International Journal of Robotics and Automation

Open Access  Subscription or Fee Access

A large number of developments occur in the field of robotic technology, especially the use of robots in surgery shows great help and care, and open new ways of surgery. In laparoscopic surgery, we get great help by using robots. The vascular and endovascular fields also have application of robotics. Many robots are now prepared for better work in every field. Nowadays, the work on nanorobots is also getting attention of the researchers for more precise and less error results in surgeries. Surgeries through robots make complex surgeries easy to perform with more accuracy and error-free.

nanorobots; robots; surgery; vascular and endovascular fields

Camarillo DB, Krummel TM, Salisbury Jr. JK. Robotic technology in surgery: past, present, and future. Am J Surg. 2004; 188(4): 2–15p.

Zamorano L, Li Q, Jain S, Kaur G. Robotics in neurosurgery: state of the art and future technological challenges. Int J Med Robot Comput Assist Surg. 2004; 1(1): 7–22p.

Duran C, Kashef E, El-Sayed HF, Bismuth J. Robotic aortic surgery. Method DeBakey Cardiovasc J. 2011; 7(3).

Lanfranco AR, Castellanos AE, Desai JP, Meyers WC. Robotic surgery: a current perspective. Ann Surg. 2004; 239(1): 14p.

Ruurda J, Van Vroonhoven TJ, Broeders I. Robot-assisted surgical systems: a new era in laparoscopic surgery. Ann R Coll Surg Engl. 2002; 84(4): 223p.

Choi SB, Park JS, Kim JK, Hyung WJ, Kim KS, Yoon DS, Lee WJ, Kim BR. Early experiences of robotic-assisted laparoscopic liver resection. Yonsei Med J. 2008; 49(4): 632–638p.

Woo Y, Hyung WJ, Pak K-H, Inaba K, Obama K, Choi SH, Noh SH. Robotic gastrectomy as an oncologically sound alternative to laparoscopic resections for the treatment of early-stage gastric cancers. Arch Surg. 2011; 146(9): 1086–1092p.

Kenngott HG, Müller‐Stich BP, Reiter MA, Rassweiler J, Gutt CN. Robotic suturing: technique and benefit in advanced laparoscopic surgery. Minim Invasive Ther Allied Technol. 2008; 17(3): 160–167p.

Linsen MA, Daniels L, Cuesta MA, Wisselink W. Endoscopic type 2 endoleak repair following endovascular aortic aneurysm repair: acute results and follow-up experience. Vascular. 2011; 19(3): 121–125p.

Wisselink W, Jongkind V. Robotic Aortic Surgery: What Is Its Future in the Endovascular Era? Chicago, IL: Clinical Robotic Surgery Association; 2001.

Sen I. Vascular surgery and robotics. Indian J Vasc Endovasc Surg. 2016; 3(2): 58p.

Bismuth J. Laparoscopic and robotic aortic surgery. In: Hoballah J, Lumsden A, editors. Vascular Surgery. London: Springer; 2012, pp. 145–152.

Crouzet S, Gill IS. Robotic surgery: considerations for the future. In: Pediatric Robotic Urology. Springer; 2009, pp. 69–87.

Da Vinci Surgical System, Intuitive Surgical. Available from: http://www. intusurg. com/html/davinci. html.

Kwoh YS, Hou J, Jonckheere EA, Hayati S. A robot with improved absolute positioning accuracy for CT guided stereotactic brain surgery. IEEE Trans Biomed Eng. 1988; 35(2): 153–160p.

Krog AH. Benefits of Laparoscopic Versus Open Aortobifemoral Bypass Surgery – Focus on The Surgical Inflammatory Reaction, Humoral Stress Response and Health Economics, PhD Thesis. Oslo University Hospital; 2018.

Hyun MH, Lee CH, Kim HJ, Tong Y, Park SS. Systematic review and meta‐analysis of robotic surgery compared with conventional laparoscopic and open resections for gastric carcinoma. Brit J Surg. 2013; 100(12): 1566–1578p

Meadows M. Computer-assisted surgery: an update. FDA Consum. 2005; 39(4): 16p

Da Vinci Surgical System, Intuitive Surgical. Available from: http://www. intusurg. com/html/davinci. html.

Mcconnell PI, Schneeberger EW, Michler RE. History and development of robotic cardiac surgery. Probl Gen Surg. 2003; 20(2): 20–30p.

Rawtiya M, Verma K, Sethi P, Loomba K. Application of robotics in dentistry. Indian J Dent Adv. 2014; 6(4): 1696–1702p

Williams M, Villeneuve J, Robinson-Bennett B. Robotic surgery in the management of endometrial cancer. In: Gynecologic Cancers – Basic Sciences, Clinical and Therapeutic Perspectives. InTech; 2016.

Toulouse MC. Chirurgie aortique mini-invasive: intérêt de la vidéo assistance? 2011.

Czudek S. Robotic surgery – a taste of Hollywood? Videosurg Other Miniinvas Techn. 2013; 8(2): 95p.

Fabrlzio MD, Lee BR, Chan DY, Stoianovici D, Jarrett TW, Yang C, Kavoussi LR. Effect of time delay on surgical performance during telesurgical manipulation. J Endourol. 2000; 14(2): 133–138p.

Blumenkranz SJ, Larkin DQ. Force and torque sensing for surgical instruments. Google Patents. 2015.

Wilk PJ. Automated surgical system and apparatus. Google Patents. 1993.

Supair MKEA. Assessment of Transplanted Kidney Using Ultrasound in Sudan. Alzaeim Alazhari University; 2015.

Link RE, Schulam PG, Kavoussi LR. Telesurgery: remote monitoring and assistance during laparoscopy. Urol Clin. 2001; 28(1): 177–188p.

Skoog H. Robot System. Google Patents; 2006.

Link RE, Schulam PG, Kavoussi LR. Telesurgery: remote monitoring and assistance during laparoscopy. Urol Clin. 2001; 28(1): 177–188p.

Skoog H. Robot System. Google Patents; 2006.

Carmack AJ, Siddiq FM, Leveillee RJ. Novel use of da Vinci Robotic Surgical System: removal of seminal vesicle cyst in previously dissected pelvis. Urology. 2006; 67(1): 199p. e193-199. e195.

Meehan JJ. Pediatric robotic surgery. In: Robotics in General Surgery. New York: Springer; 2014, pp. 339–361.

Hagn U, Nickl M, Jörg S, Tobergte A, Kübler B, Passig G, Gröger M, Fröhlich F, Seibold U, Le-Tien L, Albu-Schäffer A, Nothhelfer A, Hacker F, Grebenstein M, Hirzinger G . DLR MIroSurge—towards versatility in surgical robotics. Proc CURAC. 2008; 7: 143–146p.

DiGioia A, Jaramaz B, Picard F, Nolte L.-P. Computer and Robotic Assisted Hip and Knee Surgery. New York: Oxford University Press; 2004.

Blumenkranz SJ. Ceiling and floor mounted surgical robot set-up arms. Google Patents. 2004.

Shweikeh F, Amadio JP, Arnell M, Barnard ZR, Kim TT, Johnson JP, Drazin D. Robotics and the spine: a review of current and ongoing applications. Neurosurg Focus. 2014; 36(3): E10.

ElFiky M. Establishing a multimodular Information Technology (IT) solution pediatric surgery units with modest resources. Paper presented at the IPEG’s 25th Annual Congress for Endosurgery in Children. Fukuoka, Japan. 2016, 25 May.

Singh K. Robotics in Surgery, Seminar Report. Kochi: Division of Computer Engineering, SOE, CUSAT; 2011.

Cavar S, Bogovic M, Luetic T, Antabak A, Davis ID, Scott AM, et al. 19th National Congress of the Italian Polyspecialist Society of Young Surgeons (IPSYS). Eur Surg Res. 2006; 38(3): 129–312p.

Kypson AP, Chitwood Jr. WR. Robotic applications in cardiac surgery. Int J Adv Robot Syst. 2004; 1(2): 9p.

D’Annibale A, Morpurgo E, Fiscon V, Trevisan P, Sovernigo G, Orsini C, Guidolin D. Robotic and laparoscopic surgery for treatment of colorectal diseases. Dis Colon Rectum.2004; 47(12): 2162–2168p.

Spinoglio G, Summa M, Priora F, Quarati R, Testa S. Robotic colorectal surgery: first 50 cases experience. Dis Colon Rectum. 2008; 51(11): 1627–1632p.

Delaney CP, Lynch AC, Senagore AJ, Fazio VW. Comparison of robotically performed and traditional laparoscopic colorectal surgery. Dis Colon Rectum. 2003; 46(12): 1633–1639p.

Gulino G, Antonucci M, Palermo G, D'Agostino D, D'Addessi A, Racioppi M, et al. Robot technology in the Italian Health-CARE system: cost-efficacy economic analysis. Urologia J. 2012; 79(2): 69–80p.

Mango CW, Tsirbas A, Hubschman J-P. Robotic eye surgery. In: Cutting Edge of Ophthalmic Surgery. Springer; 2017, pp. 145–152.

Melvin WS, Needleman BJ, Krause KR, Schneider C, Ellison EC. Computer-enhanced vs. standard laparoscopic antireflux surgery. J Gastrointest Surg. 2002; 6(1): 11–16p.

Melvin WS, Dundon JM, Talamini M, Horgan S. Computer-enhanced robotic telesurgery minimizes esophageal perforation during Heller myotomy. Surgery. 2005; 138(4): 553–559p.

Shaligram A, Unnirevi J, Simorov A, Kothari VM, Oleynikov D. How does the robot affect outcomes? A retrospective review of open, laparoscopic, and robotic Heller myotomy for achalasia. Surg Endosc. 2012; 26(4): 1047–1050p.

Prabu AJ, Chackravarthi SA. Robotically assisted brain tumor surgical system. Int J Adv Comput Commun Syst. 2014; 1(3): 1–5p.

Lovegrove R, Javid M, Magee T, Galland R. A meta‐analysis of 21 178 patients undergoing open or endovascular repair of abdominal aortic aneurysm. Br J Surgery. 2008; 95(6): 677–684p.

Martins G, Hallgren M, Pettinaro GC, Bergmark J. Robot system. Google Patents; 2006.

Valero R, Ko Y, Chauhan S, Schatloff O, Sivaraman A, Coelho RF, Ortega F, Palmer KJ, Sanchez-Salas R, Davila H, Cathelineau X, Patel VR. Robotic surgery: history and teaching impact. Actas Urol Esp. 2011; 35(9):540-45p.

Kwoh YS, Hou J, Jonckheere EA, Hayati S. A robot with improved absolute positioning accuracy for CT guided stereotactic brain surgery. IEEE Trans Biomed Eng. 1988; 35(2): 153–160p.

Talamini MA, Chapman S, Horgan S, Melvin WS. A prospective analysis of 211 robotic-assisted surgical procedures. Surg Endosc. 2003; 17(10): 1521–1524p.

Weng J, McClelland J, Pentland A, Sporns O, Stockman I, Sur M, et al. Autonomous mental development by robots and animals.

Bismuth J, O’Malley MK. Surgical robotics: innovations, development, and shortcomings. In: Davies MG, Lumsden AB, Kline WE, Kakadiaris I, editors. Pumps and Pipes. Boston, MA: Springer; 2011, pp. 33–42.

Kanagaratnam P, Koa-Wing M, Wallace DT, Goldenberg AS, Peters NS, Davies DW. Experience of robotic catheter ablation in humans using a novel remotely steerable catheter sheath. J Interv Card Electrophysiol. 2008; 21(1): 19–26p.

Riga C, Bicknell C, Cheshire N, Hamady M. Initial clinical application of a robotically steerable catheter system in endovascular aneurysm repair. J Endovasc Ther. 2009; 16(2): 149–153p.

Kim HL, Schulam P. The PAKY, HERMES, AESOP, ZEUS, and da Vinci robotic systems. Urol Clin. 2004; 31(4): 659–669p.

Chun KJ, Schmidt B, Köktürk B, Tilz R, Fürnkranz A, Konstantinidou M, Wissner E, Metzner A, Ouyang F, Kuck KH. Catheter ablation – new developments in robotics. Herz. 2008; 33(8): 586–589p.

Aron M, Haber G-P, Desai MM, Gill IS. Flexible robotics: a new paradigm. Curr Opin Urol. 2007l 17(3): 151–155p.

Hemminger EJ, Girsky MJ, Budoff MJ. Applications of computed tomography in clinical cardiac electrophysiology. J Cardiovasc Comput Tomogr. 2007; 1(3): 131–142p.

Platis C, Zoulias E. Impacts of robotic assisted surgery on hospital's strategic plan. Proc Soc Behav Sci. 2014; 147: 321–326p.

Barbash GI, Glied SA. New technology and health care costs—the case of robot-assisted surgery. New Engl J Med. 2010; 363(8): 701–704p.

Zakaria AD, Toh JWT, Kim S-H. Future perspectives in robotic colorectal surgery. In: Surgical Treatment of Colorectal Cancer. Springer; 2018, pp. 315–325.

Camberlin C, Senn A, Leys M, De Laet C. Robot-Assisted Surgery: Health Technology Assessment, KCE Reports 104. Brussels: BHCKC (KCE); 2009.

Cohen AB, Hanft RS, Encinosa WE, Spernak SM. Technology in American Health Care: Policy Directions for Effective Evaluation and Management. Ann Harbor: University of Michigan Press; 2004.

Colmenares P. Proposal for a state health technology assessment program. WMJ. 2012; 111(4): 176–182p.

Kalan S, Chauhan S, Coelho RF, Orvieto MA, Camacho IR, Palmer KJ, Patel VR. History of robotic surgery. J Robot Surg. 2010; 4(3): 141–147p.

Murphy DG, Hall R, Tong R, Goel R, Costello AJ. Robotic technology in surgery: current status in 2008. ANZ J Surg. 2008; 78(12): 1076–1081p.

Melfi FM, Menconi GF, Mariani AM, Angeletti CA. Early experience with robotic technology for thoracoscopic surgery. Eur J Cardiothorac Surg. 2002; 21(5): 864–868p.

Marescaux J, Leroy J, Rubino F, Smith M, Vix M, Simone M, et al. Transcontinental robot-assisted remote telesurgery: feasibility and potential applications. Ann Surg. 2002; 235(4): 487p.