Szemészet, 2021 (158. évfolyam, 1-4. szám)

2021-03-01 / 1. szám

30 nyomtatás a szemészetben. Irodalmi kitekintés Irodalom 1. András B, Pluzsik MT, Pregun T, Bársony V, Pék Gy, Hargitai J, Enyedi L, Kálmán R, Hegedűs J, Tóth E, Kékedi R, Antalfi V, Dékány Sz, Kerényi Á. A szaruhártya-átültetés indikációjának és a műtéti technikának a változása a Bajcsy-Zsilinszky Kórház Szemészeti Osztályán 2005-2017 között -13 év áttekintése. Szemészet 2020; 157(1): 28-35. 2. Ayyildiz 0. Customised spectacles using 3-D printing technology. Clin Exp Optom 2018; 101(6): 747-751. 3. Canabrava S, Diniz-Filho A, Schor P, Fagundes DE, Lopes A, Batista WO, Production of an intraocular device using 30 printing: an innovative tech­nology for ophthalmology. Arq Bras Oftalmol 2015; 78(6): 393-394. 4. Choi SW, Kwon HJ, Song WK. Three-dimensional printing using open source software and JPEG images from optical coherence tomography of an epiretinal membrane patient. Acta Ophthalmol 2018; 96(3): 399-402. 5. Dave TV, Tiple S, Vempati S, Palo M, Ali MJ, Kaliki S, Naik MN. Low­­cost three-dimensional printed orbital template-assisted patient-specific implants for the correction of spherical orbital implant migration. Indian J Ophthalmol 2018; 66(11): 1600-1607. 6. Davide Sher. (Updating) Italian hospital saves Covid-19 patients lives by 3D printing valves for reanimation devices. 30 Printing Media Network 2020; Elérhető: Letöltve: 2020.08.07. https://www.3dprintingmedia.network/covid-19-3d-prin­­ted-valve-for-reanimation-device/ 7. Debellemaniére G, Flores M, Montard M, Delbosc B, Saleh M. Three-di­mensional Printing of Optical Lenses and Ophthalmic Surgery: Challenges and Perspectives. J Refract Surg 2016; 32(3): 201-204. 8. Famery N, Abdelmassih Y, El-Khoury S, Guindolet D, Cochereau I, Gabison EE. Artificial chamber and 30 printed iris: a new wet lab model for teaching Descemets membrane endothelial keratoplasty. Acta Ophthalmol 2019; 97(2): e179-e183. 9. Fan B, Chen H, Sun YJ, Wang BF, Che L, Liu SY, Li GY. Clinical effects of 3-0 printing-assisted personalized reconstructive surgery for blowout orbital fractures. Graefes Arch Clin Exp Ophthalmol 2017; 255(10): 2051-2057. 10. Gain P, Jullienne R, He Z, Aldossary M, Acquart S, Cognasse F, Thuret G. Global Survey of Corneal Transplantation and Eye Banking. JAMA Opht­halmol 2016; 134(2): 167-173. 11. Hong SC. 30 printable retinal imaging adapter for smartphones could go global. Graefes Arch Clin Exp Ophthalmol 2015; 253(10): 1831-1833. 12. Hoya Vision. Yuniku. Elérhető: Letöltve: 2020.08.07. https://www.hoyavision.com/hu/yuniku/ 13. Huang W, Zhang X. 30 printing: print the future of ophthalmology. In­vest Ophthalmol Vis Sei 2014; 55(8): 5380-5381. 14. Imre L. Keratoprotézis implantáció a klinikai gyakorlatban. Szemészet 2019; 156(3): 152-164. 15. Isaacson A, Swioklo S, Connon CJ. 30 bioprinting of a corneal stroma equivalent. Exp Eye Res 2018; 173: 188-193. 16. Jagan L, Turk W, Petropolis C, Egan R, Cofie N, Wright KW, Strube YNJ. Validation of a novel strabismus surgery 3D-printed silicone eye model for simulation training. J AAPOS 2020; 24(1): 3.e1-3.e6. 17. Kodama H. Automatic method for fabricating a threedimensional plas­tic model with photo hardening polymer. Review of Scientific Instruments 1981; (52): 1770. 18. Kormann RB, Mörschbacher R, Moreira H, Akaishi P. A three-dimensio­nal printed photopolymer resin implant for orbital rehabilitation for evisce­ration. Arq Bras Oftalmol 2019; 82(6): 471-475. 19. Lie JT, Birbal R, Ham L, van der Wees J, Melles GR. Donor tissue pre­paration for Descemet membrane endothelial keratoplasty. J Cataract Re­fract Surg 2008; 34(9): 1578-1583. 20. Lorber B, Hsiao WK, Hutchings IM, Martin KR. Adult rat retinal gang­lion cells and glia can be printed by piezoelectric inkjet printing. Biofabrica­tion 2014; 6(1): 015001. 21. Lorber B, Hsiao WK, Martin KR. Three-dimensional printing of the reti­na. Curr Opin Ophthalmol 2016; 27(3): 262-267. 22. Ludwig PE, Huff TJ, Zuniga JM. The potential role of bioengineering and three-dimensional printing in curing global corneal blindness. J Tissue Eng 2018; 9: 2041731418769863. 23. Lukáts 0. Evisceratio, enucleatio elvégzésének indikációja, kontrain­dikációja, műtéti megoldások és rehabilitációs lehetőségek. Szemészet 2016; 153(2): 43-54. 24. Mankovich NJ, Cheeseman AM, Stoker NG. The display of three-di­mensional anatomy with stereolithographic models. J Digit Imaging 1990; 3(3): 200-203. 25. Myung D, A Jais, He L, Blumenkranz MS, Chang RT. 3D Printed Smartp­hone Indirect Lens Adapter for Rapid, High Quality Retinal Imaging. Journal MTM 2014; 3(1): 9-15. 26. Navajas EV, Ten Hove M. Three-Dimensional Printing of a Transconjunc­tival Vitrectomy Trocar-Cannula System. Ophthalmologies 2017; 237(2): 119-122. 27. Okumura N, Kagami T, Watanabe K, Kadoya S, Sato M, Koizumi N. Fea­sibility of a cryopreservation of cultured human corneal endothelial cells. PLoS One 2019; 14(6): e0218431. 28. Preece D, Williams SB, Lam R, Weller R. "Let's get physical”: advanta­ges of a physical model over 3D computer models and textbooks in learning imaging anatomy Anat Sci Educ 2013; 6(4): 216-224. 29. Ruiters S, Sun Y, de Jong S, Politis C, Mombaerts I. Computer-aided design and three-dimensional printing in the manufacturing of an ocular prosthesis. Br J Ophthalmol 2016; 100(7): 879-881. 30. Ruzza A, Parekh M, Ferrari S, Salvalaio G, Nahum Y, Bovone C, Pon­­zin D, Busin M. Preloaded donor corneal lenticules in a new validated 3D printed smart storage glide for Descemet stripping automated endothelial keratoplasty. Br J Ophthalmol 2015; 99(10): 1388-1395. 31. Scawn RL, Foster A, Lee BW, Kikkawa DO, Korn BS. Customised 3D Printing: An Innovative Training Tool for the Next Generation of Orbital Surgeons. Orbit 2015; 34(4): 216-219. 32. Schubert C, van Langeveld MC, Donoso LA. Innovations in 3D prin­ting: a 3D overview from optics to organs. Br J Ophthalmol 2014; 98(2): 159-161. 33. Sommer AC, Blumenthal EZ. Implementations of 3D printing in opht­halmology. Graefes Arch Clin Exp Ophthalmol 2019; 257(9): 1815-1822. 34. Zhang B, Xue Q, Li J, Ma L, Yao Y, Ye H, Cui Z, Yang H. 3D bioprinting for artificial cornea: Challenges and perspectives. Med Eng Phys 2019; 71: 68-78. 35. Zhao F, Wang J, Wang L, Chen L. An approach for simulating the fitting of rigid gas-permeable contact lenses using 3D printing technology. Cont Lens Anterior Eye 2019; 42(2): 165-169. 36. Zhao F, Zhao G, Weijie F, Chen L. Application of 3D printing technology in RGPCL simulation fitting. Med Hypotheses 2018; 113: 74-76. 37. Zopf DA, Hollister SJ, Nelson ME, Ohye RG, Green GE. Bioresorbable airway splint created with a three-dimensional printer. N Engl J Med 2013; 368(21): 2043-2045. Levelezési Or Cserháti Zoltán, Péterfy Kórház-RI és Manninger Jenő Országos Traumatológiai Intézet, Szemészeti Osztály, 1076 Budapest, Péterfy Sándor utca 8-2D. E-mail: cserhatizoltan@gmail.com 28'■

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