References
- Dankelman J, Grimbergen CA, Stassen HG. New Technologies Supporting Surgical Intervenltions and Training of Surgical Skills - A Look at Projects in Europe Supporting Minimally Invasive Techniques. Engineering in Medicine and Biology Magazine, IEEE. 2007;26:47–52.
- Dankelman J, Grimbergen CA, Stassen HG. Engineering for patient safety (Issues in Minimally Invasive procedures). London: Lawrence Erlbaum Associates, 2005.
- Rattner D, Kalloo A. ASGE/SAGES working group on natural orifice translumenal endoscopic surgery. Surg Endosc. 2006;20:329–33.
- Breedveld P, Stassen HG, Meijer DW, Jakimowicz JJ. Manipulation in laparoscopic surgery: overview of impeding effects and supporting aids. J Laparoendosc Adv Surg Tech A. 1999;9:469–80.
- Cuschieri A. Laparoscopic surgery: current status, issues and future developments. Surgeon. 2005;3:125–30; 32-3, 35-8.
- Breedveld P. Steerable laparoscopic cable-ring forceps. J Med Devices. 2010;4:027518–11.
- Breedveld P, Scheltes JS, Blom EM, Verheij JE. A new, easily miniaturized steerable endoscope. Squid tentacles provide inspiration for the Endo-Periscope. IEEE Eng Med Biol Mag. 2005;24:40–7.
- Gossot D, Lange G. Deflectable and rotatable endoscopic instrument with intuitive control. Minim Invasive Ther Allied Technol. 2001;10:295–9.
- Melzer A, Kipfmüller K, Halfar B. Deflectable endoscopic instrument system DENIS. Surg Endosc. 1997;11:1045–51.
- Boston, Scientific. Blazer Platform. cited 2011 19th, December Available from http://www.bostonscientific.com/.
- Endo C. Autonomy Laparo-Angle. 2006. cited 2011 7th, January Available from http://www.cambridgeendo.com/index.php?option=com_content&view=article&id=35&Itemid=29.
- Medical SJ. ComfortGrip Handle. cited 2011 19th, December Available from http://www.sjm.com/.
- Novare Surgical System I. RealHand™ HD instruments. 2011. cited 2011 Available from www.novaresurgical.com.
- Olympus. Olympus Colonoscopy. cited 2012 19th, December Available from http://www.olympus-europa.com/endoscopy/427_1880.htm.
- St.JudeMedical. Livewire TC ablation catheter. cited 2011 19th, December Available from http://www.sjmprofessional.com/Products/Intl/Ablation-Therapy/Livewire-TC-Ablation-Catheters.aspx.
- Surgical C. Covidien Roticulator. cited 2011 19th, December Available from http://www.autosuture.com/autosuture/pages.aspx?page=Products/31403/7476.
- Surgical C. SILS Hand instruments. 2012. cited 2012 19th, December Available from http://www.covidien.com/autosuture/pages.aspx?page=Products/195057.
- Waseda M, Inaki N, Bermudez J, Manukyan G, Gacek I, Schurr M, et al. Precision in stitches: Radius Surgical System. Surg Endosc. 2007;21:2056–62.
- Martinec D, Gatta P, Zheng B, Denk P, Swanström L. The trade-off between flexibility and maneuverability: task performance with articulating laparoscopic instruments. Surg Endosc. 2009;23:2697–701.
- Zahraee AH, Szewczyk J, Morel G. Simulation for optimal design of hand-held surgical robots. In Engineering in Medicine and Biology Society, 2009 3–6 Sept., Minneapolis, MN: 2009. p 270–3.
- Fan C, Clogenson H, Breedveld P, van den Dobbelsteen JJ, Dankelman J. Comparison of Two Control Methods for Minimally Invasive Surgical Instruments. J Med Devices. 2012;6:021005–6.
- Breedveld P. Steerable laparoscopic cable-ring forceps. J Med Devices. 2010;4:027518.
- Loeve A, Breedveld P, Dankelman J. Scopes too flexible and too stiff. Pulse, IEEE. 2010;1:26–41.
- Boston, Scientific. Ten-Ten™ Duodecapolar Diagnostic Catheter. cited 2011 19th, December Available from http://www.bostonscientific.com/Device.bsci?page=HCP_Overview& navRelId=1000.1003&method=DevDetailHCP&id=10005701&pageDisclaimer=Disclaimer.ProductPage.
- Frede T, Hammady A, Klein J, Teber D, Inaki N, Waseda M, et al. New Device for Complex Minimally Invasive Procedures in Urology? Eur Urol. 2007;51:1015–22.
- Boston, Scientific. Polaris Dx Steerable Diagnostic Catheter. cited 2011 19th, December Available from http://www.bostonscientific.com/Device.bsci?page=HCP_Overview&navRelId=1000.1003&method=DevDetailHCP&id=10070862&pageDisclaimer=Disclaimer.ProductPage.
- Dario P, Carrozza MC, Marcacci M, D'Attanasio S, Magnami B, Tonet O, et al. A novel mechatronic tool for computer-assisted arthroscopy. Information Technology in Biomedicine, IEEE Transactions on. 2000;4:15–29.
- Yamashita H, Matsumiya K, Masamune K, Liao H, Chiba T, Dohi T. Two-DOFs bending forceps manipulator of 3.5-mm diameter for intrauterine fetus surgery: feasibility evaluation. Int J CARS. 2006;1:218.
- Breedveld P. I-Flex. 2009. cited 2012 Available from http://home.tudelft.nl/en/cooperation/innovation-tu-delft/dde-award-2009/i-flex/.
- Ahmed K, Khan MS, Vats A, Nagpal K, Priest O, Patel V, et al. Current status of robotic assisted pelvic surgery and future developments. Int J Surg. 2009;7:431–40.
- Cepolina F, Michelini R. Review of robotic fixtures for minimally invasive surgery. Int J Med Robot Comput Assist Surg. 2004;1:43–63.
- Kaul S, Menon M. Robotics in laparoscopic urology. Minim Invasive Ther Allied Technol. 2005;14:62–70.
- Jaspers JEN, Grimbergen CA. Mechanical manipulator for intuitive control of endoscopic instruments with seven degrees of freedom. In Systems, Man and Cybernetics, 2004 IEEE International Conference on, 2004 10-13 Oct. 2004. p 2479–85; vol.3.
- Ostrovsky I, Slanda J, Bean J. inventors. Articulating torqueable hollow device. patent US 2008/0287741 A1. Nov. 202008.
- Martin BB, Raatikka AR, Thornton TL, Powell FT. inventors. Steerable access sheath and methods of use. patent US 2009/0156995 A1. Jun. 82009.
- Imran M. inventor. Elongate device having steerable distal extremity and proximal bend and method. patent US 5 403 297 A. Apr. 41995.
- System Ns, inventor. Articulating mechanism with flex-hinged links. Dec. 222005.
- Lachiver G, Seufert WD. Design of an endoscopic carrier with complete directional control. Ann Biomed Eng. 1979;7:345–55.
- Ota T, Degani A, Schwartzman D, Zubiate B, McGarvey J, Choset H, et al. A Highly Articulated Robotic Surgical System for Minimally Invasive SurgeryDisclaimer. Ann Thorac Surg. 2009;87:1253–6.
- Choset H, Henning W. A follow-the-leader approach to serpentine robot motion planning. J Aerosp Eng. 1999;12:65.
- Degani A, Choset H, Wolf A, Ota T, Zenati M. Percutaneous intrapericardial interventions using a highly articulated robotic probe. Proceedings of the first IEEE/ RAS-EMBS International Conference on Biomedical Robotics and Biomechatronics 2006. p 7–12.
- Eickhoff A, Van Dam J, Jakobs R, Kudis V, Hartmann D, Damian U, et al. Computer-assisted colonoscopy (the NeoGuide Endoscopy System): results of the first human clinical trial (“PACE study”). Am J Gastroenterol. 2007;102:261–6.
- Waye JD. Quo vadis: another new colonoscope. Am J Gastroenterol. 2007;102:267–8.
- Belson A. Methods and apparatus for performing transluminal and other procedures. WO Patent WO/2007/033,379; 2007.
- Marcel V. Development of a New Multi-Steerable Laparoscopic Instrument [Master Thesis thesis]. Delft University of Technology, 2010.
- Breedveld P. Bio-Inspired Maneuverable Dendritic Devices for Minimally Invasive Surgery. Delft University of Technology, 2011.
- Danitz J, Hinman C. inventors. Articulating Sheath for flexible instruments. patent US 7785252B2. 2010.
- NeoGuide Systems Inc, inventor. Steerable segmented endoscope and method of insertion. patent wo 03028547. 2003.
- Howie C, Alon W, Marco Z. inventors. Steerable follow the leader device. patent WO 2006/083306. 2005.