Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement

Conteúdo do artigo principal

Luisa de Vasconcelos Alves Coelho
Aline Borges de Carvalho
Tatiana Ferreira Foscaldo
Carlos Eduardo Sabrosa
Laiza Tatiana Poskus

Resumo

O objetivo deste estudo foi avaliar a influência de tratamentos de superfície na resistência de união (RU) entre compósitos e um cimento resinoso. Setenta e cinco discos (10x2 mm) das resinas Filtek P90, Filtek Z250 e Filtek Z350 (3M ESPE) foram divididos em 5 grupos de acordo com o tratamento: N= sem tratamento; S= jateamento com óxido de alumínio (50μm); SE= jateamento de óxido de alumínio + 99,3% de etanol por 5 min; C= jateamento de sílica com Cojet - 30 microns (3M ESPE); CS= jateamento de sílica + silano. Tubos de PVC (0,5 x 0,80 mm) foram fixados nos discos e o cimento resinoso (RelyX ARC, 3M ESPE) foi inserido. Após 24 horas de armazenamento em saliva artificial a 37oC, os espécimes foram submetidos ao teste de microcisalhamento com velocidade de 1,0 mm/min. Os dados foram avaliados em ANOVA de dois fatores e no teste de Tukey (5%) para contraste. Os resultados mostraram que o tratamento com oxido de alumínio (J) foi eficiente no aumento da RU nos compósitos Filtek Z350 e P90. Não houve diferença entre tratamentos para a Z250. Grupo CS mostrou resultados semelhantes aos do controle para todos os compósitos. Já o SE mostrou os piores resultados de RU. Concluiu-se que os valores de RU foram dependentes do tipo de compósito e do tratamento de superfície utilizado. O jateamento com óxido de alumínio parece ser um tratamento de superfície eficaz e pode elevar os valores de RU, já o uso de etanol pode ser prejudicial.

Detalhes do artigo

Como Citar
Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement: Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement. (2020). Revista Naval De Odontologia, 47(2), 18-25. https://doi.org/10.29327/25149.47.2-2
Seção
Artigos Originais
Biografia do Autor

Luisa de Vasconcelos Alves Coelho, Central Dental Clinic of the Navy - Brazilian Navy

Prosthesis Department, Naval Dental Center, (Odontoclínica Central da Marinha), Brazilian Navy, Rio de Janeiro, Brazil.

Aline Borges de Carvalho, Private dental office, Rio de Janeiro, Brazil

Private dental office, Rio de Janeiro, Brazil

Tatiana Ferreira Foscaldo, State University of Rio de Janeiro

Prosthesis Department, School of Dentistry, Universidade Estadual do Rio de Janeiro, Rio de Janeiro, Brazil

Carlos Eduardo Sabrosa, State University of Rio de Janeiro

Department of Restorative Dentistry, School of Dentistry, Universidade Estadual do Rio de Janeiro, Rio de Janeiro, Brazil.

Laiza Tatiana Poskus, Federal Fluminense University

LABiom-R, School of Dentistry, Universidade Federal Fluminense, Niterói, Rio de Janeiro, Brazil

Como Citar

Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement: Influence of Different Surface Treatments on the Bond Strength Between Composites and Resin Cement. (2020). Revista Naval De Odontologia, 47(2), 18-25. https://doi.org/10.29327/25149.47.2-2

Referências

1. Papacchini F, Dall’Oca S, Chieffi N, Goracci C, Sadek FT, Suh BI, et al. Composite-to-composite microtensile bond strength in the repair of a microfilled hybrid resin: effect of surface treatment and oxygen inhibition. The journal of adhesive dentistry. 2007;9(1):25-31.
2. Shawkat ES, Shortall AC, Addison O, Palin WM. Oxygen inhibition and incremental layer bond strengths of resin composites. Dental materials : official publication of the Academy of Dental Materials. 2009;25(11):1338-46.
3. Cekic-Nagas I, Sukuroglu E, Canay S. Does the surface treatment affect the bond strength of various fibre-post systems to resin-core materials? Journal of dentistry. 2011;39(2):171-9.
4. Perriard J, Lorente MC, Scherrer S, Belser UC, Wiskott HW. The effect of water storage, elapsed time and contaminants on the bond strength and interfacial polymerization of a nanohybrid composite. The journal of adhesive dentistry. 2009;11(6):469-78.
5. Rathke A, Tymina Y, Haller B. Effect of different surface treatments on the composite-composite repair bond strength. Clinical oral investigations. 2009;13(3):317-23.
6. Rinastiti M, Ozcan M, Siswomihardjo W, Busscher HJ. Immediate
repair bond strengths of microhybrid, nanohybrid and nanofilled composites after different surface treatments. Journal of dentistry. 2010;38(1):29-38.
7. Rodrigues SA, Jr., Ferracane JL, Della Bona A. Influence of surface treatments on the bond strength of repaired resin composite restorative materials. Dent Mater. 2009;25(4):442-51.
8. Brosh T, Pilo R, Bichacho N, Blutstein R. Effect of combinations of surface treatments and bonding agents on the bond strength of repaired composites. J Prosthet Dent. 1997;77(2):122-6.
9. Caneppele TM, Zogheib LV, Gomes I, Kuwana AS, Pagani C. Bond strength of a composite resin to an adhesive luting cement. Braz Dent J. 2010;21(4):322-6.
10. Loomans BA, Cardoso MV, Roeters FJ, Opdam NJ, De Munck J, Huysmans MC, et al. Is there one optimal repair technique for all composites? Dent Mater. 2011;27(7):701-9.
11. Palasuk J, Platt JA, Cho SD, Levon JA, Brown DT, Hovijitra ST. Effect of surface treatments on microtensile bond strength of repaired aged silorane resin composite. Oper Dent. 2013;38(1):91-9.
12. Wiegand A, Stawarczyk B, Buchalla W, Taubock TT, Ozcan M, Attin T. Repair of silorane composite--using the same substrate or a methacrylate-based composite? Dent Mater. 2012;28(3):e19-25.
13. Luhrs AK, Gormann B, Jacker-Guhr S, Geurtsen W. Repairability of dental siloranes in vitro. Dent Mater. 2011;27(2):144-9.
14. Shahdad SA, Kennedy JG. Bond strength of repaired anterior composite resins: an in vitro study. Journal of dentistry. 1998;26(8):685-94.
15. Bonstein T, Garlapo D, Donarummo J, Jr., Bush PJ. Evaluation of varied repair protocols applied to aged composite resin. The journal of adhesive dentistry. 2005;7(1):41-9.
16. Peumans M, Valjakova EB, De Munck J, Mishevska CB, Van Meerbeek B. Bonding Effectiveness of Luting Composites to Different CAD/CAM Materials. J Adhes Dent. 2016;18(4):289-302.
17. Asmussen E, Peutzfeldt A. Polymer structure of a light-cured resin composite in relation to distance from the surface. European journal of oral sciences. 2003;111(3):277-9.
18. Ferracane JL. Hygroscopic and hydrolytic effects in dental polymer networks. Dental materials : official publication of the Academy of Dental Materials. 2006;22(3):211-22.
19. Padipatvuthikul P, Mair LH. Bonding of composite to water aged composite with surface treatments. Dental materials : official publication of the Academy of Dental Materials. 2007;23(4):519-25.
20. Ozcan M, Alander P, Vallittu PK, Huysmans MC, Kalk W. Effect of three surface conditioning methods to improve bond strength of particulate filler resin composites. J Mater Sci Mater Med. 2005;16(1):21-7.
21. Giachetti L, Scaminaci Russo D, Baldini M, Goracci C, Ferrari M. Reparability of aged silorane with methacrylate-based resin composite: micro-shear bond strength and scanning electron microscopy evaluation. Operative dentistry. 2012;37(1):28-36.
22. Dieckmann P, Baur A, Dalvai V, Wiedemeier DB, Attin T, Tauböck TT. Effect of Composite Age on the Repair Bond Strength after Different Mechanical Surface Pretreatments. J Adhes Dent. 2020;22(4):365-372.
23. Tezvergil-Mutluay A, Lassila LV, Vallittu PK. Incremental layers bonding of silorane composite: the initial bonding properties. Journal of dentistry. 2008;36(7):560-3.
24. Silva CLD, Scherer MM, Mendes LT, Casagrande L, Leitune VCB, Lenzi TL. Does use of silane-containing universal adhesive eliminate the need for silane application in direct composite repair? Braz Oral Res. 2020;34(8):45.
25. da Costa TR, Serrano AM, Atman AP, Loguercio AD, Reis A. Durability of composite repair using different surface treatments. J Dent. 2012;40(6):513-21.
26. Melo MA, Moyses MR, Santos SG, Alcantara CE, Ribeiro JC. Effects of different surface treatments and accelerated artificial aging on the bond strength of composite resin repairs. Brazilian oral research. 2011;25(6):485-91.
27. Caneppele TM, de Souza AC, Batista GR, Borges AB, Torres CR. Influence of Nd:YAG or Er:YAG laser surface treatment on microtensile bond strength of indirect resin composites to resin cement. Lasers surface treatment of indirect resin composites. The European journal of prosthodontics and restorative dentistry. 2012;20(3):135-40.
28. Braga RR, Meira JB, Boaro LC, Xavier TA. Adhesion to tooth structure: a critical review of “macro” test methods. Dent Mater. 2010;26(2):e38-49.
29. Shimada Y, Kikushima D, Tagami J. Micro-shear bond strength of resin-bonding systems to cervical enamel. American journal of dentistry. 2002;15(6):373-7.
30. Sau CW, Oh GS, Koh H, Chee CS, Lim CC. Shear bond strength of repaired composite resins using a hybrid composite resin. Operative dentistry. 1999;24(3):156-61.
31. Baur V, Ilie N. Repair of dental resin-based composites. Clinical
Clinical oral investigations. 2013;17(2):601-8.
32. Maneenut C, Sakoolnamarka R, Tyas MJ. The repair potential of resin composite materials. Dental materials : official publication of the Academy of Dental Materials. 2011;27(2):e20-7.
33. Hamano N, Chiang YC, Nyamaa I, Yamaguchi H, Ino S, Hickel R, et al. Repair of silorane-based dental composites: influence of surface treatments. Dent Mater. 2012;28(8):894-902.
34. Yesilyurt C, Kusgoz A, Bayram M, Ulker M. Initial repair bond strength of a nano-filled hybrid resin: effect of surface treatments and bonding agents. Journal of esthetic and restorative dentistry: official publication of the American Academy of Esthetic Dentistry [et al]. 2009;21(4):251-60.
35. Cesar PF, Meyer Faara PM, Miwa Caldart R, Gastaldoni Jaeger R, da Cunha Ribeiro F. Tensile bond strength of composite repairs on Artglass using different surface treatments. American journal of dentistry. 2001;14(6):373-7.
36. Fawzy AS, El-Askary FS, Amer MA. Effect of surface treatments on the tensile bond strength of repaired water-aged anterior restorative micro-fine hybrid resin composite. Journal of dentistry. 2008;36(12):969-76.
37. Loomans BA, Cardoso MV, Opdam NJ, Roeters FJ, De Munck J, Huysmans MC, et al. Surface roughness of etched composite resin in light of composite repair. Journal of dentistry. 2011;39(7):499-505.
38. Ozcan M, Vallittu PK. Effect of surface conditioning methods on the bond strength of luting cement to ceramics. Dental materials : official publication of the Academy of Dental Materials. 2003;19(8):725-31.
39. Jafarzadeh Kashi TS, Erfan M, Rakhshan V, Aghabaigi N, Tabatabaei FS. An in vitro assessment of the effects of three surface treatments on repair bond strength of aged composites. Operative dentistry. 2011;36(6):608-17.
40. Schneider LF, Moraes RR, Cavalcante LM, Sinhoreti MA, Correr-Sobrinho L, Consani S. Cross-link density evaluation through softening tests: effect of ethanol concentration. Dent Mater. 2008;24(2):199-203.

Artigos mais lidos pelo mesmo(s) autor(es)

<< < 9 10 11 12 13 14 15 > >>