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Surgical Endoscopy
Published in: Surgical Endoscopy 2/2015

01-02-2015 | Consensus Statement

European association of endoscopic surgeons (EAES) consensus statement on the use of robotics in general surgery

Authors: Amir Szold, Roberto Bergamaschi, Ivo Broeders, Jenny Dankelman, Antonello Forgione, Thomas Langø, Andreas Melzer, Yoav Mintz, Salvador Morales-Conde, Michael Rhodes, Richard Satava, Chung-Ngai Tang, Ramon Vilallonga

Published in: Surgical Endoscopy | Issue 2/2015

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Excerpt

Robots are defined as “A machine capable of automatically carrying out a complex series of movements, especially one which is programmable” (Oxford Dictionary). Thomas Sheridan, the “Father of automation and robotics” from MIT used automation and robotics interchangeably: “Automation includes all those things that computers and machines can do to perform tasks for people faster, more accurately, and more efficiently (in terms of time, resources, and human labor) than if they were done directly by people”. …
Literature
1.
Melzer A, B G, Cuschieri A (1992) Instruments for endoscopic surgery. In: Cuschieri A, Buess G, Périssat J (eds) Operative manual of endoscopic surgery. Springer, Heidelberg, pp 14–36
2.
Melzer A, Schurr MO, Kunert W, Buess G, Voges U, Meyer JU (1993) Intelligent surgical instrument system ISIS. Concept and preliminary experimental application of components and prototypes. Endosc Surg Allied Technol 1(3):165–170PubMed
3.
Schurr MO, B H, Melzer A, Kunert W, Schmidt A, Voges U, Buess G (1996) Experimental telemanipulation in endoscopic surgery. Surg Lapaprosc Endosc 6:167–175
4.
Hernandez JD, B S, Munz Y, Moorthy K, Datta V, Martin S, Dosis A, Bello F, Darzi A, Rockall T (2002) The learning curve of a simulated surgical task using the da Vinci telemanipulator system. Br J Surg 89:17–18
5.
Yohannes P, R P, Pinto P, Smith AD, Lee BR (2002) Comparison of robotic versus laparoscopic skills: is there a difference in the learning curve? Urology 60:39–45PubMed
6.
Moorthy K, Y M, Dosis A, Hernandez J, Martin S, Bello F, Rockall T, Darzi A (2004) Dexterity enhancement with robotic surgery. Surg Endosc 18:790–795PubMed
7.
Chan AC, C S, Yim AP et al (1997) Comparison of two-dimensional vs. three-dimensional camera systems in laparoscopic surgery. Surg Endosc 11:438–440PubMed
8.
Hanna GB, S S, Cuschieri A (1998) Randomized study of influence of two-dimensional versus three-dimensional imaging on performance of laparoscopic cholecystectomy. Lancet 351:248–251PubMed
9.
Jones DB, B J, Soper NJ (1996) The influence of three-dimensional video systems on laparoscopic surgery. Surg Lapaprosc Endosc 6:191–197
10.
Byrn JohnC, S S, Divino CeliaM, Conrad John, Gurland Brooke, Shlasko Edward, Szold Amir (2007) Three-dimensional imaging improves surgical performance for both novice and experienced operators using the da Vinci Robot System. Am J Surg 193(4):519–522PubMed
11.
Tracy CR, R J, Cadeddu JA, Rane A (2008) Laparoen- doscopic single-site surgery in urology: where have we been and where are we heading? Nat Clin Pract Urol 5:561–568PubMed
12.
Kaouk JH, G R, Haber GP, Crouzet S, Stein RJ (2009) Robotic single-port transumbilical surgery in humans: initial report. BJU Int 103:366–369PubMed
13.
Gill IS (2010) Surgical consensus statement of the consortium for laparoendoscopic single-site surgery. Surg Endosc 24:762–768PubMed
14.
Zeltser IS, C J (2008) A novel magnetic anchoring and guidance system to facilitate single trocar laparoscopic nephrec- tomy. Curr Urol Rep 9:62–64PubMed
15.
Raman JD, B R, Fernandez R, Bagrodia A, Scott DJ, Tang SJ, Pearle MS, Cadeddu JA (2009) Complete transvaginal NOTES nephrectomy using magnetically anchored instrumentation. J Endourol 23:367–371PubMed
16.
D J (2013) Robotic colorectal surgery—current status and future developments. Chirurgia (Bucur) 84(8):635–642
17.
Chang C, Anup Shah ZS, Gundeti MS (2014) Patient positioning and port placement for robotic surgery. J Endourol 28(6):631PubMed
18.
Foell K, Finelli A, Yasufuku K, Bernardini MQ, Waddell TK, Pace KT, Pace KT, Honey RJ, Lee Y (2013) Robotic surgery basic skills training: valuation of a pilot multidisciplinary simulation-based curriculum. Can Urol Assoc J 7(11–12):430–434PubMedCentralPubMed
19.
A Coratti, M. A., The Learning Curve: Teaching in Robotic Surgery Minimally Invasive Surgery of the Liver,, 2013
20.
Melzer A, S M, Buess G, Schmidt A, Seibel RMM, Groenemeyer DHW (1995) Medical approach to system science. Minim Invasive Ther Allied Technol 4(5–6):301–308
21.
Bholat OS, H R, Murray WB, Gorman PJ, Krummel TM (1999) Tactile feedback is present during minimally invasive surgery. J Am Coll Surg 189:349–355PubMed
22.
van der Putten Westebring, E P, Goossens RHM, Jakimowicz JJ, Dankelman J (2008) Haptics in minimally invasive surgery—a review. Minim Invasive Ther Allied Technol 17(1):3–16
23.
van der Westebring Putten EP, van den Dobbelsteen JJ, Goossen RHM, Jakimowicz JJ, Dankelman J (2009) Effect of laparoscopic grasper force transmission ratio on grasp control. Surg Endosc 23(4):818–824
24.
Heijnsdijk EAM, J D, Gouma DJ (2002) Effectiveness of grasping and duration of clamping using laparoscopic graspers. Surg Endosc 16:1329–1331PubMed
25.
van den Dobbelsteen JJ, S A, Dankelman J (2007) Friction dynamics of trocars. Surg Endosc 21:1338–1343PubMed
26.
Heijnsdijk EAM, P A, van der Pijl AJ, Dankelman J, Gouma DJ (2004) The influence of force feedback and visual feedback in grasping tissue laparoscopically. Surg Endosc 18:980–985PubMed
27.
Hagen ME, M J, Inan I, Morel P (2008) Visual clues act as a substitute for haptic feedback in robotic surgery. Surg Endosc 22:1505–1508PubMed
28.
Broeders IAMJ (2014) Robotics, the nest step? Best practice and research. Clin Gastroenterol 28:225–232
29.
Ruurda JP, Broeders I, Pulles B, Kappelhof FM, van der Werken C (2004) Manual robot assisted endoscopic suturing: time-action analysis in an experimental model. Surg Endosc 18(8):1249–1252PubMed
30.
Anderberg M, Larsson J, Kockum CC, Arnbjörnsson E (2010) Robotics versus laparoscopy—an experimental study of the transfer effect in maiden users. Ann Surg Innov Res 4:1164–1168
31.
Nicolau S, S L, Mutter D, Marescaux J (2011) Augmented reality in laparoscopic surgical oncology. Surg Oncol 20:189–201PubMed
32.
Van Der Putten Westebring, E P, Van Den Dobbelsteen JJ, Goossens RHM, Jakimowicz JJ, Dankelman J (2010) The effect of augmented feedback on grasp force in laparoscopic grasp control. IEEE Trans Haptics 3:281–291
33.
Melzer ABG, Schurr MO, Meyer JU, Hermeking H, Hechtenberg B (1995) Artefizielle taktile Sensorik für die endoskopische Chirurgie In: Hierholzer et al. (Hrsg. Chirurgisches Forum, pp 236–240
34.
Chien JH, Tiwari MM, Suh IH, Mukherjee M, Park SH, Oleynikov D, Siu KC (2010) Accuracy and speed trade-off in robot-assisted surgery. Int J Med Robot Comput Assist Surg 6:324–329
35.
Kelso JAS, B J, de Guzman GD et al (1993) Spontaneous recruitment and annihilation of degrees of freedom in biological coordination. Phys Lett A 179:364–371
36.
Gribble PL, S S (2002) Overlap of internal models in motor cortex for mechanical loads during reaching. Nature 417(6892):938–941PubMed
37.
Guadagnoli MA, L T (2004) Challenge point: a framework for conceptualizing the effects of various practice conditions in motor learning. J Mot Behav 36(2):212–224PubMed
38.
van der Schatte Olivier RH, van’t Hullenaar CDP, Ruurda JP, Broeders IAMJ (2009) Ergonomics, user comfort, and performance in standard and robot-assisted laparoscopic surgery. Surg Endosc 23(6):1365–1371PubMedCentralPubMed
39.
Hubert N, G M, Desbrosses K, Meyer JP, Felblinger J, Hubert J (2013) Ergonomic assessment of the surgeon’s physical workload during standard and robotic assisted laparoscopic procedures. Int J Med Robot 9(2):142–147PubMed
40.
Lee EC, Rafiq A, Merrell R, Ackerman R, Denderlein JT (2005) Ergonomics and human factors in endoscopic surgery: a comparision of manual vs telerobotic simulation systems. Surg Endosc 19(8):1064–1070PubMed
41.
Rassweiler JJ, G A, Jalal AA, Schulze M, Pansadoro V, Pini G, Kim F, Turner C (2012) A new platform improving the ergonomics of laparoscopic surgery: initial clinical evaluation of the prototype. Eur Urol 61(1):226–229PubMed
42.
Bagrodia A, Raman JD (2009) Ergonomic considerations of radical prostatectomy: physician perspective of open, endoscopic and robot-assisted techniques. J Endourol 23(4):627–633PubMed
43.
Lyons C, G D, Jones SL, Badhiwala N, Miles B, Link R, Dunkin BJ (2013) Which skills really matter? proving face, content, and construct validity for a commercial robotic simulator. Surg Endosc 27(6):2020–2023PubMed
44.
Arain NA, D G, Hogg DC, Rege RV, Powers CE, Tesfay ST, Hynan LS, Scott DJ (2012) Comprehensive proficiency-based inanimate training for robotic surgery: reliability, feasibility, and educational benefit. Surg Endosc 26(10):2740–2745PubMed
45.
Dulan G, R R, Hogg DC, Gilberg-Fisher KM, Arain NA, Tesfay ST, Scott DJ (2012) Developing a comprehensive, proficiency-based training program for robotic surgery. Surgery 152(3):477–488PubMed
46.
Dulan G, R R, Hogg DC, Gilberg-Fisher KM, Arain NA, Tesfay ST, Scott DJ (2012) Proficiency-based training for robotic surgery: construct validity, workload, and expert levels for nine inanimate exercises. Surg Endosc 26(6):1516–1521PubMed
47.
Dulan G, R R, Hogg DC, Gilberg-Fisher KK, Tesfay ST, Scott DJ (2012) Content and face validity of a comprehensive robotic skills training program for general surgery, urology, and gynecology. Am J Surg 203(4):535–539PubMed
48.
Hunter HG, Lyons JD, MacCaslin EF, Smith RG, Wagner H (1969) Technical Report 69-9 process of developing and improving corse content for military technical training, 2014
49.
Department of Defense Handbook: Instructional Systems Development/Systems Approach to Training and Education, P.M.-H.-.-J., 1997
50.
Sterling JE(LTGen) HCC (2011) Army learning policy and systems (TRADOC regation), pp 350–370, 2011
51.
Brock TR (2007) Training NASA astronauts for deep space exploration missions: a research study to develop and validate a competency-based training framework (Doctoral dissertation, Capella University)
52.
Andonian S, O Z, Okeke DA, Rastinehad A, Vanderbrink BA, Richstone L, Lee BR (2008) Device failures associated with patient injuries during robot-assisted laparoscopic surgeries: a comprehensive review of FDA MAUDE database. Can J Urol 15(1):3912–3916PubMed
53.
Nayyar R, G N (2010) Critical appraisal of technical problems with robotic urological surgery. BJU Int 105(12):1710–1713PubMed
54.
Cadiere GB, H J, Vertruyen M (2001) Evaluation of telesurgical (robotic) Nissen fundoplication. Surg Endosc 15:918–923PubMed
55.
Giulianotti PC, C A, Angelini M et al (2003) Robotics in general surgery: personal experience in a large community hospital. Arch Surg 138:777–784PubMed
56.
Ruurda JP, B I, Simmermacher RP et al (2002) Feasibility of robot-assisted laparoscopic surgery: an evaluation of 35 robot-assisted laparoscopic cholecystectomies. Surg Laparosc Endosc Percutan Tech 12:41–45PubMed
57.
Talamini MA, C S, Horgan S, Melvin WS, Academic Robotics Group (2003) A prospective analysis of 211 robotic-assisted surgical procedures. Surg Endosc 17(10):1521–1524PubMed
58.
Kornprat P, W G, Cerwenka H et al (2006) Prospective study comparing standard and robotically assisted laparoscopic cholecystectomy. Lagenbecks Arch Surg 391:216–221
59.
Nio D, B W, Busch OR et al (2004) Robot-assisted laparoscopic cholecystectomy versus conventional laparoscopic cholecystectomy: a comparative study. Surg Endosc 18:379–382PubMed
60.
Breitenstein S, N A, Puhan M, Held U, Weber M, Clavien PA (2008) Robotic-assisted versus laparoscopic cholecystectomy: outcome and cost analyses of a case-matched control study. Ann Surg 247(6):987–993PubMed
61.
Gurusamy KS, Samraj K, Fusai G, et al (2012) Robot assistant versus human or another robot assistant in patients undergoing laparoscopic cholecystectomy. Cochrane Database Syst Rev, 9:CD006578
62.
Pietrabissa A, S F, Morelli L, Badessi F, Pugliese L, Vinci A, Klersy C, Spinoglio G (2012) Overcoming the challenges of single-incision cholecystectomy with robotic single-site technology. Arch Surg 147(8):709–714PubMed
63.
Buzad FA, C L, Brown TC, Fagin RS, Hebert AE, Kaczmarek CA, Pack AN, Payne TN (2013) Single-site robotic cholecystectomy: efficiency and cost analysis. Int J Med Robot 9(3):365–370PubMed
64.
Gonzalez AM, R J, Donkor C, Romero RJ, Kosanovic R, Verdeja JC (2013) Single-incision cholecystectomy: a comparative study of standard laparoscopic, robotic, and SPIDER platforms. Surg Endosc 27(12):4524–4531PubMed
65.
Morel P, Buchs NC, Iranmanesh P, Pugin F, Buehler L, Azagury DE, Jung M, Volonte F, Hagen ME (2014) Robotic single-site cholecystectomy. J Hepatobil Pancreat Sci 21(1):18–25
66.
Konstantinidis KM, H P, Hirides S, Chrysocheris P, Georgiou M (2012) Cholecystectomy using a novel single-site(®) robotic platform: early experience from 45 consecutive cases. Surg Endosc 26(9):2687–2694PubMed
67.
Uras C, Boler D, Ergüner I, Hamzaoğlu I (2013) Robotic single port cholecystectomy (R-LESS-C): experience in 36 patients. Asian J Surg 23(10):815–831
68.
Wren SM, C M (2011) Single-port robotic cholecystectomy: results from a first human use clinical study of the new da Vinci single-site surgical platform. Arch Surg 146(10):1122–1127PubMed
69.
Spinoglio G, L L, Maglione V, Lucido FS, Priora F, Bianchi PP, Grosso F, Quarati R (2012) Single-site robotic cholecystectomy (SSRC) versus single-incision laparoscopic cholecystectomy (SILC): comparison of learning curves. First European experience. Surg Endosc. 26(6):1648–1655PubMed
70.
Angus AA, Sahi SL, McIntosh BB (2014) Learning curve and early clinical outcomes for a robotic surgery novice performing robotic single site cholecystectomy. Int J Med Robot 10(2):203–207PubMed
71.
Romero-Talamás H, Matthew K (2014) Cholecystectomy by using a surgical robotic system. J Hepatobiliary Pancreat Sci 21(1):11–17PubMed
72.
Morel P, Hagen ME, Bucher P, Buchs NC, Pugin F (2011) Robotic single-port cholecystectomy using a new platform: initial clinical experience. J Gastrointest Surg 15(12):2182–2186PubMed
73.
Kroh M, E-H K, Rosenblatt S, Chand B, Escobar P, Kaouk J, Chalikonda S (2011) First human surgery with a novel single-port robotic system: cholecystectomy using the da Vinci Single-Site platform. Surg Endosc 25(11):3566–3573PubMed
74.
Iranmanesh P, M P, Buchs NC, Pugin F, Volonte F, Kreaden US, Hagen ME (2013) Docking of the da Vinci Si Surgical System® with single-site technology. Int J Med Robot 9(1):12–16PubMed
75.
Spinoglio G, P F, Bianchi PP, Lucido FS, Licciardello A, Maglione V, Grosso F, Quarati R, Ravazzoni F, Lenti LM (2013) Real-time near-infrared (NIR) fluorescent cholangiography in single-site robotic cholecystectomy (SSRC): a single-institutional prospective study. Surg Endosc 27(6):2156–2162PubMed
76.
Buchs NC, H M, Pugin F, Volonte F, Bucher P, Schiffer E, Morel P (2012) Intra-operative fluorescent cholangiography using indocyanin green during robotic single site cholecystectomy. Int J Med Robot 8(4):436–440PubMed
77.
Jayaraman S, Davies W, Schlachta CM (2008) Robot-assisted minimally invasive common bile duct exploration: a Canadian first. Can J Surg 51:E93–E94PubMed
78.
Roeyen G, C T, Ysebaert D (2004) Robot-assisted choledochotomy: feasibility. Surg Endosc 18(1):165–166PubMed
79.
Ji WB, Z Z, Dong JH et al (2011) One-stage robotic-assisted laparoscopic cholecystectomy and common bile duct exploration with primary closure in 5 patients. Surg Laparosc Endosc Percutan Tech 21:23–26
80.
Allkhamesi NA, D W, Pinto RF et al (2013) Robot-assisted bile duct exploration as an option for complex choledocholithiasis. Surg Endosc 27:263–266
81.
Tung KLM, T C, Lai ECH et al (2013) Robot-assisted laparoscopic approach of management for Mirizzi Syndrome. Surg Laparosc Endosc Percutan Tech 23:E17–E21PubMed
82.
Woo R, L D, Albanese CT et al (2006) Robot-assisted laparoscopic resection of type I choledochal cyst in a child. J Laparoendosc Adv Surg Tech A 16:179–183PubMed
83.
Kang CM, C H, Kim JY et al (2007) A case of robot-assisted excision of choledochal cyst, hepaticojejunostomy, and extracorporeal Roux-en-y anastomosis using the da Vinci surgical system. Surg Laparosc Endosc Percutan Tech 17:538–541PubMed
84.
Akaraviputh T, T A, Suksamanapun N (2010) Robot-assisted complete excision of choledochal cyst type 1, hepaticojejunostomy and extracorporeal Roux-en-y anastomosis: a case report and review literature. World J Gastointest Oncol 8:87
85.
Dawrant MJ, N A, Alizai NK (2010) Robot-assisted resection of choledochal cysts and hepaticojejunostomy in children less than 10 Kg. J Pediatr Surg 45(12):2364–2368PubMed
86.
Lai EC, T C, Yang GP et al (2011) Approach to manage the complications of choledochoduodenostomy: robot-assisted laparoscopic Roux-en-y hepaticojejunostomy. Surg Laparosc Endosc Percutan Tech 21(5):E228–E231PubMed
87.
Buchs NC, A P, Bianco FM et al (2011) Robotic palliation for unresectable pancreatic cancer and distal cholangiocarcinoma. Int J Med Robot 7(1):60–65PubMed
88.
Buell JF, Cherqui D, Geller DA, et al (2009) World Consensus Conference on laparoscopic Surgery .The international position on laparoscopic liver surgery: the Louisville Statement, 2008. Ann Surg, 250(5): 852–830
89.
Idrees K, B D (2010) Robotic liver surgery. Surg Clin North Am 90:761–774PubMed
90.
Giulianotti PC, C A, Sbrana F et al (2011) Robotic liver surgery: results for 70 resections. Surgery 149:29–39PubMed
91.
Chan OC, T C, Lai EC et al (2011) Robotic hepatobiliary and pancreatic surgery: a cohort study. J Hepatobiliary Pancreat Sci. 18:39–471
92.
Ji WB, W H, Zhao et al (2011) Robotic-assisted laparoscopic anatomic hepatectomy in China: initial experience. Ann Surg 253:342–348PubMed
93.
Choi GH, C S, Kim SH et al (2012) Robotic liver resection: technique and results of 30 consecutive procedures. Surg Endosc 26:2247–2258PubMed
94.
Patriti A, Ceccarelli G, Bartoli A et al (2009) Laparoscopic and robot-assisted one-stage resection of colorectal cancer with synchronous liver metastases: a pilot study. J Hepatobiliary Pancreat Surg 16(4):450–457PubMed
95.
Lai EC, T C, Li MK (2012) Conventional laparoscopic and robot-assisted laparoscopic liver resection for benign and malignant pathologies: a cohort study. J Robot Surg 6:295–300
96.
97.
Packiam V, B D, Tohme S, Reddy S, Marsh JW, Geller DA, Tsung A (2012) Minimally invasive liver resection: robotic versus laparoscopic left lateral sectionectomy. J Gastrointes Surg 16(12):233–238
98.
Nguyen KT, G T, Geller DA (2009) World review of laparoscopic liver resection-2,804 patients. Ann Surg 250:831–841PubMed
99.
Dagher I, D GG, Dubrez J et al (2009) Laparoscopic versus open right hepatectomy: a comparative study. Am J Surg 198:173–177PubMed
100.
Dagher I, O RN, Gellar DA et al (2009) Laparoscopic major hepatectomy: an evolution in standard of care. Ann Surg 198:856–860
101.
Abu Hilal M, D FF, Teng MJ et al (2011) Single-centre comprative study of laparoscopic versus open right hepatectomy. J Gastrointes Surg 15:818–823
102.
Lai EC, T C, Li MK (2012) Robot-assisted laparoscopic hemihepatectomyy: technique and surgical outcomes. Int J Surg 10:11–15PubMed
103.
Tsung A, Geller D, Sukato DC et al (2014) Robotic versus laparoscopic hepatectomy: a matched comparison. Ann Surg 259(3):549–555PubMed
104.
105.
Lai EC, Y G, Tang CN (2013) Robot-assisted laparoscopic liver resection for hepatocellular carcinoma: a short-term outcome. Am J Surg 205:697–702PubMed
106.
Giulianotti PC, S F, Coratti A et al (2011) Totally robotic right hepatectomy: surgical technique and outcomes. Arch 146:844–850
107.
Jusoh AC, A B (2012) Laparoscopic versus open distal pancreatectomy: a systematic review of comparative studies. Surg Endosc 26:904–913PubMed
108.
Venkat R, E B, Schulick RD et al (2012) Laparoscopic distal pancreatectomy is assosciated with significantly less overall morbidity compared to the open technique: a systematic review and meta-analysis. Ann Surg 255:1048–1059PubMed
109.
Waters JA, C D, Wiebke EA et al (2010) Robotic distal pancreatectomy: cost effective? Surgery 148:814–823PubMed
110.
Kang CM, Kim DH, Lee WJ et al (2011) Conventional laparoscopic and robot-assisted spleen-preserving pancreatectomy: does da Vinci have clinical advantages?. Surg Endosc 25:2004–2009PubMed
111.
Daouadi M, Z A, Zenati MS et al (2013) Robot-assisted minimally invasive distal pancreaectomy is superior to the laparoscopic technique. Ann Surg 257:128–132PubMed
112.
Zureikat AH, B J, Steel JL et al (2011) Can laparoscopic pancreaticoduodenectomy be safely implemented? J Gastrointes Surg 15:1151–1157
113.
Kouroki T, A T, Okamoto T et al (2012) A non-randomized comparative study of laparoscopiy-assisted pancreaticoduodenectomy and open pancreaticoduodenectomy. Hepatogastroenterology 59:570–573
114.
Asbun HJ, S J (2012) Laparoscopic vs. open pancreaticoduodenectomy: overall outcomes and severity of complications using the accordion severity grading system. J Am Coll Surg 215:810–819PubMed
115.
Cho A, Y H, Nagata M et al (2009) Comparison of laparoscopiy-assisted and open pylorus-preserving pancreaticoduodenectomy for periampullary disease. Am J Surg 198:445–449PubMed
116.
Giulianotti PC, S F, Bianco M et al (2010) Robot-asssited laparoscopic pancreatic surgery: a single-surgeon experience. Surg Endosc 24:1646–1657PubMed
117.
Zureikat AH, N K, Narlett DL et al (2011) Robotic-assisted major pancreatic resection and reconstruction. Arch Surg 146:256–261PubMed
118.
Buchs NC, A P, Bianco FM et al (2011) Robotic versus open pancreaticoduodenectomy: a comparative study at a single institution. World J Surg 35:2739–2746PubMed
119.
Chalikonda S, A-S J, Walsh RM (2012) Lapsrocopic robot-assisted pancreaticoduodenectomy: a case-matched comparison with open resection. Surg Endosc 26:2397–2402PubMed
120.
Zhou NX, C J, Liu Q et al (2011) Outcomes of pancreaticoduodenectomy with robotic surgery versus open surgery. Int J Med Robot 7:131–137PubMed
121.
Lai EC, Y G, Tang CN (2012) Robot-assisted laparoscopic pancreaticoduodenectomy versus open pancreaticoduodenectomy— a comparative study. Int J Surg 10:475–479PubMed
122.
Draaisma WA, R J, Scheffer RC, Simmermacher RK, Gooszen HG, Rijnhart-de Jong HG, Buskens E, Broeders IA (2006) Randomized clinical trial of standard laparoscopic versus robot-assisted laparoscopic Nissen fundoplication for gastro-oesophageal reflux disease. Br J Surg 93(11):1351–1359PubMed
123.
Müller-Stich BP, R M, Mehrabi A, Wente MN, Fischer L, Köninger J, Gutt CN (2009) No relevant difference in quality of life and functional outcome at 12 months’ follow-up-a randomised controlled trial comparing robot-assisted versus conventional laparoscopic Nissen fundoplication. Lagenbecks Arch Surg 394(3):441–446
124.
Morino M, P L, Giaccone C, Garrone C, Rebecchi F (2006) Randomized clinical trial of robot-assisted versus laparoscopic Nissen fundoplication. Br J Surg 93(5):553–558PubMed
125.
Melvin WS, N B, Krause KR, Schneider C, Ellison EC (2002) Computer-enhanced vs. standard laparoscopic antireflux surgery. J Gastrointest Surg 6(1):11–15PubMed
126.
Frazzoni M, Conigliaro R, Colli G, Melotti G (2012) Conevntional versus robot-assisted laparoscopic Nissen fundoplication: a comparison of postoperative acid reflux parameters. Surg Endosc 26(6):1675–1681PubMed
127.
Draaisma WA, G H, Consten EC, Broeders IA (2008) Mid-term results of robot-assisted laparoscopic repair of large hiatal hernia: a symptomatic and radiological prospective cohort study. Surg Technol Int 17:165–170PubMed
128.
Horgan S, Galvani C, Gorodner MV, Omelanczuck P, Elli F, Moser F, Durand L, Caracoche M, Nefa J, Bustos S, Donahue P, Ferraina P (2005) Robotic-assisted Heller myotomy versus laparoscopic Heller myotomy for the treatment of esophageal achalasia: multicenter study. J Gastrointest Surg 9(8):1020–1030PubMed
129.
Huffmann LC, Pandalai P, Boulton BJ, James L, Starnes SL, Reed MF, Howington JA, Nussbaum MS (2007) Robotic Heller myotomy: a safe operation with higher postoperative quality-of-life indices. Surgery 142(4):613–620
130.
Kitano S, I Y, Moriyama M, Sugimachi K (1994) Laparoscopy-assisted Billroth I gastrectomy. Sug Laparosc Endosc 4:146–148
131.
Liao GX, X G, Li R, Zhao ZH, Sun QQ, Du SS, Ren C, Li GX, Deng HJ, Yuan YW (2013) Meta-analysis of outcomes compared between robotic and laparoscopic gastrectomy for gastric cancer. Asian Pac J Cancer Prev 14(8):4871–4875PubMed
132.
Hyun MH, L C, Kim HJ, Tong Y, Park SS (2013) Systematic review and meta-analysis of robotic surgery compared with conventional laparoscopic and open resections for gastric carcinoma. Br J Surg 100(12):1566–1578PubMed
133.
Marano A, C Y, Hyung WJ, Kim YM, Kim J, Noh SH (2013) Robotic versus laparoscopic versus open gastrectomy: a meta-analysis. J Gastric Cancer 12(2):136–148
134.
Xiong J, N Q, Tan C, Ke N, Chen Y, Hu W, Liu X, Mai G (2013) Comparison of short-term clinical outcomes between robotic and laparoscopic gastrectomy for gastric cancer: a meta-analysis of 2,495 patients. J Laparoendosc Adv Surg Tech A 23(12):965–976PubMed
135.
Noshiro H, Ikeda O, Urata M (2014) Robotically-enhanced surgical anatomy enables surgeons to perform distal gastrectomy for gastric cancer using electric cautery devices alone. Surg Endosc 28(4):1180–1187PubMed
136.
Hyun MH, L C, Kwon YJ, Cho SI, Jang YJ, Kim DH, Kim JH, Park SH, Mok YJ, Park SS (2013) Robot versus laparoscopic gastrectomy for cancer by an experienced surgeon: comparisons of surgery, complications, and surgical stress. Ann Surg Oncol 20(4):1258–1265PubMed
137.
Huang KH, L Y, Fang WL, Chen JH, Lo SS, Hsieh MC, Li AF, Chiou SH, Wu CW (2012) Initial experience of robotic gastrectomy and comparison with open and laparoscopic gastrectomy for gastric cancer. J Gastrointest Surg 16(7):1303–1310PubMed
138.
Yoon HM, Kim YW, Lee JH, Ryu KW, Eom BW, Park JY, Choi IJ, Kim CG, Lee JY, Cho SJ, Rho JY (2012) Robot-assisted total gastrectomy is comparable with laparoscopically assisted total gastrectomy for early gastric cancer. Surg Endosc 26(5):1377–1381PubMed
139.
Caruso S, P A, Marrelli D, Ceccarelli G, Ceribelli C, Roviello F, Casciola L (2011) Open vs robot-assisted laparoscopic gastric resection with D2 lymph node dissection for adenocarcinoma: a case-control study. Int J Med Robot 7(4):452–458PubMed
140.
Kakeji Y, K K, Ieiri S, Yasunaga T, Nakamoto M, Tanoue K, Baba H, Maehara Y, Hashizume M (2006) Robotic laparoscopic distal gastrectomy: a comparison of the da Vinci and Zeus systems. Int J Med Robot 2(4):299–304PubMed
141.
Ballantyne GH (2007) Telerobotic gastrointestinal surgery: phase 2–safety and efficacy. Surg Endosc 21(7):1054–1062PubMed
142.
Coratti A, A M, Di Marino M, Gentile E, Coratti F, Giulianotti PC (2013) Robot-assisted gastrectomy for gastric cancer: current status and technical considerations. World J Surg 37(12):2771–2781PubMed
143.
Baek SJ, L D, Park SS, Kim SH (2011) Current status of robot-assisted gastric surgery. World J Gastointest Oncol 3(10):137–143
144.
Buchs NC, B P, Pugin F, Morel P (2011) Robot-assisted gastrectomy for cancer. Minerva Gastroenterol Dietol 57(1):33–42PubMed
145.
Clark J, S M, Purkayastha S, Mayer EK, James D, Athanasiou T, Yang GZ, Darzi A (2011) The role of robotic assisted laparoscopy for oesophagogastric oncological resection: an appraisal of the literature. Dis Esophgus 24(4):240–250
146.
Kim KM, A J, Kim HI, Cheong JH, Hyung WJ, Noh SH (2012) Major early complications following open, laparoscopic and robotic gastrectomy. Br J Surg 99(12):1681–1687PubMed
147.
Song J, K W, Oh SJ, Hyung WJ, Choi SH, Noh SH (2009) Role of robotic gastrectomy using da Vinci system compared with laparoscopic gastrectomy: initial experience of 20 consecutive cases. Surg Endosc 23(6):1204–1211PubMed
148.
Jiang ZW, Z K, Wang G, Bao Y, Xie LF, Liu FT, Pan HF, Zhang XL, Ruan H, Li N, Li JS (2012) Application of surgical robotic system in patients with gastric cancer: a report of 120 cases. Zhonghua Wei Chang Wai Ke Za Zhi 15(8):801–803PubMed
149.
Patriti A, C G, Ceribelli C, Bartoli A, Spaziani A, Cisano C, Cigliano S, Casciola L (2011) Robot-assisted laparoscopic management of cardia carcinoma according to Siewert recommendations. Int J Med Robot 7(2):170–177PubMed
150.
Liu JZ, Chen P, Zhao Y, Pan HF, Li JS (2013) Full robot-assisted gastrectomy with intracorporeal robot-sewn anastomosis produces satisfying outcomes. World J Gastroenterol 19(38):6427–6437PubMedCentralPubMed
151.
Vasilescu C, P L (2012) Robotic surgery of locally advanced gastric cancer: a single-surgeon experience of 41 cases. Chirurgia (Bucur) 107(4):510–517
152.
Vasilescu C, P M, Tudor S, Manuc M, Diculescu M (2012) Robotic surgery of locally advanced gastric cancer—an initial experience. Acta Chir Belg 112(3):209–212PubMed
153.
Yu PW, T B, Zeng DZ, Zhao YL, Shi Y, Hao YX, Qian F (2012) Robotic-assisted radical gastrectomy using da Vinci robotic system: a report of 41 cases. Zhonghua Wei Chang Wai Ke Za Zhi 15(2):121–124PubMed
154.
Uyama I, K S, Ishida Y, Inaba K, Suda K, Satoh S (2012) Novel integrated robotic approach for suprapancreatic D2 nodal dissection for treating gastric cancer: technique and initial experience. World J Surg 36(2):331–337PubMed
155.
D’Annibale A, P V, Pernazza G, Monsellato I, Mazzocchi P, Lucandri G, Morpurgo E, Contardo T, Sovernigo G (2011) Full robotic gastrectomy with extended (D2) lymphadenectomy for gastric cancer: surgical technique and preliminary results. J Surg Res 166(2):113–120
156.
Hur H, K J, Cho YK, Han SU (2010) Technical feasibility of robot-sewn anastomosis in robotic surgery for gastric cancer. J Laparoendosc Adv Surg Tech A 20(8):693–697PubMed
157.
Liu FL, L C, Qin J, Shen KT, Chen WD, Shen ZB, Wang C, Sun YH, Qin XY (2010) Da Vinci robot-assisted gastrectomy with lymph node dissection for gastric cancer: a case series of 9 patients. Zhonghua Wei Chang Wai Ke Za Zhi 13(5):327–329PubMed
158.
Song J, O S, Kang WH, Hyung WJ, Choi SH, Noh SH (2009) Robot-assisted gastrectomy with lymph node dissection for gastric cancer: lessons learned from an initial 100 consecutive procedures. Ann Surg 249(6):927–932PubMed
159.
Patriti A, C G, Bellochi R, Bartoli A, Spaziani A, Di Zitti L, Casciola L (2008) Robot-assisted laparoscopic total and partial gastric resection with D2 lymph node dissection for adenocarcinoma. Surg Endosc 22(12):2753–2760PubMed
160.
Anderson C, E J, Hellan M, Pigazzi A (2007) Pilot series of robot-assisted laparoscopic subtotal gastrectomy with extended lymphadenectomy for gastric cancer. Surg Endosc 21(9):1662–1666PubMed
161.
Isogaki J, H S, Man-I M, Suda K, Kawamura Y, Yoshimura F, Kawabata T, Inaba K, Ishikawa K, Ishida Y, Taniguchi K, Sato S, Kanaya S, Uyama I (2011) Robot-assisted surgery for gastric cancer: experience at our institute. Pathobiology 78(6):328–333PubMed
162.
Suda K, I Y, Kawamura Y, Inaba K, Kanaya S, Teramukai S, Satoh S, Uyama I (2012) Robot-assisted thoracoscopic lymphadenectomy along the left recurrent laryngeal nerve for esophageal squamous cell carcinoma in the prone position: technical report and short-term outcomes. World J Surg 36(7):1608–1616PubMed
163.
Kunisaki C, H S, Imada T, Akiyama H, Ono H, Otsuka Y, Matsuda G, Nomura M, Shimada H (2004) Video-assisted thoracoscopic esophagectomy with a voice-controlled robot: the AESOP system. Surg Laparosc Endosc Percutan Tech 14(6):323–327PubMed
164.
Cerfolio RJ, B A, Hawn MT (2013) Technical aspects and early results of robotic esophagectomy with chest anastomosis. Thorac Cardiovasc Surg 145(1):90–96
165.
Dunn DH, J E, Morphew JA, Dilworth HP, Krueger JL, Banerji N (2013) Robot-assisted transhiatal esophagectomy: a 3-year single-center experience. Dis Esophgus 26(2):159–166
166.
Bodner JC, Z M, Ott H, Wetscher GJ, Wykypiel H, Lucciarini P, Schmid T (2005) Robotic-assisted thoracoscopic surgery (RATS) for benign and malignant esophageal tumors. Ann Thorac Surg 80(4):1202–1206PubMed
167.
Espat NJ, J G, Horgan S, Donahue P (2005) Minimally invasive treatment of esophageal cancer: laparoscopic staging to robotic esophagectomy. Cancer J 11(1):10–17PubMed
168.
Sarkaria IS, R N, Finley DJ, Bains MS, Adusumilli PS, Huang J, Rusch VW (2013) Combined thoracoscopic and laparoscopic robotic-assisted minimally invasive esophagectomy using a four-arm platform: experience, technique and cautions during early procedure development. Eur J Cardiothorac Surg 43(5):e107–e115PubMed
169.
Galvani CA, G M, Moser F, Jacobsen G, Chretien C, Espat NJ, Donahue P, Horgan S (2008) Robotically assisted laparoscopic transhiatal esophagectomy. Surg Endosc 22(1):188–195PubMed
170.
Kernstine KH, D D, Shamoun DM, Campos JH (2007) The first series of completely robotic esophagectomies with three-field lymphadenectomy: initial experience. Surg Endosc 21(12):2285–2292PubMed
171.
van Hillegersberg R, B J, Draaisma WA, Broeders IA, Giezeman MJ, Borel Rinkes IH (2006) First experience with robot-assisted thoracoscopic esophagolymphadenectomy for esophageal cancer. Surg Endosc 20(9):1435–1439PubMed
172.
Horgan S, B R, Elli EF, Espat NJ (2003) Robotic-assisted minimally invasive transhiatal esophagectomy. Am Surg 69(7):624–626PubMed
173.
Sutherland J, B N, Morphew J, Johnson E, Dunn D (2011) Postoperative incidence of incarcerated hiatal hernia and its prevention after robotic transhiatal esophagectomy. Surg Endosc 25(5):1526–1530PubMed
174.
Desiderio J, T S, Cirocchi R, Boselli C, Noya G, Parisi A, Cavaliere D (2013) Robotic gastric resection of large gastrointestinal stromal tumors. Int J Surg 11(2):191–196PubMed
175.
Buchs NC, B P, Pugin F, Hagen ME, Morel P (2010) Robot-assisted oncologic resection for large gastric gastrointestinal stromal tumor: a preliminary case series. J Laparoendosc Adv Surg Tech A 20(5):411–415PubMed
176.
Pigazzi A, E J, Ballantyne GH, Paz IB (2006) Robotic-assisted laparoscopic low anterior resection with total mesorectal excision for rectal cancer. Surg Endosc 20(10):1521–1525PubMed
177.
Zawadzki M, V V, Albalawi SA, Park JJ, Marecik S, Prasad LM (2013) Is hybrid robotic laparoscopic assistance the ideal approach for restorative rectal cancer dissection? Colorectal Dis 15(8):1026–1032PubMed
178.
Hellan M, S H, Pigazzi A (2009) Totally robotic low anterior resection with total mesorectal excision and splenic flexure mobilization. Surg Endosc 23(2):447–451PubMed
179.
Pan HF, R H, Zhao K, Wang G, Li L, Jiang ZW (2012) Totally robotic surgery for rectal cancer with transanal specimen extraction and robot-sewn anastomosis technique. Zhonghua Wei Chang Wai Ke Za Zhi 15(8):807–809PubMed
180.
Wexner SD, B R, Lacy A, Udo J, Brölmann H, Kennedy RH, John H (2009) The current status of robotic pelvic surgery: results of a multinational interdisciplinary consensus conference. Surg Endosc 23(2):438–443PubMed
181.
D’Annibale A, P G, Monsellato I, Pende V, Lucandri G, Mazzocchi P, Alfano G (2013) Total mesorectal excision: a comparison of oncological and functional outcomes between robotic and laparoscopic surgery for rectal cancer. Surg Endosc 27(6):1887–1895PubMed
182.
Kang J, Y K, Min BS, Hur H, Baik SH, Kim NK, Lee KY (2013) The impact of robotic surgery for mid and low rectal cancer: a case-matched analysis of a 3-arm comparison—open, laparoscopic, and robotic surgery. Ann Surg 257(1):95–101PubMed
183.
Barnajian M, Pettet D, Kazi E, Foppa C, Bergamaschi R (2014) Quality of total mesorectal excision and depth of circumferential resection margin in rectal cancer: a matched comparison of first 20 robotic cases. Colorectal Dis 16(8):603–609PubMed
184.
Baik SH, K N, Lee KY, Sohn SK, Cho CH, Kim MJ, Kim H, Shinn RK (2008) Factors influencing pathologic results after total mesorectal excision for rectal cancer: analysis of consecutive 100 cases. Ann Surg Oncol 15(3):751–758
185.
Chern H, C J, Donkor C, Shia J, Guillem JG, Nash GM, Paty PB, Temple LK, Wong WD, Weiser MR (2011) Effects of obesity in rectal cancer surgery. J Am Coll Surg 211(1):55–60
186.
Weissman JS, Z M (2013) Comparative effectiveness research on robotic surgery. JAMA 309(7):721–722PubMed
187.
Trastulli S, F E, Cirocchi R, Cavaliere D, Avenia N, Sciannameo F, Gullà N, Noya G, Boselli C (2012) Robotic resection compared with laparoscopic rectal resection for cancer: systematic review and meta-analysis of short-term outcome. Colorectal Dis 14(4):e134–e156PubMed
188.
Lin S, J H, Chen ZH, Zhou SY, Liu XS, Yu JR (2011) Meta-analysis of robotic and laparoscopic surgery for treatment of rectal cancer. World J Gastroenterol 17(47):5214–5220PubMedCentralPubMed
189.
Memon S, H A, Murphy DG, Bressel M, Lynch AC (2012) Robotic versus laparoscopic proctectomy for rectal cancer: a meta-analysis. Ann Surg Oncol 19(7):2095–2101PubMed
190.
Ortiz-Oshiro E, S-E I, Moreno-Sierra J, Pérez CF, Díaz JS, Fernández-Represa JÁ (2012) Robotic assistance may reduce conversion to open in rectal carcinoma laparoscopic surgery: systematic review and meta-analysis. Int J Med Robot 8(3):360–370PubMed
191.
Halabi WJ, K C, Jafari MD, Nguyen VQ, Carmichael JC, Mills S, Stamos MJ, Pigazzi A (2013) Robotic-assisted colorectal surgery in the United States: a nationwide analysis of trends and outcomes. World J Surg 37(12):2782–2790PubMed
192.
Fernandez R, A D, Li LT, Orcutt ST, Balentine CJ, Awad SA, Berger DH, Albo DA, Artinyan A (2013) Laparoscopic versus robotic rectal resection for rectal cancer in a veteran population. Am J Surg 206(4):509–517PubMed
193.
Baik SH, L W, Rha KH, Kim NK, Sohn SK, Chi HS, Cho CH, Lee SK, Cheon JH, Ahn JB, Kim WH (2008) Robotic total mesorectal excision for rectal cancer using four robotic arms. Surg Endosc 22(3):792–797PubMed
194.
Karahasanoglu T, H I, Baca B, Aytac E, Erguner I, Uras C (2012) Robotic surgery for rectal cancer: initial experience from 30 consecutive patients. J Gastrointest Surg 16(2):401–407PubMed
195.
Leonard D, P F, Fieuws S, Jouret-Mourin A, Sempoux C, Jehaes C, Van Eycken E (2010) PROCARE, a multidisciplinary Belgian Project on Cancer of the Rectum. Factors predicting the quality of total mesorectal excision for rectal cancer. Ann Surg 252(6):982–988PubMed
196.
Denost Q, Q L, Buscail E, Martenot M, Laurent C, Rullier E (2013) Short- and long-term impact of body mass index on laparoscopic rectal cancer surgery. Colorectal Dis 15(4):463–469PubMed
197.
198.
Keller DS, H L, Lu M, Delaney CP (2013) Short term outcomes for robotic colorectal surgery by provider volume. J Am Coll Surg 217(6):1063–1069PubMed
199.
Sng KK, H M, Shin JW, Yoo BE, Yang KS, Kim SH (2013) The multiphasic learning curve for robot-assisted rectal surgery. Surg Endosc 27(9):3297–3307PubMed
200.
Kim YW, L H, Kim NK, Min BS, Lee KY (2012) The learning curve for robot-assisted total mesorectal excision for rectal cancer. Surg Laparosc Endosc Percutan Tech 22(5):400–405PubMed
201.
Bokhari MB, P C, Ramos-Valadez DI, Ragupathi M, Haas EM (2011) Learning curve for robotic assisted laparoscopic colorectal surgery. Surg Endosc 25(3):855–860PubMedCentralPubMed
202.
Jiménez-Rodríguez RM, D-P J, de la Portilla de Juan F, Prendes-Sillero E, Dussort HC, Padillo J (2013) Learning curve for robotic-assisted laparoscopic rectal cancer surgery. Int J Colorectal Dis 28(6):815–821PubMed
203.
Baik SH, K Y, Kang CM, Lee WJ, Kim NK, Sohn SK, Chi HS, Cho CH (2008) Robotic tumor-specific mesorectal excision of rectal cancer: short-term outcome of a pilot randomized trial. Surg Endoc 22(7):1601–1608
204.
Bianchi PP, C C, Locatelli A, Spinoglio G, Zampino MG, Sonzogni A, Crosta C, Andreoni B (2010) Robotic versus laparoscopic total mesorectal excision for rectal cancer: a comparative analysis of oncological safety and short-term outcomes. Surg Endosc 24(11):2888–2894PubMed
205.
Saklani AP, L D, Hur H, Min BS, Baik SH, Lee KY, Kim NK (2013) Robotic versus laparoscopic surgery for mid-low rectal cancer after neoadjuvant chemoradiation therapy: comparison of oncologic outcomes. Int J Colorectal Dis 28(12):1689–1698PubMed
206.
Park JS, C G, Lim KH, Jang YS, Jun SH (2010) Robotic-assisted versus laparoscopic surgery for low rectal cancer: case-matched analysis of short-term outcomes. Ann Surg Oncol 17(12):3195–3202PubMed
207.
Akmal Y, B J, McKenzie S, Garcia-Aguilar J, Pigazzi A (2012) Robot-assisted total mesorectal excision: is there a learning curve? Surg Endosc 26(9):2471–2476PubMed
208.
Baek SJ, K S, Cho JS, Shin JW, Kim J (2012) Robotic versus conventional laparoscopic surgery for rectal cancer: a cost analysis from a single institute in Korea. World J Surg 36(11):2722–2729PubMed
209.
Gomez Ruiz M, Martin Parra I, Calleja Iglesias A, Stein H, Sprinkle S, Manuel Palazuelos C, Alonso Martin J, Cagigas Fernandez C, Castillo Diego J, Gomez Fleitas M (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
210.
Buchs NC, P F, Volonte F, Hagen ME, Morel P, Ris F (2013) Robotic transanal endoscopic microsurgery: technical details for the lateral approach. Dis Colon Rectum 56(10):1194–1198PubMed
211.
Atallah S, Nassif G, Polavarapu H, deBeche-Adams T, Ouyang J, Albert M, Larach S (2013) Robotic-assisted transanal surgery for total mesorectal excision (RATS-TME): a description of a novel surgical approach with video demonstration.Tech Coloproctol 17(4):441–447
212.
Wong MT, M G, Rigaud J, Regenet N, Lehur PA (2011) Robotic versus laparoscopic rectopexy for complex rectocele: a prospective comparison of short-term outcomes. Dis Colon Rectum 54(3):342–346PubMed
213.
Mantoo S, P J, Regenet N, Rigaud J, Lehur PA, Meurette G (2013) Is robotic-assisted ventral mesh rectopexy superior to laparoscopic ventral mesh rectopexy in the management of obstructed defaecation? Colorectal Dis 15(8):469–475
214.
Heemskerk J, de Hoog DE, van Gemert WG, Baeten CG, Greve JW, Bouvy ND (2007) Robot-assisted vs. conventional laparoscopic rectopexy for rectal prolapse: a comparative study on costs and time. Dis Colon Rectum 50(11):1825–1830PubMedCentralPubMed
215.
Buchs NC, P F, Ris F, Volonte F, Morel P, Roche B (2013) Early experience with robotic rectopexy. Int J Med Robot 9(4):61–65
216.
Mäkelä-Kaikkonen J, R T, Klintrup K, Takala H, Vierimaa M, Ohtonen P, Mäkelä J (2014) Robotic-assisted and laparoscopic ventral rectopexy in the treatment of rectal prolapse: a matched-pairs study of operative details and complications. Tech Coloprotocol 18(2):151–155
217.
Cadeddu F, S P, Grande M, De Luca E, Franceschilli L, Milito G (2012) Focus on abdominal rectopexy for full-thickness rectal prolapse: meta-analysis of literature. Tech Coloproctol 16(1):37–53PubMed
218.
de Hoog DE, H J, Nieman FH, van Gemert WG, Baeten CG, Bouvy ND (2009) Recurrence and functional results after open versus conventional laparoscopic versus robot-assisted laparoscopic rectopexy for rectal prolapse: a case-control study. Int J Colorectal Dis 24(10):1201–1206PubMedCentralPubMed
219.
Kim CW, Kim CH, Baik SH (2014) Outcomes of robotic-assisted colorectal surgery compared with laparoscopic and open surgery: a systematic review. J Gastrointest Surg 18(4):816–830PubMed
220.
Raftopoulos Y, S A, Di Giuro G, Bergamaschi R (2005) Rectal Prolapse Recurrence Study Group. Recurrence rates after abdominal surgery for complete rectal prolapse: a multicenter pooled analysis of 643 individual patient data. Dis Colon Rectum 48:1200–1206PubMed
221.
Foppa C, Martinek L, Arnaud JP, Bergamaschi R (2014) Ten-year follow up after laparoscopic suture rectopexy for full-thickness rectal prolapse. Colorectal Dis 16(10):809–814PubMed
222.
Maeso S, R M, Mayol JA et al (2010) Efficacy of the Da Vinci Surgical System in abdominal surgery compared with that of laparoscopy, a systematic review and meta analysis. Ann Surg 252:254–262PubMed
223.
Ayav A, B L, Hubert J, Brunaud L, Boissel P (2005) Robotic-assisted pelvic organ prolapse surgery. Surg Endosc 19:1200–1203PubMed
224.
Antoniou SA, A G, Koch OO, Pointner R, Granderath FA (2012) Robot-assisted laparoscopic surgery of the colon and rectum. Surg Endosc 26(1):1–11PubMed
225.
Casillas MA Jr, Leichtle S, Wahl WL, Lampman RM, Welch KB, Wellock T, Madden EB, Cleary RK (2014) Improved perioperative and short-term outcomes of robotic versus conventional laparoscopic colorectal operations. Am J Surg 208:33–40PubMed
226.
D’Annibale A, P G, Morpurgo E, Monsellato I, Pende V, Lucandri G, Termini B, Orsini C, Sovernigo G (2010) Robotic right colon resection: evaluation of first 50 consecutive cases for malignant disease. Ann Surg Oncol 17(11):2856–2862PubMed
227.
Morpurgo E, C T, Molaro R, Zerbinati A, Orsini C, D’Annibale A (2013) Robotic-assisted intracorporeal anastomosis versus extracorporeal anastomosis in laparoscopic right hemicolectomy for cancern: a case control study. J Laparoendosc Adv Surg Tech A 23(5):414–417PubMed
228.
Tarta C, B M, Bergamaschi R (2013) Intracorporeal ileocolic anastomosis: a review. Tech Coloproctol 17(5):479–485PubMed
229.
Stein SA, B R (2013) Extracorporeal versus intracorporeal ileocolic anastomosis. Tech Coloproctol 17(Suppl 1):S35–S39PubMed
230.
Park JS, C G, Park SY, Kim HJ, Ryuk JP (2012) Randomized clinical trial of robot-assisted versus standard laparoscopic right colectomy. Br J Surg 99(9):1219–1226PubMed
231.
Bertani E, C A, Biffi R, Bianchi PP, Radice D, Branchi V, Cenderelli E, Vetrano I, Cenciarelli S, Andreoni B (2011) Assessing appropriateness for elective colorectal cancer surgery: clinical, oncological, and quality-of-life short-term outcomes employing different treatment approaches. Int J Colorectal Dis 26(10):1317–1327PubMed
232.
Jy S (2012) Comparison of short-term surgical outcomes between a robotic colectomy and a laparoscopic colectomy during early experience. J Korean Soc Coloproctol 28(1):19–26
233.
Rawlings AL, W J, Vegunta RK, Crawford DL (2007) Robotic versus laparoscopic colectomy. Surg Endosc 21(10):1701–1708PubMed
234.
deSouza AL, P L, Park JJ, Marecik SJ, Blumetti J, Abcarian H (2010) Robotic assistance in right hemicolectomy: is there a Role? Dis Colon Rectum 53(7):1000–1006PubMed
235.
Deutsch GB, S S, Gunabushanam V, Mishra N, Rubach E, Zemon H, Klein JD, Denoto G 3rd (2012) Robotic vs laparoscopic colorectal surgery: an institutional experience. Surg Endosc 26(4):956–963PubMed
236.
Lim DR, M B, Kim MS, Alasari S, Kim G, Hur H, Baik SH, Lee KY, Kim NK (2013) Robotic versus laparoscopic anterior resection of sigmoid colon cancer: comparative study of long-term oncologic outcomes. Surg Endosc 27(4):1379–1385PubMedCentralPubMed
237.
Tyler JA, F J, Desai MM, Perry WB, Glasgow SC (2013) Outcomes and costs associated with robotic colectomy in the minimally invasive era. Dis Colon Rectum 56(4):458–466PubMed
238.
Bergamaschi R (2011) More or Less. Tech Coloproctol 15(4):369–370PubMed
239.
Cahill RA, L I, Jones O, Guy R, Mortensen N, Cunningham C (2010) Single-port laparoscopic total colectomy for medically uncontrolled colitis. Dis Colon Rectum 53(8):1143–1147PubMed
240.
Buchs NC, P F, Chassot G, Volonte F, Koutny-Fong P, Hagen ME, Morel P (2013) Robot-assisted Roux-en-Y gastric bypass for super obese patients: a comparative study. Obes Surg 23(3):353–357PubMed
241.
Fourman MM, S A (2012) Robotic bariatric surgery: a systematic review. Surg Obes Relat Dis 8(4):483–488PubMed
242.
Gill RS, Al-Adra DP, Birch D, Hudson M, Shi X, Sharma AM, Karmali S (2011) Robotic-assisted bariatric surgery: a systematic review. Int J Med Robot 7(3):249–255PubMed
243.
Bailey JG, H J, Davis PJ, Liu RY, Haardt D, Ellsmere J (2014) Robotic versus laparoscopic Roux-en-Y gastric bypass (RYGB) in obese adults ages 18 to 65 years: a systematic review and economic analysis. Surg Endosc 28(2):414–426PubMed
244.
Markar SR, P M, Hashemi M (2012) Robotic bariatric surgery: bypass, band and sleeve. Where are we now? And what is the future? Minerva Gastriebterik Dietol 58(3):181–190
245.
Tieu K, A N, Snyder B, Wilson T, Toder M, Wilson E (2013) Robotic-assisted Roux-en-Y gastric bypass: update from 2 high-volume centers. Surg Obes Relat Dis 9(2):284–288PubMed
246.
Kim K, H M, Buffington C (2013) Robotics in advanced gastrointestinal surgery: the bariatric experience. Cancer J 19(2):177–182PubMed
247.
Vilallonga R, F J, Caubet E, Gonzalez O, Armengol M (2013) Robotic sleeve gastrectomy versus laparoscopic sleeve gastrectomy: a comparative study with 200 patients. Obes Surg 23(10):1501–1507PubMed
248.
Wilson EB, S R (2013) The evolution of robotic bariatric surgery. World J Surg 37(12):2756–2760PubMed
249.
Sudan R, B K, Jacobs DO, Sudan DL (2012) Multifactorial analysis of the learning curve for robot-assisted laparoscopic biliopancreatic diversion with duodenal switch. Ann Surg 255(5):940–945PubMed
250.
Vilallonga R, Fort JM, Gonzalez O, Caubet E, Boleko A, Neff KJ, Armengol M (2012) The initial learning curve for robot-assisted sleeve gastrectomy: a surgeon’s experience while introducing the robotic technology in a Bariatric Surgery Department. Minim Invasive Surg
251.
Scozzari G, R F, Millo P, Rocchietto S, Allieta R, Morino M (2011) Robot-assisted gastrojejunal anastomosis does not improve the results of the laparoscopic Roux-en-Y gastric bypass. Surg Endosc 25(2):597–603PubMed
252.
Choi SH, H H, Kang CM, Lee WJ (2012) Transumbilical single port laparoscopic adrenalectomy: a technical report on right and left adrenalectomy using the glove port. Yonsei Med J 53:442–445PubMedCentralPubMed
253.
Park JH, Kim SY, Lee CR, Park S, Jeong JS, Kang SW, Jeong JJ, Nam KH, Chung WY, Park CS (2013) Robot-assisted posterior retroperitoneoscopic adrenalectomy using single-port access: technical feasibility and preliminary results. Ann Surg Oncol 20(8):2741–2745PubMed
254.
Krane LS, S A, Eun D, Narra V, Bhandari M, Menon M (2008) A four-step technique of robotic right adrenalectomy: initial experience. BJU Int 101:1289–1292PubMed
255.
Morino M, B G, Giraudo G, Del Genio GM, Rebecchi F, Garrone C (2004) Robot-assisted vs laparoscopic adrenalectomy: a prospective randomized controlled trial. Surg Endosc 18(12):1742–1746PubMed
256.
pietrabissa A (2005) A critical comparision of robotic versus conventional laparoscopic splenectomies. World J Surg 29(8):982–985
257.
C, v., (2012) Laparoscopic vs robotic subtotal splenectomy in hereditary spheroocitosis. potential advantages and limits of an extensice approach. Surg Endosc 26(10): p. 2802-6****.
258.
Rosoff JS, O B, Del Pizzo JJ (2010) The emerging role of robotics in adrenal surgery. Curr Urol Rep 11(1):38–43PubMed
259.
260.
Brandao LF, Autorino R, Laydner H, Haber GP, Ouzaid I, De Sio M, Perdonà S, Stein RJ, Porpiglia F, Kaouk JH (2013) Robotic versus laparoscopic adrenalectomy: a systematic review and meta-analysis. Eur Urol 65(6):1154–1161PubMed
261.
Bruhn AM, Hyams ES, Stifelman MD (2010) Laparoscopic and robotic assisted adrenal surgery. Minerva Urol Nefrol 62(3):305–318PubMed
262.
Hyams ES, S M (2009) The role of robotics for adrenal pathology. Curr Opin Oncol 19(1):89–96
263.
Morris LF, P N (2012) Advances in robotic adrenalectomy. Curr Opin Oncol 24(1):1–6PubMed
264.
Heloury Y, Muthucumaru M, Panabokke G, Cheng W, Kimber C, Leclair MD (2012) Minimally invasive adrenalectomy in children. J Pediatr Surg 47(2):415–421PubMed
265.
Park JH, W M, Kang SW, Jeong JJ, Nam KH, Chang HS, Chung WY, Park CS (2011) Robot-assisted posterior retroperitoneoscopic adrenalectomy: single port access. J Korean Surg Soc 81(Suppl 1):s21–s24PubMedCentralPubMed
266.
D’Annibale A, F V, Trevisan P, Pozzobon M, Gianfreda V, Sovernigo G, Morpurgo E, Orsini C, Del Monte D (2004) The da Vinci robot in right adrenalectomy: considerations on technique. Surg Laparosc Endosc Percutan Tech 14:38–41PubMed
267.
Zafar SS, A R (2008) Robot-assisted laparoscopic adrenalectomy for adrenocortical carcinoma: initial report and review of the literature. J Endourol 22(5):985–989PubMed
268.
Nehs MA, R D (2011) Minimally invasive adrenal surgery: an update. Curr Opin Endocrinol Diabetes Obes 18(3):193–197PubMed
269.
Huscher CS, Hüscher CSG, Chiodini S, Napolitano C, Recher A (1997) Endoscopic right thyroid lobectomy. Surg Endosc 11:877PubMed
270.
Miccoli P, B P, Conte M, Bendinelli C, Marcocci C (1999) Minimally invasive surgery for small thyroid nodules: preliminary report. J Endocrinol Invest 22:849–851PubMed
271.
Ohgami M, I S, Ohmori T, Noga K, Furukawa T, Kitajima M (2000) Scarless endoscopic thyroidectomy: breast approach better cosmesis. Surg Laparosc Endosc Percutan Tech 10:1–4PubMed
272.
Ikeda Y, T H, Sasaki Y, Kan S, Niimi M (2000) Endoscopic neck surgery by the axillary approach. J Am Coll Surg 191:336–340PubMed
273.
Lee H, L J, Sung KY (2012) Comparative study comparing endoscopic thyroidectomy using the axillary approach and open thyroidectomy for papillary thyroid microcarcinoma. World J Surg Oncol 12(10):269
274.
Jackson NR et al. (2014) Safety of robotic thyroidectomy approaches: meta-analysis and systematic review. Head Neck 36(1):137–143PubMed
275.
Lang BH, C M (2011) A comparison of surgical outcomes between endoscopic and robotically assisted thyroidectomy: the authors’ initial experience. Surg Endosc 25:1617–1623PubMedCentralPubMed
276.
Lee J, Lee JH, Nah KY (2011) Comparison of endoscopic and robotic thryoidectomy. Ann Surg Oncol 18:1439–1446PubMed
277.
Lee S, Ryu HR, Park JH (2011) Excellence in robotic thyroid surgery: a comparative study of robot-assisted versus conventional endoscopic thyroidectomy in papillary thyroid microcarcinoma patients. Ann Surg Oncol 18:1439–1446PubMed
278.
Yoo H, Chae BJ, Park HS (2012) Comparison of surgical outcomes between endoscopic and robotic thyroidectomy. J Surg Oncol 105:705–708PubMed
279.
Lin S (2012) Robotic thyroidectomy versus endoscopic thyroidectomy: a meta-analysis. World J Surg Oncol 9(10):239
280.
Tae K, J Y, Jeong JH, Kim KR, Choi WH, Ahn YH (2013) Comparative study of robotic versus endoscopic thyroidectomy by a gasless unilateral axillo-breast or axillary approach. Head Neck 35(4):477–484PubMed
281.
Lee J (2011) The learning curve for robotic thyroidectomy: a multicenter study. Ann Surg Oncol 18(1):226–232PubMed
282.
Kim SJ (2013) Prospective study of sensation in anterior chest areas before and after a bilateral axillo-breast approach for endoscopic/robotic thyroid surgery. World J Surg 37(5):1147–1153PubMed
283.
Renoult E, H J, Ladrière M, Billaut N, Mourey E, Feuillu B, Kessler M (2006) Robot-assisted laparoscopic and open live-donor nephrectomy: a comparison of donor morbidity and early renal allograft outcomes. Nephrol Dial Transplant 21:472–477PubMed
284.
Hubert J, Renoult E, Mourey E, Frimat L, Cormier L, Kessler M (2007) Complete robotic-assistance during laparoscopic living donor nephrectomies: an evaluation of 38 procedures at a single site. Int J Urol 14:986–989PubMed
285.
Louis G, H J, Ladriere M, Frimat L, Kessler M (2009) Robotic-assisted laparoscopic donor nephrectomy for kidney transplantation. An evaluation of 35 procedures. Nephrol Ther. 5(7):623–630PubMed
286.
Renoult E, H J, Ladrière M, Billaut N, Mourey E, Feuillu B, Kessler M (2006) Robot-assisted laparoscopic and open live-donor nephrectomy: a comparison of donor morbidity and early renal allograft outcomes. Nephrol Dial Transplant 21(2):472–477PubMed
287.
Liu XS, Narins HW, Maley WR, Frank AM, Lallas CD (2012) Robotic-assistance does not enhance standard laparoscopic technique for right-sided donor nephrectomy. J Soc Laparoendosc Surg 16:202–207
288.
Oberholzer J, Testa G, Sankary H, John E, Thielke J, Benedetti E (2004) Kidney transplantation at the University of Illinois at Chicago from 1988 to 2004. Clin Transpl, 143–149
289.
Lee DK, M D, Porter JR (2013) Concurrent transperitoneal repair for incidentally detected inguinal hernias during robotically assisted radical prostatectomy. Uroglogy 82:1320–1322
290.
Nakamura LY, Nunez RN, Castle EP, Andrews PE, Humphreys MR (2011) Different approaches to an inguinal hernia repair during a simultaneous robot-assisted radical prostatectomy. J Endourol 25(4):621–624PubMed
291.
Tayar C, K M, Cherqui D, Fagniez PL (2007) Robot-assisted laparoscopic mesh repair of incisional hernias with exclusive intracorporeal suturing: a pilot study. Surg Endosc 21:1786–1789PubMed
292.
Profanter C, S T, Prommegger R et al (2004) Robot-assisted mediastinal parathyroidectomy. Surg Endosc 18(5):868–870PubMed
293.
294.
295.
296.
Ruurda JP, D W, van Hillegersberg R, Borel Rinkes IH, Gooszen HG, Janssen LW, Simmermacher RK, Broeders IA (2005) Robot-assisted endoscopic surgery: a four-year single-center experience. Dig Surg 22(5):313–320PubMed
297.
Wormer BA, Dacey KT, Williams KB, Bradley JF 3rd, Walters AL, Augenstein VA, Stefanidis D, Heniford BT (2013) The first nationwide evaluation of robotic general surgery: a regionalized, small but safe start. Surg Endosc 28(3):767–776PubMed
298.
Salman M (2013) Use, cost, complicaitons, and mortality of robotic vs non robotic general surgery procedures based on a nationwide database. Am Surg 79(6):553–560PubMed
299.
Mirnezami AH, M R, Venkatasubramaniam AK, Chandrakumaran K, Cecil TD, Moran BJ (2010) Robotic colorectal surgery: hype or new hope? A systematic review of robotics in colorectal surgery. Colorectal Dis 12(11):1084–1093PubMed
300.
Fung AK, A E (2013) Robotic colonic surgery: is it advisable to commence a new learning curve? Dis Colon Rectum 56(6):786–796PubMed
301.
Yang Y, W F, Zhang P, Shi C, Zou Y, Qin H, Ma Y (2012) Robot-assisted versus conventional laparoscopic surgery for colorectal disease, focusing on rectal cancer: a meta-analysis. Ann Surg Oncol 19(12):3727–3736PubMed
302.
Delaney CP, L A, Senagore AJ, Fazio VW (2003) Comparison of robotically performed and traditional laparoscopic colorectal surgery. Dis Colon Rectum 46(12):1633–1639PubMed
303.
Nakadi IE, M C, Closset J, DeMoor V, Bétroune K, Feron P, Lingier P, Gelin M (2006) Evaluation of da Vinci Nissen fundoplication clinical results and cost minimization. WorldJ Surg 30(6):1050–1054
304.
Markar SR, K A, Hagen ME, Talamini M, Horgan S, Wagner OJ (2010) Robotic vs. laparoscopic Nissen fundoplication for gastro-oesophageal reflux disease: systematic review and meta-analysis. Int J Med Robot 6(2):125–131PubMed
305.
Wang Z, Zheng Q, Jin Z (2012) Meta-analysis of robot-assisted versus conventional laparoscopic Nissen fundoplication for gastro-oesophageal reflux disease. ANZ J Surg 82(3):112–117PubMed
306.
Costi R, H J, Iusco D, Sarli L, Violi V, Roncoroni L, Cadière GB (2004) Robotic fundoplication for gastro-oesophageal reflux disease. Chur Ital 56(3):321–331
307.
Heemskerk J, van Gemert WG, Greve JW, Bouvy ND (2007) Robot-assisted versus conventional laparoscopic Nissen fundoplication: a comparative retrospective study on costs and time consumption. Surg Laparosc Endosc Percutan Tech 17(1):1–4PubMed
308.
Shaligram A, U J, Simorov A, Kothari VM, Oleynikov D (2012) How does the robot affect outcomes? A retrospective review of open, laparoscopic, and robotic Heller myotomy for achalasia. Surg Endosc 26(4):1047–1050PubMed
309.
Eom BW, Y H, Ryu KW, Lee JH, Cho SJ, Lee JY, Kim CG, Choi IJ, Lee JS, Kook MC, Rhee JY, Park SR, Kim YW (2012) Comparison of surgical performance and short-term clinical outcomes between laparoscopic and robotic surgery in distal gastric cancer. Eur J Surg Oncol 38(1):57–63PubMed
310.
Sanchez BR, M C, Morton JM, Safadi BY, Alami RS, Curet MJ (2005) Comparison of totally robotic laparoscopic Roux-en-Y gastric bypass and traditional laparoscopic Roux-en-Y gastric bypass. Surg Obes Relat Dis 1(6):549–554PubMed
311.
Bailey JG, Hayde JA, Davis PJ, Liu RY, Haardt D, Ellsmere J (2013) Robotic versus laparoscopic Roux-en-Y gastric bypass (RYGB) in obese adults ages 18 to 65 years: a systematic review and economic analysis. Surg Endosc 28(2):414–426PubMed
312.
Hagen ME, Pugin F, Chassot G, Huber O, Buchs N, Iranmanesh P, Morel P (2012) Reducing cost of surgery by avoiding complications: the model of robotic Roux-en-Y gastric bypass. Obes Surg 22(1):52–61PubMed
313.
Hubens G, B L, Ruppert M, Gypen B, Van Tu T, Vaneerdeweg W (2008) Roux-en-Y gastric bypass procedure performed with the da Vinci robot system: is it worth it? Surg Endosc 22(7):1690–1696PubMed
314.
Broome JT, P S, Solorzano CC (2012) Expense of robotic thyroidectomy: a cost analysis at a single institution. Arch Surg 147(12):1102–1106PubMed
315.
Cabot JC, L C, Brunaud L, Kleiman DA, Chung WY, Fahey TJ 3rd, Zarnegar R (2012) Robotic and endoscopic transaxillary thyroidectomies may be cost prohibitive when compared to standard cervical thyroidectomy: a cost analysis. Surgery 152(6):1016–1024PubMed
316.
Brunaud L, A A, Zarnegar R, Rouers A, Klein M, Boissel P, Bresler L (2008) Prospective evaluation of 100 robotic-assisted unilateral adrenalectomies. Surgery 14(8):995–1001
317.
Heemskerk J, v D R, van Gemert WG, Beets GL, Greve JW, Jacobs MJ, Bouvy ND (2005) First results after introduction of the four-armed da Vinci Surgical System in fully robotic laparoscopic cholecystectomy. Dig Surg 22(6):426–431PubMed
318.
Winter JM, Talamini MA, Stanfield CL, Chang DC, Hundt JD, Dackiw AP, Dackiw AP, Campbell KA, Schulick RD (2006) Thirty robotic adrenalectomies: a single institution’s experience. Surg Endosc 20(1):119–124PubMed
Metadata
Title
European association of endoscopic surgeons (EAES) consensus statement on the use of robotics in general surgery
Authors
Amir Szold
Roberto Bergamaschi
Ivo Broeders
Jenny Dankelman
Antonello Forgione
Thomas Langø
Andreas Melzer
Yoav Mintz
Salvador Morales-Conde
Michael Rhodes
Richard Satava
Chung-Ngai Tang
Ramon Vilallonga
Publication date
01-02-2015
Publisher
Springer US
Published in
Surgical Endoscopy / Issue 2/2015
Print ISSN: 0930-2794
Electronic ISSN: 1432-2218
DOI
https://doi.org/10.1007/s00464-014-3916-9

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