive Ther Allied Technol 23:10–16PubMedView Article
  16. Atallah S, Albert M (2014) Robotics in general surgery—robotic transanal surgery. Springer, New York, pp 261–266View Article
  17. Atallah SB, Albert MR, deBeche-Adams TH, Larach SW (2011) Robotic transanal minimally invasive surgery in a cadaveric model. Tech Coloproctol 15:461–464PubMedView Article
  18. Atallah S, Parra-Davila E, deBeche-Adams T, Albert M, Larach S (2012) Excision of a rectal neoplasm using robotic transanal surgery (RTS): a description of the technique. Tech Coloproctol 16:389–392PubMedView Article
  19. Bardakcioglu O (2012) Robotic transanal access surgery. Surg Endosc 27:1407–1409PubMedView Article
  20. Valls FV, Bassany EE, Jimenez-Gomez LM, Chavarria JR, Carrasco MA (2013) Robotic transanal endoscopic microsurgery in benign rectal tumour. J Robot Surg. doi:10.​1007/​s11701-013-0429-9
  21. Buchs NC, Pugin F, Volonte F, Hagen ME, Morel P, Ris F (2013) Robotic transanal endoscopic microsurgery: technical details for the lateral approach. Dis Colon Rectum 56:1194–1198PubMedView Article
  22. Atallah S, Quinteros F, Martin-Perez B, Larach S (2014) Robotic transanal surgery for local excision of rectal neoplasms. J Robot Surg 8:193–194View Article
  23. Hompes R, Rauh SM, Hagen ME, Mortensen NJ (2012) Preclinical cadaveric study of transanal endoscopic da Vinci surgery. Br J Surg 99:1144–1148PubMedView Article
  24. Hompes R, Rauh SM, Ris F, Tuynman JB, Mortensen NJ (2014) Robotic transanal minimally invasive surgery for local excision of rectal neoplasms. Br J Surg 101:578–581PubMedView Article
  25. Atallah S, Nassif G, Polavarapu H et al (2013) Robotic-assisted transanal surgery for total mesorectal excision (RATS-TME): a description of a novel surgical approach with video demonstration. Tech Coloproctol 17:441–447PubMedView Article
  26. Atallah S, Martin-Perez B, Pinan J et al (2014) Robotic transanal total mesorectal excision: a pilot study. Tech Coloproctol 18:1047–1053PubMedView Article
  27. Gomez Ruiz M, Martin Parra I, Calleja Iglesias A et al (2014) Preclinical cadaveric study of transanal robotic proctectomy with total mesorectal excision combined with laparoscopic assistance. Int J Med Robot. doi:10.​1002/​rcs.​1581 PubMed
  28. Gomez Ruiz M, Palazuelos CM, Martin Parra JJ et al (2014) New technique of transanal proctectomy with completely robotic total mesorectal excision for rectal cancer. Cir Esp 92:356–361PubMedView Article
  29. Verheijen PM, Consten EC, Broeders IA (2014) Robotic transanal total mesorectal excision for rectal cancer: experience with a first case. Int J Med Robot 10:423–426PubMedView Article
  30. Maughan NJ, Quirke P (2003) Modern management of colorectal cancer–a pathologist’s view. Scand J Surg 92:11–19PubMed
  31. Dindo D, Demartines N, Clavien PA (2004) Classification of surgical complications: a new proposal with evaluation in a cohort of a 6336 patients and results of a survey. Ann Surg 240:205–213PubMed CentralPubMedView Article
  32. Lirici MM, Kanehira E, Melzer A, Schurr MO (2013) The outburst age: how TEM ignited the MIS revolution. Minim Invasive Ther Allied Technol 23:1–4PubMedView Article
  33. Wexner SD, Berho M (2014) Transanal TAMIS total mesorectal excision (TME)—a work in progress. Tech Coloproctol 18:423–425PubMedView Article
  34. Cahill RA (2013) Single port surgery for rectal cancer-going up or down? Dis Colon Rectum 56:1199–1200PubMedView Article
  35. Heald RJ (2013) A new solution to some old problems: transanal TME. Tech Coloproctol 17:257–258PubMedView Article
  36. de Lacy AM, Rattner DW, Adelsdorfer C et al (2013) Transanal natural orifice transluminal endoscopic surgery (NOTES) rectal resection: “down-to-up” total mesorectal excision (TME)—short-term outcomes in the first 20 cases. Surg Endosc 27:3165–3172PubMedView Article
  37. Zorron R, Phillips HN, Wynn G, Neto MP, Coelho D, Vassallo RC (2014) “Down-to-up” transanal NOTES Total mesorectal excision for rectal cancer: preliminary series of 9 patients. J Minim Access Surg 10:144–150PubMed CentralPubMedView Article
  38. Rouanet P, Mourregot A, Azar CC et al (2013) Transanal endoscopic proctectomy: an innovative procedure for difficult resection of rectal tumors in men with narrow pelvis. Dis Colon Rectum 56:408–415PubMedView Article
  39. Byrn JC, Schluender S, Divino CM et al (2007) Three-dimensional imaging improves surgical performance for both novice and experienced operators using the da Vinci Robot System. Am J Surg 193:519–522PubMedView Article
  40. Kenngott HG, Fischer L, Nickel F, Rom J, Rassweiler J, Müller-Stich BP (2012) Status of robotic assistance—a less traumatic and more accurate minimally invasive surgery? Langenbecks Arch Surg 397:333–341PubMedView Article
  41. Turchetti G, Palla I, Pierotti F, Cuschieri A (2012) Economic evaluation of da Vinci-assisted robotic surgery: a systematic review. Surg Endosc 26:598–606PubMedView Article
  42. Park JS, Choi GS, Park SY, Kim HJ, Ryuk JP (2012) Randomized clinical trial of robot-assisted versus standard laparoscopic right colectomy. Br J Surg 99:1219–1226PubMedView Article
  43. Yoo J (2014) The robot has no role in elective colon surgery. JAMA Surg 149:184PubMedView Article
  44. Baek SK, Carmichael JC, Pigazzi A (2013) Robotic surgery: colon and rectum. Cancer J 19:140–146PubMedView Article
  45. Pigazzi A, Garcia-Aguilar J (2010) Robotic colorectal surgery: for whom and for what? Dis Colon Rectum 53:969–970PubMedView Article
  46. Baek JH, McKenzie S, Garcia-Aguilar J, Pigazzi A (2010) Oncologic outcomes of robotic-assisted total mesorectal excision for the treatment of rectal cancer. Ann Surg 251:882–886PubMedView Article
  47. Pigazzi A, Luca F, Patriti A et al (2010) Multicentric study on robotic tumor-specific mesorectal excision for the treatment of rectal cancer. Ann Surg Oncol 17:1614–1620PubMedView Article
  48. Collinson FJ, Jayne DG, Pigazzi A et al (2012) An international, multicentre, prospective, randomised, controlled, unblinded, parallel-group trial of robotic-assisted versus standard laparoscopic surgery for the curative treatment of rectal cancer. Int J Colorectal Dis 27:233–241PubMedView Article
Metadata
Title
Robotic transanal surgery for local excision of rectal neoplasia, transanal total mesorectal excision, and repair of complex fistulae: clinical experience with the first 18 cases at a single institution
Authors
S. Atallah
B. Martin-Perez
E. Parra-Davila
T. deBeche-Adams
G. Nassif
M. Albert
S. Larach
Publication date
01-07-2015
Publisher
Springer Milan
Published in
Techniques in Coloproctology / Issue 7/2015
Print ISSN: 1123-6337
Electronic ISSN: 1128-045X
DOI
https://doi.org/10.1007/s10151-015-1283-8

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