medigraphic.com
ISSN 2007-8560 (Print)
Órgano Oficial de Difusión Científica de la Federación Mexicana de Colegios de Ortopedia y Traumatología, A.C. (FEMECOT)

2023, Number 4

Next >>

Ortho-tips 2023; 19 (4)

The role of artificial intelligence in orthopedic surgery

Garín-Zertuche D, Vilchez-Cavazos F

Language: Spanish
References: 17
Page: 198-199
PDF size: 120.43 Kb.





REFERENCES

  1. González QJL. Tecnología, ortopedia e hibridación. Thémata Revista de Filosofía. 2012; 46: 25-41.

  2. Poon EG, Keohane CA, Yoon CS, Ditmore M, Bane A, Levtzion-Korach O, et al. Effect of bar-code technology on the safety of medication administration. N Engl J Med. 2010; 362 (18): 1698-1707.

  3. McCarthy J. The inversion of functions defined by Turing machines. Automata studies. Princeton University Press, 1956, 177-181.

  4. Vaughan N, Dubey VN, Wainwright TW, Middleton RG. A review of virtual reality based training simulators for orthopaedic surgery. Med Eng Phys. 2016; 38 (2): 59-71.

  5. Kalis B, Collier M, Fu R. 10 promising AI applications in health care. Harvard business review. 2018.

  6. Hamet P, Tremblay J. Artificial intelligence in medicine. Metabolism. 2017; 69: S36-S40.

  7. Jahng KH, Kamara E, Hepinstall MS. Haptic robotics in total hip arthroplasty. Minimally invasive surgery in orthopedics: Springer International Publishing; 2016. p. 1391-405.

  8. Avila-Tomás JF, Mayer-Pujadas MA, Quesada-Varela VJ. [Artificial intelligence and its applications in medicine I: introductory background to AI and robotics]. Aten Primaria. 2020; 52 (10): 778-784.

  9. Lisacek-Kiosoglous AB, Powling AS, Fontalis A, Gabr A, Mazomenos E, Haddad FS. Artificial intelligence in orthopaedic surgery. Bone Joint Res. 2023; 12 (7): 447-454.

  10. Hosny A, Parmar C, Quackenbush J, Schwartz LH, Aerts HJ. Artificial intelligence in radiology. Nature Reviews Cancer. 2018; 18 (8): 500-510.

  11. Meena T, Roy S. Bone fracture detection using deep supervised learning from radiological images: a paradigm shift. Diagnostics (Basel). 2022; 12 (10): 2420.

  12. Mintz Y, Brodie R. Introduction to artificial intelligence in medicine. Minim Invasive Ther Allied Technol. 2019; 28 (2): 73-81.

  13. Hernandez D, Garimella R, Eltorai AE, Daniels AH. Computer?assisted orthopaedic surgery. Orthopaedic Surgery. 2017; 9 (2): 152-158.

  14. Lippross S, Jünemann K-P, Osmonov D, Peh S, Alkatout I, Finn J, et al. Robot assisted spinal surgery-A technical report on the use of DaVinci in orthopaedics. J Orthop. 2020; 19: 50-53.

  15. Vílchez-Cavazos JF, Simental-Mendía MA, Peña-Martínez VM, Acosta-Olivo C, Quiroga-Garza A, Elizondo-Omaña RE, et al. Simulador de artroscopia de rodilla para desarrollar habilidades artroscópicas en los residentes de ortopedia y traumatología. Orthotips. 2022; 18 (2): 127-134.

  16. Siebel T, Kafer W. Clinical outcome following robotic assisted versus conventional total hip arthroplasty: a controlled and prospective study of seventy-one patients. Z Orthop Ihre Grenzgeb. 2005; 143 (4): 391-398.

  17. Syed AB, Zoga AC. Artificial intelligence in radiology: current technology and future directions. Semin Musculoskelet Radiol. 2018; 22 (5): 540-545.




2020     |     www.medigraphic.com