Advanced search
Publication Cover
Journal of Medical Engineering & Technology Volume 35, 2011 - Issue 1
Submit an article Journal homepage
932
Views
49
CrossRef citations to date
0
Altmetric
Reviews

Advances in medical robotic systems with specific applications in surgery—a review

S. Najarian †Biomechanics Department, Laboratory of Artificial Tactile Sensing and Robotic Surgery, Faculty of Biomedical Engineering, Amirkabir University of Technology (Tehran Polytechnic), Hafez Avenue, Tehran, IranCorrespondence[email protected]
,
M. Fallahnezhad ‡Bioelectronics Department, Laboratory of Biomedical Signal Processing and Medical Instrumentation, Faculty of Biomedical Engineering, Amirkabir University of Technology (Tehran Polytechnic), Hafez Avenue, Tehran, Iran
&
E. Afshari †Biomechanics Department, Laboratory of Artificial Tactile Sensing and Robotic Surgery, Faculty of Biomedical Engineering, Amirkabir University of Technology (Tehran Polytechnic), Hafez Avenue, Tehran, Iran
Pages 19-33 | Received 25 Aug 2010, Accepted 22 Oct 2010, Published online: 09 Dec 2010

References

  • Najarian, S. and Afshari, E., 2010, Applications of Robots in Surgery. In: Intelligent Medical Technologies and Biomedical Engineering: Tools and applicationsR. Tiwari (Ed.), (New York, USA: IGI Global Publisherspp. 241–259.
  • Camarillo, D., Drummel, T. and Salisbury, J., 2004, Robotic technology in surgery: past, present and future. Am J Surg, 188, 2–15.
  • Hockstein, N., Gourin, C., Faust, R. and Terris, D., 2007, A history of robots; from science fiction to surgical robotics. J Robot Surg, 1, 113–118.
  • Speich, J. and Rosen, J., 2004, Medical Robotics. In: G. Wnek and G. Bowlin (Eds), Encyclopedia of Biomaterials and Biomedical Engineering. New York, USA: Marcel Dekker; pp. 983–993.
  • Iversen, E., Sears, H.H. and Jacobsen, S.C., 2005, Artificial Arms Evolve from Robots, or Vice Versa?. IEEE Control Systems Magazine, 25, 16–20.
  • http://www.ai.mit.edu/projects/leglab/, available on 2010/08/21.
  • Makaran, J., Dittmer, D., Buchal, R. and MacArthur, D., 1993, The SMART(R) wrist-hand orthosis (WHO) for quadriplegic patients. J Prosthet Ortho, 5, 73–76.
  • Topping, M., 2002, An Overview of the Development of Handy 1, a Rehabilitation Robot to Assist the Severely Disabled. Journal of Intelligent and Robotic Systems, 34, 253–263.
  • Wasson, G., Gunderson, J., Graves, S. and Felder, R., 2001, An assistive robotic agent for pedestrian mobility, International Conference on Autonomous Agents, Quebec, CanadaMontréal169–173.
  • Frey, M., Colombo, G., Vaglio, M., Bucher, R., Jörg, M. and Riener, R., 2006, A Review of Design Issues in Rehabilitation Robotics with Reference to North America Research. IEEE Transactions on Neural systems and Rehabilitation Engineering, 14, 311–321.
  • Kong, K. and Jeon, D., 2006, Design and Control of an Exoskeleton for the Elderly and Patients. IEEE/ASME Transactions on Mechatronics, 11, 428–432.
  • Emken, J.L., Wynne, J.H., Harkema, S.J. and Reinkensmeyer, D.J., 2006, A Robotic Device for anipulating Human Stepping. IEEE Transations on Robotics, 22, 185–189.
  • Volpe, B.T., Krebs, H.I., Hogan, N., Edelstein, L., Diels, C. and Aisen, M., 2000, A novel approach to stroke rehabilitation Robot-aided sensorimotor stimulation. Neurology, 54, 938–944.
  • Volpe, B.T., Krebs, H.I. and Hogan, N., 2001, Is robot-aided sensorimotor training in stroke rehabilitation a realistic option? Curr Opin Neurol, 14, 745–752.
  • Ferraro, M., Palazzolo, J.J., Krol, J., Krebs, H.I., Hogan, N. and Volpe, B.T., 2003, Robot-aided sensorimotor arm training improves outcome in patients with chronic stroke. Neurology, 61, 1604–1607.
  • Krebs, H.I., Volpe, B.T., Williams, D., Celestino, J., Charles, S.K., Lynch, D. and Hogan, N., 2007, Robot-Aided Neurorehabilitation: A Robot for Wrist Rehabilitation. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 15, 327–335.
  • Rosati, G., Gallina, P. and Masiero, S., 2007, Design, Implementation and Clinical Tests of a Wire-Based Robot for Neurorehabilitation. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 15, 560–569.
  • Lambercy, O., Dovat, L., Gassert, R., Burdet, E., Teo, C.L. and Milner, T., 2007, A Haptic Knob for Rehabilitation of Hand Function. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 15, 356–366.
  • Howe, R.D. and Matsuoka, Y., 1999, Robotics for surgery. Annu Rev Biomed Eng, 1, 211–240.
  • Varkarakis, I.M., Rais-Bahrami, S., Kavoussi, L.R. and Stoianovici, D., 2005, Robotic surgery and telesurgery in urology. Urology, 65, 840–846.
  • Lanfranco, A.R., Castellanos, A.E., Desai, J.P. and Meyers, W.C., 2004, Robotic surgery a current perspective. Ann Surg, 239, 14–21.
  • Stoianovici, D., Webster, R. and Kavoussi, L., 2002, Robotic tools for minimally invasive urologic surgery. In: S. Ramakumar, T.W. Jarrett and R. Ramakumar (Eds), Complications of Urologic Laparoscopic Surgery: Recognition, Management and Prevention NorwayInforma Healthcare Location of Publishpp. 1–17.
  • Dharia, S.P. and Falcone, T., 2005, Robotics in reproductive medicine. Fertil Steril, 84, 1–11.
  • Vendruscolo, P. and Martelli, S., 2001, Interfaces for computer and robot assisted surgical systems. Information and Software Technology, 43, 87–96.
  • Beerthuizen, P.G. and Kruidhof, W., 2001, System and software safety analysis for the ERA control computer. Reliability Engineering & System Safety, 71, 285–297.
  • Nawrat, Z., 2008, Medical robots in cardiac surgery. Polish Cardiosurgery and Thoracosurgery, 5, 440–447.
  • Nawrat, Z., 2008, Robin heart progress – advances material and technology in surgical robots. Bulletin of the polish academy of sciences technical sciences, 58, 323–327.
  • Villorte, N., Glauser, D., Flury, P. and Burckhardt, C.W., 1992, Conception of stereotactic instruments for the neurosurgical robot Minerva, 14th Annual International Conference of the IEEE Engineers in Medicine and Biology Society.
  • Burckhardt, C.W., Flury, P. and Glauser, D., 1995, Stereotactic brain surgery. IEEE Engineering in Medicine and Biology, 14, 314–317.
  • Eljamel, M.S., 2007, Validation of the PathFinder neurosurgical robot using a phantom. Int. J. of Med Robotics Comput Assist Surg, 372–377.
  • Fengqiang, L., Jiadong, Q. and Yi, L., 2008, Computer-assisted stereotactic neurosurgery with framework neurosurgery navigation. Clin Neurol Neurosur, 110, 696–700.
  • Chan, F., Kassim, I., Lo, Ch., Long Ho, Ch., Low, D., Ti Ang, B. and Ng, I., 2009, Image-guided robotic neurosurgery-an in vitro and in vivo point accuracy evaluation experimental study. Surgical Neurology, 71, 640–648.
  • Muacevic, A., Wowra, B. and Reiser, M., 2008, CyberKnife: review of first 1,000 cases at a dedicated therapy center. Int J Cars, 3, 447–456.
  • Nathoo, N., Pesek, T. and Barnett, GH., 2003, Robotics and neurosurgery. Surg Clin N Am, 83, 1–8.
  • Haidegger, T., Kovacs, L., Fordos, G., Benyo, Z. and Kazanzides, P., 2008, Future Trends in Robotic Neurosurgery. NBC Proceedings 20, 229–233.
  • Mettler, L., Ibrahim, M. and Jonat, W., 1998, One year of experience working with the aid of a robotic assistant (the voice-controlled optic hold aesop) in gynecological endoscopic surgery. Hum Reprod, 3, 2748–2750.
  • Marescaux, J. and Rubino, F., 2003, The ZEUS robotic system: experimental and clinical applications. Surg Clin N Am, 83, 1–9.
  • Falcone, T., Goldberg, J.M., Garcia-Ruiz, A., Margossian, H. and Stevens, L., 1999, Full Robotic Assistance for Laparoscopic Tubal Anastomosis: A Case Report. J Laparoendosc Adv Surg Tech, 9, 107–113.
  • Falcone, T., Goldberg, J.M., Margossian, H. and Stevens, L., 2000, Robotically assisted laparoscopic microsurgical anastomosis: a human pilot study. Fertil Steril, 73, 1040–1042.
  • Faust, R.A., Kant, A.J., Lorincz, A., Younes, A., Dawe, E. and Klein, M.D., 2007, Robotic endoscopic surgery in a porcine model of the infant neck. J Robotic Surg, 1, 75–83.
  • Ballantyne, G.H. and Moll, F., 2003, The da Vinci telerobotic surgical system: the virtual operative field and telepresence surgery. Surg Clin N Am, 83, 1293–1304.
  • Sung, G.T. and Gill, I.S., 2001, Robotic Laparoscopic Surgery: A Comparison of the da Vinci and Zeus Systems. Urology, 58, 893–898.
  • Degueldre, M., Vandromme, J., Huong, P.T. and Cadiere, G.B., 2000, Robotically assisted laparoscopic microsurgical tubal reanastomosis: a feasibility study. Fertil Steril, 74, 1020–1023.
  • Box, G.N. and Gong, M., 2007, Multispecialty Applications of Robotic Technology. In: Robotic Urologic Surgery. V.R. Patel (Ed.) London, UK: Springer-Verlag; 15–22.
  • Nishihara, S.H., Sugano, N., Nishii, T. Miki, H. Nakamura, N. and Yoshikawa, H., 2006, Comparison Between Hand Rasping and Robotic Milling for Stem Implantation in Cementless Total Hip Arthroplasty. J Arthroplasty, 21, 957–966.
  • Park, S.E. and Lee, C.T., 2007, Comparison of Robotic-Assisted and Conventional Manual Implantation of a Primary Total Knee Arthroplasty. J Arthroplasty, 22, 1054–1059.
  • Petermann, J., Kober, R., Heinze, R., Frölich, J.J., Heeckt, P.F. and Gotzen, M., 2000, Computer-assisted planning and robotassisted surgery in anterior cruciate ligament reconstruction. Operative Techniques Orthop, 10, 50–55.
  • Brandt, G., Zimolong, A., Carrat, L., Merloz, P., Staudte, H., Lavallee, L., Radermacher, K. and Rau, G., 1999, CRIGOS: a compact robot for image-guided orthopedic surgery. IEEE Trans Inf Technol Biomed, 3, 252–260.
  • Stoianovici, D., 2000, Robotic surgery. World J Urol, 18, 289–295.
  • Davies, B.L., Hibberd, R.D., Coptcoat, M.J. and Wickham, J.E., 1989, A surgeon robot prostatectomy-a laboratory evaluation. J Med Eng Technol, 13, 273–277.
  • Bzostek, A., Schreiner, S., Barnes, A., Caddedu, J.A., Roberts, W.W., Anderson, J.H., Taylor, R.H. and Kavoussi, L., 1997, An automated system for precise percutaneous access of the renal collecting system, Proceeding of the first Joint Conference of CVRMed-MRCAS, Grenoble, France
  • Xue, W.L., Bronlunda, J.E., Potgietera, J., Fosterb, K.D., Rohrlec, O., Pullance, A.J. and Kieser, J.A. 2008, Review of the human masticatory system and masticatory robotics. Mech Mach Theory, 43, 1353–1375.
  • Lueth, T. and Bier, J., 1999, Robot assisted intervention in surgery. In: J.M. Gilsbach and H.S. Stiehl (Eds), Neuronavigation - Neurosurgical and Computer Scientific Aspects. Berlin, Germany; Springer.
  • Mischkowski, R.A., Zinser, M.J., Ritter, L., Neugebauer, J., Keeve, E. and Zöller, J.E., 2007, Intraoperative navigation in the maxillofacial area based on 3D imaging obtained by a cone-beam device. Int. J. Oral Maxillofac. Surg, 36, 687–694.
  • Das, H., Zak, H., Johnson, J., Crouch, J. and Frambach, D., 1999, Evaluation of a telerobotic system to assist surgeons in microsurgery. Comp Aid Surg, 4, 15–25.
  • Hunter, I.W., Jones, L.A., Sagar, M.A., Lafontaine, S.R. and Hunter, P.J. 1993, A teleoperated microsurgical robot and associated virtual environment for eye surgery. Presence, 2, 265–80.
  • Hunter, I.W., Jones, L.A., Sagart, M.A., Lafontaine, S.R. and Hunter, P.J., 1995, Ophthalmic microsurgical robot and associated virtual environment. Comput Biol Med, 25, 173–182.
  • Taylor, R., Jensen, P., Whitcomb, L., Barnes, A., Kumar, R., Stoianovici, D., Gupta, P., Wang, Z., deJuan, E. and Kavoussi, L. 1999, A steady-hand robotic system for microsurgical augmentation. Int J Robotics Res, 18, 1201–1210.
  • Himpens, J., Leman, G. and Cadiere, G.B., 1998, Telesurgical laparoscopic cholecystectomy. Surg Endosc, 12, 1091.
  • Cadiere, G.B., Himpens, J., Vertruyen, M. and Favretti, F., 1999, The world's first obesity surgery performed by a surgeon at a distance. Obes Surg, 9, 206–209.
  • Cadière, G.B., Himpens, J., Germay, O., Izizaw, R., Degueldre, M., Vandromme, J., Capelluto, E. and Bruyns, J., 2001, Feasibility of robotic laparoscopic surgery: 146 cases. World J Surg, 25, 1467–1477.
  • Cadière, G.B., Himpens, J., Vertruyen, M., Bruyns, J., Germay, O., Leman, G. and Izizaw, R., 2001, Evaluation of telesurgical (robotic) Nissen fundoplication. Surg Endosc, 15, 918–923.
  • Melvin, W.S., Needleman, B.J., Krause, K.R., Schneider, C. and Ellison, E.C., 2002, Computer-enhanced vs. standard laparoscopic antireflux surgery. J Gastrointest Surg, 6, 11–16.
  • Hashizume, M. and Sugimachi, K., 2003, Robot-assisted gastric surgery. Surg Clin N Am, 83, 1–11.
  • Yu, Sh.C., Clapp, B.L., Lee, M.J., Albrecht, W.C., Scarborough, T.K. and Wilson, E.B., 2006, Robotic assistance provides excellent outcomes during the learning curve for laparoscopic Roux-en-Y gastric bypass: results from 100 robotic-assisted gastric bypasses. Am J Surg, 192, 746–749.
  • Law, S., 2006, Minimally invasive techniques for esophageal cancer surgery. Best Pract Res Clin Gastroenterol, 20, 925–940.
  • Jacobsen, G., Elli, F. and Horgan, S., 2004, Robotic surgery update. Surg Endosc, 18, 1186–1191.
  • Rockall, T.A. and Darzi, A., 2003, Robot-assisted laparoscopic colorectal surgery. Surg Clin N Am, 83, 1–4.
  • Reitz, B.A., 2004, What's new in cardiac surgery. J Am Coll Surg, 198, 784–97.
  • Woo, Y.J., Seeburger, J. and Mohr, F.W., 2007, Minimally Invasive Valve Surgery. Semin Thorac Cardiovasc Surg, 19, 289–298.
  • Rosen, M. and Ponsky, J., 2001, Minimally invasive surgery. Endoscopy, 33, 358–66.
  • Cremer, J., Mügge, A., Wittwer, T., Boening, A., Kim, P. and Kofidis, T., 1999, Early angiographic result after revascularization by minimally invasive direct coronary artery bypass. Eur J Cardiothorac Surg, 15, 383–388.
  • Modi, P., Hassan, A. and Chitwood, W.R., 2008, Minimally invasive mitral valve surgery: a systematic review and meta-analysis. Eur J Cardio-Thorac, 34, 943–952.
  • Nio, D., Diks, J., Bemelman, W.A., Wisselink, W. and Legemate, D.A., 2007, Laparoscopic Vascular Surgery: A Systematic Review. Eur J Vasc Endovasc Surg, 33, 263–271.
  • Mack, M.J., Magovern, J.A., Acuff, T.A., Landreneau, R.J., Tennison, E.J. and Osborne, J.A., 1999, Results of graft patency by immediate angiography in minimally invasive coronary artery surgery. Ann Thorac Surg, 68, 383–389.
  • Boehm, D.H., Reichenspurner, H., Gulbins, H., Detter, C., Meiser, B., Brenner, P., Habazettl, H. and Reichart, B., 1999, Early experience with robotic technology for coronary artery surgery. Ann Thorac Surg, 68, 1542–1546.
  • Carpentier, A., Loulmet, D., Aupècle, B., Kieffer, J.P., Tournay, D., Guibourt, P., Fiemeyer, A., Méléard, D., Richomme, P. and Cardon, C. 1998, Computer assisted open heart surgery. First case operated on with success. C R Acad Sci III, 321, 437–442.
  • Diodato, M.D., Damiano, RJ., 2003, Robotic cardiac surgery: overview. Surg Clin N Am, 83, 1–12.
  • Mohr, F.W., Falk, V., Diegeler, A., Walther, T., Gummert, J.F., Bucerius, J., Jacobs, S. and Autschbach, R., 2001, Computer-enhanced “robotic” cardiac surgery: experience in 148 patients. J Thorac Cardiovasc Surg, 121, 842–853.
  • Cleary, K. and Nguyen, C., 2001, State of the art in surgical robotics: clinical applications and technology challenges. Comp Aid Surg, 6, 312–328.
  • Kypson, A.P., Nifong, L.W. and Chitwood, W.R., 2003, Robotic cardiac surgery. J Long Term Eff Med Implants, 13, 451–464.
  • Jacobs, S. and Falk, V., 2008, Medical Robotics in Cardiac Surgery.In: Vanja Bozovic (Ed.) Medical Robotics. Vienna: I-Tech Education and Publishing, pp. 167–174.
  • Sutherland, G.R., Newhook, P., Feil, G., Fielding, T., Greer, A.D. and Latour, I., 2008, An image-guided MR compatible surgical robot. Neurosurgery, 62, 286–293.
  • Sutherland, G.R., Latour, I. and Greer, A.D., 2008, Integration of neuroArm with intaroperative MRI. IEEE Engineering in Medicine and Biology, 27, 59–65.
  • Elhawary, H., Ho Tse, Z.T., Hamed, A., Rea, M., Davies, B.L. and Lamperth, M.U., 2008, The case for MR-compatible robotics: a review of the state of the art. Int J Med Robotics Comput Assist Surg, 4, 105–113.
  • Shoham, M., Burman, M., Zehavi, E., Joskowicz, L., Batkilin, E. and Kunicher, Y., 2003, Bone-Mounted Miniature Robot for Surgical Procedures: Concept and Clinical Applications. IEEE Transactions on Robotics and Automation, 19, 893–901.
  • Barzilay, Y., Liebegall, M., Fridlander, A. and Knoller, N., 2006, Miniature robotic guidance for spine surgery-introduction of a novel system and analysis of challenges encountered during the clinical development phases at two spine centers. Int J Med Robotics Comput Assist Surg, 2, 146–153.
  • Lieberman, I.H., Togawa, D., Kayanja, M.M., Reinhardt, M.K., Friedlander, A., Knoller, N. and Benzel, E.C., 2006, Bone-mounted miniature robotic guidance for pedicle screw and translaminar facet screw placement: Part I-Technical development and a test case result. Neurosurgery, 59, 641–650.
  • Togawa, D., Kayanja, M.M., Reinhardt, M.K., Shoham, M., Balter, A., Friedlander, A., Knoller, N., Benzel, E.C. and Lieberman, I.H., 2007, Bone-mounted miniature robotic guidance for pedicle screw and translaminar facet screw placement: part 2-Evaluation of system accuracy. Neurosurgery, 60, 129–139.
  • Farkoush, S.H. and Najarian, S., 2009, Can surgeon's hand be replaced with a smart surgical instrument in esophagectomy? Med Hypotheses, 73, 735–740.
  • Najarian, S., Dargahi, J. and Mehrizi, A.A., 2009, Artificial tactile sensing in biomedical engineering, New York, USA: McGraw-Hill.
  • Kim, V.B., Chapman, W.H., Albrecht, R.J., Bailey, B.M., Young, J.A., Nifong, L.W. and Chitwood, W.R., 2002, Early experience with telemanipulative robot-assisted laparoscopic cholecystectomy using daVinci. Surg Laparo Endo Per, 12, 33–44.
  • Ballantyne, G.H., 2002, Robotic surgery, telerobotic surgery, telepresence and telementoring. Surg Endosc, 16, 1389–1402.
  • Hosseini, S.M., Najarian, S., Motaghinasab, S. and Dargahi, J., 2006, Detection of tumours using a computational tactile sensing approach. Int J Med Robot Comp, 2, 333–340.
  • Hosseini, S.M., Najarian, S., Motaghinasab, S., Tavakoli Golpaygani, A. and Torabi, S., 2008, Prediction of tumor existence in the virtual soft tissue by using tactile tumor detector. American Journal of Applied Sciences, 5, 483–489.
  • Najarian, S., Hosseini, S.M. and Fallahnezhad, M., 2010, Artificial Tactile Sensing and Robotic Surgery Using Higher Order Neural Networks. In: Zhang, M. , (Ed.), Artificial Higher Order Neural Networks for Computer Science and Engineering: Trends for Emerging Applications. New York, USA: IGI Global Publishers.
  • Afshari, E., Najarian, S., Simforoosh, N. and Farkoush, S.H., 2010, Evaluation of a New Method for Detection of Kidney Stone during Laparoscopy Using 3D Conceptual Modeling. International Journal of Medicine and Medical Sciences, 1, 56–61.
  • Afshari, E. and Najarian, S., 2009, Modeling and Analysis of the Effects of Nephrolithiasis in Kidney Using a Computational Tactile Sensing Approach, Proceeding of World Academy of Science, Tokyo, Japan: Engineering and Technology (ICMS), 41, 378–381.
  • Abd-Elrazek, E., 2008, Computer Based Medicine: I - The Future. World Academy of Science, Engineering and Technology, 37, 274–279.
  • Eltaib, MEH. and Hewit, J.R., 2003, Tactile sensing technology for minimal access surgery – a review. Mechatronics, 13, 1163–1177.
  • Hosseini, S.M., Amiri, M., Najarian, S. and Dargahi, J., 2007, Application of artificial neural networks for the estimation of tumour characteristics in biological tissues. Int J Med Robotics Comput Assist Surg, 3, 235–244.
  • Lee, M.H., 2000, Tactile sensing: new directions, new challenges. The International J. of Robotics Research, 19, 636–643.
  • Dargahi, J. and Najarian, S., 2004, Human tactile perception as a standard for artificial tactile sensing, A review. Int J Med Robot Comp, 1, 23–35.
  • Dargahi, J. and Najarian, S., 2005, Advances in tactile sensors design/manufacturing and its impact on robotic application, a review. Ind Robot, 32, 268–281.
  • Ottermo, M., Stavdahl, O. and Johansen, T., 2004, Palpation instrument for augmented minimally invasive surgery. International conference on intelligent robots, and systems, 4, 3960–3964.
  • DiMaio, S.P., 2003, Modelling, simulation and planning of needle motion in soft tissues.The University of British Columbia
  • Kössi, J. and Luostarinen, M., 2009, Virtual reality laparoscopic simulator as aid in surgical resident education: two years' experience. Scand J Surg, 98, 48–54.
  • Khalifa, Y.M., Bogorad, D., Gibson, V., Peifer, J. and Nussbaum, J., 2006, Virtual Reality in Ophthalmology Training. Surv Ophthalmol, 51, 259–273.
  • Blyth, Ph., Anderson, I.A. and Stott, N.S., 2006, Virtual Reality Simulators in Orthopedic Surgery: What Do the Surgeons Think? J Surg Res, 131, 133–139.
  • Guzzo, T.J. and Gonzalgo, M.L., 2009, Robotic surgical training of the urologic oncologist. Urol Oncol-Semin Ori, 27, 214–217.
  • Tsuda, S., Scott, D., Doyle, J. and Jones, D.B., 2009, Surgical skills training and simulation. Current problems in surgery, 46, 271–370.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.