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[1]Kalloo AN, Singh VK, Jagannath SB, et al. Flexible transgastric peritoneoscopy: a novel approach to diagnostic and therapeutic interventions in the peritoneal cavity. Gastrointest Endosc,2004,60(1):114-117.
[2]ASGE/SAGES Working Gronp on Natural Drifice Translumenal Endoscopic Surgery White Paper October 2005. Gastrointest Endosc,2006,63(2):199-203.
[3]Marescaux J, Dallemagne B, Perretta S, et a1. Surgery without scars: report of transluminal cholecystectomy in a human being. Arch Surg,2007,142(9):823-826.
[4]Arezzo A, Zornig C, Mofid H, et al. The EUROª²NOTES clinical registry for natural orifice transluminal endoscopic surgery: a 2ª²year activity report. Surg Endosc,2013,27(9):3073-3084.
[5]Bingener J, Ibrahimª²Zada I. Natural orifice transluminal endoscopic surgery for intraª²abdominal emergency conditions. Br J Surg,2014,101(1):e80-e89.
[6]Kobiela J, Stefaniak T, Mackowiak M, et al. NOTESª²third generation surgery. Vain hopes or the reality of tomorrow? Langenbecks Arch Surg,2008,393(3):405-411.
[7]Bucher P, Pugin F, Ostermann S, et al. Population perception of surgical safety and body image trauma: a plea for scarless surgery? Surg Endosc,2011,25(2):408-415.
[8]Kalan S, Chauhan S, Coelho RF, et al. History of robotic surgery. J Robotic Surg,2010,4(3):141-147.
[9]Pugin F, Bucher P, Morel P. History of robotic surgery: from AESOP¡k and ZEUS¡k to da Vinci¡k. J Visc Surg,2011,148(5 Suppl):e3-e8.
[10]Puntambekar S, Agarwal G, Joshi SN, et al. Robotic oncological surgery: our initial experience of 164 cases. Indian J Surg Oncol,2012,3(2):96-100.
[11]Ò¶²¨, ·ë¼ü, ³ÂÃú, µÈ.´ï·ÒÆæ»úÆ÷ÈË×ݸôÖ×ÎïÇгýÊõ23ÀýÁÙ´²·ÖÎö.Öйú΢´´Íâ¿ÆÔÓÖ¾,2013,13(5):392-393,397.
[12]Phee SJ, Low SC, Sun ZL, et al. Robotic system for noª²scar gastrointestinal surgery. Int J Med Robot,2008,4(1):15-22.
[13]Wang Z, Phee SJ, Lomanto D, et al. Endoscopic submucosal dissection of gastric lesions by using a master and slave transluminal endoscopic robot: an animal survival study. Endoscopy,2012,44(7):690-694.
[14]Phee SJ, Ho KY, Lomanto D, et al. Natural orifice transgastric endoscopic wedge hepatic resection in an experimental model using an intuitively controlled master and slave transluminal endoscopic robot (MASTER). Surg Endosc,2010,24(9):2293-2298.
[15]Phee SJ, Reddy N, Chiu PW, et al. Robotª²assisted endoscopic submucosal dissection is effective in treating patients with earlyª²stage gastric neoplasia. Clin Gastroenterol Hepatol,2012,10(10):1117-1121.
[16]Karimyan V, Sodergren M, Clark J, et al. Navigation systems and platforms in natural orifice translumenal endoscopic surgery (NOTES). Int J Surg,2009,7(4):297-304.
[17]Canes D, Lehman AC, Farritor SM, et al. The future of NOTES instrumentation: Flexible robotics and in vivo minirobots. J Endourol,2009,23(5):787-792.
[18]Aron M, Desai MM. Flexible robotics. Urol Clin North Am,2009,36(2):157-162.
[19]Vitiello V, Lee SL, Cundy TP, et al. Emerging robotic platforms for minimally invasive surgery. IEEE Rev Biomed Eng,2013,6:111-126.
[20]Oleynikov D, Rentschler M, Hadzialic A, et al. Miniature robots can assist in laparoscopic cholecystectomy. Surg Endosc,2005,19(4):473-476.
[21]Rentschler ME, Oleynikov D. Recent in vivo surgical robot and mechanism developments. Surg Endosc,2007,21(9):1477-1481.
[22]Rentschler ME, Dumpert J, Platt SR, et al. Mobile in vivo camera robots provide sole visual feedback for abdominal exploration and cholecystectomy. Surg Endosc,2006,20(1):135-138.
[23]Rentschler ME, Dumpert J, Platt SR, et al. Mobile in vivo biopsy and camera robot. Stud Health Technol Inform,2006,119:449-454.
[24]Lehman AC, Berg KA, Dumpert J, et al. Surgery with cooperative robots. Comput Aided Surg,2008,13(2):95-105.
[25]Shah BC, Buettner SL, Lehman AC, et al. Miniature in vivo robotics and novel robotic surgical platforms. Urol Clin North Am,2009,36(2):251-263.
[26]Lehman AC, Wood NA, Farritor S, et al. Dexterous miniature robot for advanced minimally invasive surgery. Surg Endosc,2011,25(1):119-123.
[27]Lehman AC, Dumpert J, Wood NA, et al. Natural orifice cholecystectomy using a miniature robot. Surg Endosc,2009,23(2):260-266.
[28]Scott DJ, Tang SJ, Fernandez R, et al. Completely transvaginal NOTES cholecystectomy using magnetically anchored instruments. Surg Endosc,2007,21(12):2308-2316.
[29]Raman JD, Bergs RA, Fernandez R, et al. Complete transvaginal NOTES nephrectomy using magnetically anchored instrumentation. J Endourol,2009,23(3):367-371.
[30]Zygomalas A, Gkiokas K, Koutsouris DD. In silico development and simulation of a modular reconfigurable assembly microª²robot for use in natural orifice transluminal endoscopic surgery. Hell J Surg,2011,83(4):190-196.
[31]Ruiter JG, Bonnema GM,Voort MC, et al. Robotic control of a traditional flexible endoscope for therapy. J Robotic Surg,2013,7(3):227-234.
[32]Wang Z, Sun Z, Phee SJ. Haptic feedback and control of a flexible surgical endoscopic robot. Comput Methods Programs Biomed,2013,112(2):260-271.
[33]H¢‰ller K, Schneider A, Jahn J, et al. Spatial orientation in translumenal surgery. Minim Invasive Ther Allied Technol,2010,19(5):262-273.
[34]Smith K, Goldstein SC. Programmable matter: applications for gastrointestinal endoscopy and surgery. Gastroenterology,2011,140(7):1884-1886.