Adhesive strength of fiberglass posts treated with thio-urethane-based experimental silanes
Year 2021,
Volume: 55 Issue: 2, 60 - 66, 28.06.2021
Vitoria Massoneto Piccolli
Carmem Silvia Pfeifer
Ana Paula Piovezan Fugolin
Marcos Cezar Pomini
Roberta Araujo De Paula Ramos
Rafael Leonardo Xediek Consani
Abstract
Purpose
The aim of this study was to evaluate the adhesive bond strength of fiberglass posts treated with experimental silanes based on thio-urethane and submitted to thermo and mechanical cycles.
Materials and Methods
Bovine roots were divided into six groups: RX-RU2 (RelyX CP + RelyX U200); PETMP-HDDI-RU2 (PETMP-HDDI + RelyX U200); PETMP-BDI-RU2 (PETMP-BDI + RelyX U200); RX-RU (RelyX CP + RelyX Ultimate); PETMP-HDDI-RU (PETMP-HDDI + RelyX Ultimate); PETMP-BDI-RU (PETMP-BDI + RelyX Ultimate). One slice from each root third (n=10) was submitted to the push-out test and the values evaluated with R Program statistical analysis, while the failure pattern assessed in percentage.
Results
Among root thirds, RX-RU2 promoted greater strength at the cervical and apical thirds; PETMP-HDDI-RU2 showed highest values at the three thirds; and PETMP-BDI-RU2 was strongest at the apical third. RX-RU presented higher strength at the apical third, and PETMP-HDDI-RU and PETMP-BDI-RU had similar values at the three thirds. In each root third, PETMP-HDDI-RU2 showed similar strength at all thirds, and similar strength at the apical third was observed for other associations. Mixed and adhesive failures predominated.
Conclusion
Experimental silanes promoted different bond strength values in the adhesion of fiberglass posts to the root thirds, with better results for PETMP-HDDI silane. The root region did not influence the failure pattern and most slices showed mixed (MCDP) or adhesive (ADP) failure.
References
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Year 2021,
Volume: 55 Issue: 2, 60 - 66, 28.06.2021
Vitoria Massoneto Piccolli
Carmem Silvia Pfeifer
Ana Paula Piovezan Fugolin
Marcos Cezar Pomini
Roberta Araujo De Paula Ramos
Rafael Leonardo Xediek Consani
References
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- 2. Moraes A, Sarkis-Onofre R, Moraes R, Cenci MS, Soares CJ, Pereira-Cenci T. Can silanization increase the retention of glass-fiber posts? A systematic review and meta-analysis of in vitro studies. Oper Dent 2015;40:567-80. [CrossRef] google scholar
- 3. Tanoue N, Koishi Y, Atsuta M, Matsumura H. Properties of dual-curable luting composites polymerized with single and dual curing modes. J Oral Rehabil 2003;30:1015-21. [CrossRef] google scholar
- 4. Van Landuyt KL, Snauwaert J, De Munck J, Peumans M, Yoshida Y, Poitevin A. Systematic review of the chemical composition of contemporary dental adhesives. Biomaterials 2007; 28:3757-85. [CrossRef] google scholar
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- 8. Bacchi A, Consani RL, Martim GC, Pfeifer CS. Thio-urethane oligomers improve the properties of light-cured resin cements. Dent Mater 2015;31:565-74. [CrossRef] google scholar
- 9. Bacchi A, Yih JA, Platta J, Knight J, Pfeifer CS. Shrinkage/stress reduction and mechanical properties improvement in restorative composites formulated with thio-urethane oligomers. J Mech Behav Biomed Mater 2018;78:235-40. [CrossRef] google scholar
- 10. Consani RLX, De Paula AB, Fugolin APP, Pfeifer CS. Effect of the combination of a crosslinking agent and a thiourethane additive on the properties of acrylic denture bases processed with microwave energy. J Mech Behav Biomed Mater 2019;98:90-5. [CrossRef] google scholar
- 11. Pfeifer C, Lewis S. Thio-urethane oligomers as low-stress, tough additives in methacrylate polymerizations. IADR; 2012 (Abstract). google scholar
- 12. Pomini MC, Machado MM, Quadros GP, Gomes GM, Pinheiro LOB, Samra APB. In vitro fracture resistance and bond strength of self-adhesively luted cast metal and fiber-reinforced composite posts and cores: Influence of ferrule and storage time. Int J Prosthodont 2019; 32:205-7. [CrossRef] google scholar
- 13. El Mourad AM. Assessment of bonding effectiveness of adhesive materials to tooth structure using bond strength test methods: A review of literature. Open Dent J 2018;12:664-78. [CrossRef] google scholar
- 14. International Organization for Standardization. ISO TR11405: Dental materials - guidance on testing of adhesion to tooth structure. Geneva: International Organization for Standardization; 2014. google scholar
- 15. Core Team. A language and environment for statistical computing. R Foundation for Statistical Computing. Vienna, Austria; 2019. google scholar
- 16. Soares CJ, Santana FR, Castro CG, Paulo C F Santos-Filho, Paulo V Soares, Fang Qian, et al. Finite element analysis and bond strength of a glass post to intraradicular dentin: comparison between microtensile and push-out tests. Dent Mater 2008;24:1405-11. [CrossRef] google scholar
- 17. Başaran G, Göncü Başaran E, Ayna E, Değer Y, Ayna B, Tuncer MC. Microtensile bond strength of root canal dentin treated with adhesive and fiber-reinforced post systems. Braz Oral Res 2019;33:e027. [CrossRef] google scholar
- 18. FerrariM, Mannocci F, Vichi A, Cagidiaco MC, Mjör IA. Bonding to root canal: Structural characteristics of the substrate. Am J Dent 2000;13:255-60. google scholar
- 19. Demiryürek EO, Külünk S, Saraç D, Yüksel G, Bulucu B. Effect of different surface treatments on the push-out bond strength of fiber post to root canal dentin. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2009;108:e74-80. [CrossRef] google scholar
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- 21. Freitas TL, Vitti RP, Miranda ME, Brandt WC. Effect of glass fiber post adaptation on push-out bond strength to root dentin. Braz Dent J 2019;30:350-5. [CrossRef] google scholar
- 22. Gaston BA, West LA, Liewehr FR, Fernandes C, Pashley DH. Evaluation of regional bond strength of resin cement to endodontic surfaces. J Endod 2001;27:321-4. [CrossRef] google scholar
- 23. Kremeier K, Fasen L, Klaiber B, Hofmann N. Influence of endodontic post type (Glass fiber, quartz fiber or gold) and luting material on push-out bond strength to dentin in vitro. Dent Mater 2008;24:660-6. [CrossRef] google scholar
- 24. Suzuki T, Finger WJ. Dentin adhesives: site of dentin vs. bonding of composite resins. Dent Mater 1988;4:379-83. [CrossRef] google scholar
- 25. Ekambaram M, Yiu CKY, Matinlinna JP. Bonding of adhesive resin to intraradicular dentine: A review of the literature. Int J Adhes Adhes 2015;60:92-103. [CrossRef] google scholar
- 26. Macedo VC, Faria e Silva AL, Martins LRM. Effect of cement type, relining procedure, and length of cementation on pull-out bond strength of fiber posts. J Endod 2010;36:1543-6. [CrossRef] google scholar
- 27. Rodrigues RV, Sampaio CS, Pacheco RR, Pascon FM, Puppin-Rontani RM, Giannini M. Influence of adhesive cementation systems on the bond strength of relined fiber posts to root dentin. J Prosthet Dent 2017;118:493-9. [CrossRef] google scholar
- 28. Nihei T. Dental applications for silane coupling agents. J Oral Sci 2016;58:151-5. [CrossRef] google scholar
- 29. Chen JH, Matsumura H, Atsuta M. Effect of etchant, etching period, and silane priming on bond strength to porcelain of composite resin. Oper Dent 1998;23:250-7. google scholar
- 30. Cramer NB, Couch CL, Schreck KM, Boulden JE, Wydra R, Stansbury JW, et al. Properties of methacrylate-thiol-ene formulations as dental restorative materials. Dent Mater 2010; 26:799-806. [CrossRef] google scholar
- 31. Bacchi A, Pfeifer CS. Rheological and mechanical properties and interfacial stress development of composite cements modified with thio-urethane oligomers. Dent Mater 2016;32:978-86. [CrossRef] google scholar
- 32. Hoyle CE, Bowman CN, Thiol-ene click chemistry. Angew Chem 2010; 49:1540-73. [CrossRef] google scholar
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- 35. Lazari PC, Oliveira RC, Anchieta RB, Almeida EO, Freitas Junior AC, Sidney Kina S, et al. Stress distribution on dentin-cement-post interface varying root canal and glass fiber post diameters. A three-dimensional finite element analysis based on micro-CT data. J Appl Oral Sci 2013;21:511-7. [CrossRef] google scholar
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