Revista de Odontologia da UNESP
https://revodontolunesp.com.br/article/588017d97f8c9d0a098b493c
Revista de Odontologia da UNESP
Artigo Original

CAD-CAM: a informática a serviço da prótese fixa

CAD-CAM: informatics applied to fixed prosthodontics

Correia, A.R.M.; Fernandes, J.C.A.S.; Cardoso, J.A.P.; Silva, C.F.C.L.

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Resumo

O desenho de uma estrutura protética num computador seguido da sua confecção por uma máquina de fresagem é designado comumente por CAD-CAM. Essa tecnologia tem trazido uma evolução muito grande na Odontologia nos últimos 20 anos com o objetivo principal de otimizar a produção de estruturas protéticas. A evolução dos sistemas CAD-CAM tem sido acompanhada também pela evolução dos materiais, sobretudo da zircônia, a cerâmica mais resistente disponível nessa área. Entre os sistemas CAD-CAM para a Odontologia, este trabalho realça o Cerec®, o Procera®, o Lava® e especialmente o Everest®, sistema da Kavo® existente na Faculdade de Medicina Dentária da Universidade do Porto, Portugal.

Palavras-chave

Prótese parcial fixa, planejamento de prótese dentária, tecnologia odontológica, materiais dentários, zircônio

Abstract

The virtual design of a structure, followed by its machining in a milling unit is normally called as CAD-CAM. This technology has evolved greatly in Dentistry in the last 20 years, with the main purpose of optimizing the production of prosthetic structures. Together with the evolution of this systems we can observe the changes in dental materials, specially zirconia, the most resistant ceramic available in Dentistry. Within this CAD-CAM systems this manuscript will focus the Cerec®, the Procera®, the Lava®, and specially the Everest®, from Kavo® corporation, which exists in the Dental Faculty of Porto University, Portugal.

Keywords

Fixed partial denture, prosthesis design, dental technology, dental materials, zirconium

Referências



1. Duret F, Blouin JL, Duret B. CAD-CAM in dentistry. J Am Dent Assoc. 1988; 117:715-20.

2. Liu PR. A panorama of dental CAD/CAM restorative systems. Compendium. 2005;26:507-16.

3. Witkowski S. (CAD-)/CAM in dental technology. Quintessence Dent Technol. 2005;28:169-84.

4. Mormann WH. The origin of the Cerec method: a personal review of the first 5 years. Int J Comput Dent. 2004;7(1):11-24.

5. Sirona The Dental Company. CAD/CAM Systems [citado em 2005 Nov 20]. Disponível em: http://www. sirona.com

6. Tinschert J, Natt G, Hassenpflug S, Spiekermann H. Status of current CAD/CAM technology in dental medicine. Int J Comput Dent. 2004;7(1):25-45.

7. McLaren EA, Giordano II RA. Zirconia-based ceramics: material properties, esthetics, and layering techniquess of a new veneering porcelain, VM9. Quintessence Dent Technol. 2005;28:99-111.

8. Raigrodski AJ. Contemporary materials and technologies for all-ceramic fixed partial dentures: a review of the literature. J Prosthet Dent. 2004;92:557-62.

9. Raigrodski AJ. Contemporary all-ceramic fixed partial dentures: a review. Dent Clin North Am. 2004;48:531- 44.

10. Christel P, Meunier A, Heller M, Torre JP, Peille CN. Mechanical properties and short-term in-vivo evaluation of yttrium-oxide-partially-stabilized zirconia. J Biomed Mater Res. 1989;23:45-61.

11. Hauptmann H, Suttor D, Frank S, Hoescheler H. Material Properties of All Ceramic Zirconia Prosthesis [abstract 2910]. J Dent Res. 2000; 79:507.

12. Rountree P, Nothdurft F, Pospiech P. In-vitro investigations on the fracture strength of all-ceramic posterior bridges of ZrO2-ceramic [abstract]. J Dent Res. 2001; 80:57.

13. Suttor D, Hauptmann H, Frank S, Hoescheler S. Fracture resistance of posterior all ceramic zirconia bridges [abstract]. J Dent Res. 2001;80:640.

14. Tinschert J, Natt G, Mautsch W, Augthun M, Spiekermann H. Fracture resistance of lithium disilicate-, alumina-, and zirconia-based three-unit fixed partial dentures: a laboratory study. Int J Prosthodont. 2001;14:231-8.

15. Filser F, Kocher P, Weibel F, Luthy H, Scharer P, Gauckler LJ. Reliability and strength of all-ceramic dental restorations fabricated by direct ceramic machining (DCM). Int J Comput Dent. 2001;4(2):89-106.

16. Luthardt RG, Holzhuter MS, Rudolph H, Herold V, Walter MH. CAD/CAM-machining effects on Y-TZP zirconia. Dent Mater. 2004;20:655-62.

17. Sirona Dental Systems GmbH. CEREC 3 - CEREC Scan - Instrucciones de uso de la Unidad de tallado. 1-54. 2004.

18. Nobel Biocare. Nobel esthetics [citado em 2005 Nov 20]. Disponível em: http://www.nobelbiocare.com.

19. Brunton PA, Smith P, McCord JF, Wilson NH. Procera all-ceramic crowns: a new approach to an old problem? Br Dent J. 1999;186:430-4.

20. May KB, Russell MM, Razzoog ME, Lang BR. Precision of fit: the Procera AllCeram crown. J Prosthet Dent. 1998;80:394-404.

21. 3MESPE. LAVA technical product profile [citado em 2005 Nov 20]. Disponível em: http://www.3m.com.

22. 3MESPE. Hardware brochure [citado em 2005 Nov 20]. Disponível em: http://www.3m.com

23. Kavo-Everest. Everest CAD/CAM System [citado em 2005 Nov 20]. Disponível em: http://www.kavo-everest. com.

24. Andersson M, Carlsson L, Persson M, Bergman B. Accuracy of machine milling and spark erosion with a CAD/CAM system. J Prosthet Dent. 1996;76:187-93.

25. Ellingsen LA, Fasbinder DJ. In vitro evaluation of CAD/ CAM ceramic crowns. J Dent Res. 2002;81:331.

26. Bindl A, Mörmann WH. Marginal and internal fit of all-ceramic CAD/CAM crown-copings on chamfer preparations. J Oral Rehabil. 2005;32:441-7.

27. Kokubo Y, Ohkubo C, Tsumita M, Miyashita A, Vult VS, Fukushima S. Clinical marginal and internal gaps of Procera AllCeram crowns. J Oral Rehabil. 2005;32:526- 30.

28. Reich S, Wichmann M, Nkenke E, Proeschel P. Clinical fit of all-ceramic three-unit fixed partial dentures, generated with three different CAD/CAM systems. Eur J Oral Sci. 2005;113:174-9

29. Young JM, Altschuler BR. Laser holography in dentistry. J Prosthet Dent. 1977; 38:218-25.
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