HISTORY OF ROBOTIC TECHNOLOGIES DEVELOPMENT IN MEDICINE

Kolontarev Konstantin Borisovich, Candidate of medical sciences, assistant, sub-department of urology, Moscow State Medical and Dental University named after A.I. Evdokimov (building 1, 20 Delegatskaya street, Moscow, Russia), kolontarev@me.com
Pushkar' Dmitriy Yur'evich, Doctor of medical sciences, professor, head of sub-department of urology, Moscow State Medical and Dental University named after A. I. Evdokimov (building 1, 20 Delegatskaya street, Moscow, Russia), kb80@yandex.ru
Govorov Aleksandr Viktorovich, Candidate of medical sciences, associate professor, sub-department of urology, Moscow State Medical and Dental University named after A. I. Evdokimov (building 1, 20 Delegatskaya street, Moscow, Russia), alexgovorov@newmail.ru
Sheptunov Sergey Aleksandrovich, Doctor of engineering sciences, professor, director, Institute of Engineering and Design Informatics of the Russian Academy of Sciences (building 1a, 18 Vadkovsky lane, Moscow, Russia), ship@ikti.ru

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Robotic technologies steadily and rapidly penetrate our everyday life. Application of robots is widespread in various professional fields. Robot-assisting equipment for surgeries at the present time is the most innovative sector in medicine. The article describes the development history of robotic technologies in medicinein general and inurology, particularly.

robot-assisting surgery, robots in medicine, da Vinci robot

1. Capek K. Rossum’s Universal Robots. Trans. N. Playfair, P. Selver; ed. W. A. Landes. New York: Doubleday, 1923
2. Assimov I. Astounding Science Fiction. Street & Smith Publications Inc.; March, 1942.
3. Yanco H. Wheelesley: A robotic Wheelchair system: Indoor Navigation and User Interface. Berlin; New-York: Springer, 1998, pp. 256–268,
4. Rao R. S. et al. IEEE International Conference 11th–15th May, 2002.
5. Pineau J. Robot Autonom Syst. 2003, vol. 42, pp. 271–281.
6. Ellison L. M. et al. J. am Coll. Surg. 2004, vol. 199, pp. 523–530.
7. Lob W. S. Clin. Chem. 1990, vol. 36, pp. 1544–1550.
8. Prasad P. Biomed Instrum Technol. 1995, vol. 29, pp. 398–404.
9. Sasaki M. et al. Clin. Chim. Acta. 1998, vol. 278, pp. 217–227.
10. Kwoh Y. S. et al. IEEE Trans. Biomed. Eng. 1988, vol. 35, pp. 153–160.
11. Davies B. Proc. Inst. Mech. Eng. 2000, vol. 214, pp. 129–140.
12. Bann S.et al. J. Am. Coll. Surg. 2003, vol. 196, pp. 784–795.
13. Jakopec M.et al. Comput. Aided. Surg. 2001, vol. 6, pp. 329–339.
14. Glauser D. et al. J. Image Guid. Surg. 1995, vol. 1, pp. 266–272.
15. Chang S. D. et al. Neurosurgery. 2003, vol. 52, pp. 140–146.
16. Dharia S. P. et al. Fertil Steril. 2005, vol. 84, pp. 1–9.
17. Satava R. M. Surg. Clin. North. Am. 2003, vol. 83, pp. 1–6.
18. Ralph J. Damiano, et al. The Journal of Thoracic and Cardiovascular Surgery. 2000, vol. 119, issue 1, pp. 77–82.
19. Carpentier A. et al. Lancet. 1999, vol. 353, pp. 379–380.
20. Mohr F. W. et al. J. Thorac. Cardiovasc. Surg. 2001, vol. 121, pp. 842–853.
21. Autschbach R. et al. J. Card. Surg. 2000, vol. 15, pp. 61–75.
22. Himpens J. et al. Surg. Endosc. 1998, vol. 12, pp. 1091.
23. Gardiere G. B. et al. Obes. Surg. 1999, vol. 9, pp. 206–209.
24. Gardiere G. B et al. Ann. Chir. 1999, vol. 53, pp. 137–141.
25. Binder J. et al. BJU. 2001, vol. 87, pp. 408–410.
26. Marescaux J. et al. Nature. 2001, vol. 413, pp. 379–380.
27. Intuitive Surgical®, Inc.: Annual. Report. 2010. Available at: www.intuitivesurgical.com.