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Techniques in Coloproctology
Published in: Techniques in Coloproctology 10/2017

01-10-2017 | Challenges in Coloproctology

Operative vectors, anatomic distortion, fluid dynamics and the inherent effects of pneumatic insufflation encountered during transanal total mesorectal excision

Authors: S. Atallah, P. Gonzalez, S. Chadi, R. Hompes, J. Knol

Published in: Techniques in Coloproctology | Issue 10/2017

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Abstract

Background

Transanal total mesorectal excision (taTME) is an altogether different approach to rectal cancer surgery, and the effects of carbon dioxide (CO2) on this dissection remain poorly described.

Methods

This article critically examines the effect of carbon dioxide insufflation and the workspace it creates during the process of taTME. The unique aspects of insulation with this approach are governed by the laws of physics, especially the principles of fluid dynamics, an area that remains poorly described for laparoscopy and not at all described for taTME.

Results

A summary of established factors which affect the operative field of the taTME surgeon is delineated and further explored. In addition, new concepts regarding gas delivery, such as insufflation vectors, anatomic distortion, hyper-dissection, and workspace volume rate of change as a function of taTME dissection time, are addressed. Collectively, these factors pose important challenges which increase case complexity and are thus essential for taTME trainers and trainees alike to understand.

Conclusions

Although an invisible gas, CO2 insufflation with taTME produces markedly visible effects which are imposed upon the operative field. This can result in anatomic distortion and misperception of operative planes. Thus, practicing taTME surgeons should be cognizant of these effects.
Literature
1.
2.
3.
Atallah S (2015) Transanal total mesorectal excision: full steam ahead. Tech Coloproctol 19:57–61CrossRefPubMed
4.
5.
Atallah SB, Dubose AC, Burke JP, Nassif G, deBeche-Adams T, Frering T, Albert MR, Monson JRT (2017) Uptake of transanal total mesorectal excision in North America: initial assessment of a structured training program and the experience of delegate surgeons. Dis Colon Rectum. doi:10.​1097/​DCR.​0000000000000082​3
6.
Atallah S, Albert M, Monson JR (2016) Critical concepts and important anatomic landmarks encountered during transanal total mesorectal excision (taTME): toward the mastery of a new operation for rectal cancer surgery. Tech Coloproctol 20(7):483–494CrossRefPubMed
7.
8.
Knol JJ, D’Hondt M, Souverijns G, Heald B, Vangertruyden G (2015) Transanal endoscopic total mesorectal excision: technical aspects of approaching the mesorectal plane from below—a preliminary report. Tech Coloproctol 19(4):221–229. doi:10.​1007/​s10151-015-1275-8 (Epub 2015 Feb 22) CrossRefPubMed
9.
10.
Kneist W, Rink AD, Kauff DW, Konerding MA, Lang H (2015) Topography of the extrinsic internal anal sphincter nerve supply during laparoscopic-assisted TAMIS TME: five key zones of risk from the surgeons’ view. Tech Coloproctol 19:751–752CrossRef
11.
Marks G, Mohiuddin M, Rakinic J (1991) New hope and promise for sphincter preservation in the management of cancer of the rectum. Semin Oncol 18:388–398PubMed
12.
Penna M, Hompes R, Arnold S, Wynn G, Austin R, Warusavitarne J, Moran B, Hanna GB, Mortensen NJ, Tekkis PP, Collaborative TaTME Registry (2017) Transanal total mesorectal excision: international registry results of the first 720 cases. Ann Surg 266(1):111–117. doi:10.​1097/​SLA.​0000000000001948​ CrossRefPubMed
13.
14.
Nicholson G, Knol J, Houben B, Cunningham C, Ashraf S, Hompes R (2015) Optimal dissection for transanal total mesorectal excision using modified CO2 insufflation and smoke extraction. Colorectal Dis 17(11):O265–O267. doi:10.​1111/​codi.​13074 CrossRefPubMed
15.
Bislenghi G, Wolthuis AM, de Buck van Overstraeten A, D’Hoore A (2015) AirSeal system insufflator to maintain a stable pneumorectum during TAMIS. Tech Coloproctol 19:43–45CrossRefPubMed
16.
Horstmann M, Horton K, Kurz M, Padevit C, John H (2013) Prospective comparison between the AirSeal® System valve-less Trocar and a standard Versaport™ Plus V2 Trocar in robotic-assisted radical prostatectomy. J Endourol 27(5):579–582. doi:10.​1089/​end.​2012.​0632 (Epub 2013 Feb 5) CrossRefPubMed
17.
Luketina RR, Knauer M, Köhler G, Koch OO, Strasser K, Egger M, Emmanuel K (2014) Comparison of a standard CO 2 pressure pneumoperitoneum insufflator versus AirSeal™: study protocol of a randomized controlled trial. Trials 15(1):239CrossRefPubMedPubMedCentral
18.
Atallah S (2014) Transanal minimally invasive surgery for total mesorectal excision. Minim Invasive Ther Allied Technol 23:10–16CrossRefPubMed
19.
Albanese AM, Albanese EF, Miño JH, Gómez E, Gómez M, Zandomeni M, Merlo AB (2009) Peritoneal surface area: measurements of 40 structures covered by peritoneum: correlation between total peritoneal surface area and the surface calculated by formulas. Surg Radiol Anat 31(5):369–377. doi:10.​1007/​s00276-008-0456-9 (Epub 2009 Jan 14) CrossRefPubMed
20.
Bernardi MP, Bloemendaal AL, Albert M, Whiteford M, Stevenson AR, Hompes R (2016) Transanal total mesorectal excision: dissection tips using ‘O’s and ‘triangles’. Tech Coloproctol 20(11):775–778 (Epub 2016 Oct 1) CrossRefPubMed
21.
22.
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 56:408–415CrossRefPubMed
23.
Nathoo N, Caris EC, Wiener JA, Mendel E (2011) History of the vertebral venous plexus and the significant contributions of Breschet and Batson. Neurosurgery 69(5):1007–1014PubMed
24.
van Hulst RA, Klein J, Lachmann B (2003) Gas embolism: pathophysiology and treatment. Clin Physiol Funct Imaging 23(5):237–246CrossRefPubMed
25.
Martineau A, Arcand G, Couture P, Babin D, Perreault LP, Denault A (2003) Transesophageal echocardiographic diagnosis of carbon dioxide embolism during minimally invasive saphenous vein harvesting and treatment with inhaled epoprostenol. Anesth Analg 96(4):962–964 (table of contents) CrossRefPubMed
26.
27.
Velthuis S, Veltcamp Helbach M, Tuynman JB, Le TN, Bonjer HJ, Sietses C (2015) Intra-abdominal bacterial contamination in TAMIS total mesorectal excision for rectal carcinoma: a prospective study. Surg Endosc 29:3319–3323CrossRefPubMed
28.
Rygick AN, Fain SN, Pestovskaja GN (1969) Viability of cancer cells penetrating tissues during operation for cancer of the rectum. Dis Colon Rectum 12:351–356CrossRefPubMed
29.
Skipper D, Cooper AJ, Marson JE, Taylor I (1987) Exfoliated cells and in vitro growth in colorectal cancer. Br J Surg 74:1049–1052CrossRefPubMed
30.
Umpleby HC, Fermor B, Symes MO, Williamson RC (1984) Viability of exfoliated colorectal carcinoma cells. Br J Surg 71:659–663CrossRefPubMed
31.
32.
Tsunoda A, Shibusawa M, Kamiyama G, Takata M, Yokoyama N, Kusano M (1996) Viability of free malignant cells in specimens removed because of colorectal carcinoma. Jpn J Gastroenterol Surg 29:1022–1027CrossRef
33.
34.
McGrew EA, Laws JF, Cole WH (1954) Free malignant cells in relation to recurrence of carcinoma of the colon. JAMA 154:1251–1254CrossRef
35.
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(3):321–325. doi:10.​1007/​s10151-012-0971-x (Epub 2013 Feb 2) CrossRefPubMed
36.
Atallah S, Mabardy A, Volpato AP, Chin T, Sneider J, Monson JRT (2017) Surgery beyond the visible light spectrum: theoretical and applied methods for localization of the male urethra during transanal total mesorectal excision. Tech Coloproctol 21(6):413–424. doi:10.​1007/​s10151-017-1641-9 (Epub 2017 Jun 6) CrossRefPubMed
37.
38.
Sylla P, Rattner DW, Delgado S, Lacy AM (2010) NOTES transanal rectal cancer resection using transanal endoscopic microsurgery and laparoscopic assistance. Surg Endosc 24(5):1205–1210. doi:10.​1007/​s00464-010-0965-6 (Epub 2010 Feb 26) CrossRefPubMed
Metadata
Title
Operative vectors, anatomic distortion, fluid dynamics and the inherent effects of pneumatic insufflation encountered during transanal total mesorectal excision
Authors
S. Atallah
P. Gonzalez
S. Chadi
R. Hompes
J. Knol
Publication date
01-10-2017
Publisher
Springer International Publishing
Published in
Techniques in Coloproctology / Issue 10/2017
Print ISSN: 1123-6337
Electronic ISSN: 1128-045X
DOI
https://doi.org/10.1007/s10151-017-1693-x

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