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Abstract

Luting of fiber posts to intra-radicular dentin represents the worst-case scenario in terms of control of polymerization shrinkage. This study tested the hypothesis that filler content of resin cements does not influence luting of fiber posts to intra-radicular dentin, by assaying polymerization stress, push-out bond strength, and nanoleakage expression. The polymerization stress of experimental cements containing 10%, 30%, 50%, or 70% in filler content was investigated. Post spaces were prepared in endodontically treated teeth, and fiber posts were cemented with the experimental cements. A push-out test was performed, and interfacial nanoleakage expression was analyzed. Results showed that luting cements with higher filler content were related to increased polymerization stress (p < 0.05), decreased push-out bond strength (p < 0.05), and increased interfacial nanoleakage expression (p < 0.05). Conversely, lower-stress luting materials increased bonding of fiber posts to intra-radicular dentin. Further in vivo studies are needed to investigate the long-term clinical performance of these materials.

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References

Baroudi K, Saleh AM, Silikas N, Watts DC -2007-. Shrinkage behaviour of flowable resin-composites related to conversion and filler-fraction. J Dent 35:651–655.

Bouillaguet S, Troesch S, Wataha JC, Krejci I, Meyer JM, Pashley DH -2003-. Microtensile bond strength between adhesive cements and root canal dentin. Dent Mater 19:199–205.

Braga RR, Ferracane JL -2004-. Alter natives in polymerization contraction stress management. Crit Rev Oral Biol Med 15:176–184.

Braga RR, Boaro LC, Kuroe T, Azevedo CL, Singer JM -2006-. Influence of cavity dimensions and their derivatives -volume and ‘C’ factor- on shrinkage stress development and microleakage of composite restorations, Dent Mater 22:818–823.

Breschi L, Mazzoni A, Ferrari M -2008-. Adhesion to Intraradicular dentin. In: Fiber posts and endodontically treated teeth: a compendium of scientific and clinical perspective. Ferrari M, Breschi L, Grandini S, editors. Johannesburg, South Africa: Modern Dentistry Media, pp. 21–35.

Choi KK, Condon JR, Ferracane JL -2000-. The effect of adhesive thickness on polymerization contraction stress of composite. J Dent Res 79:812–817.

Choi KK, Ryu GJ, Choi SM, Lee MJ, Park SJ, Ferracane JL -2004-. Effects of cavity configuration on composite restoration. Oper Dent 29:462–469.

Condon JR, Ferracane JL -2000-. Assessing the effect of composite formulation on polymerization stress. J Am Dent Assoc 131:497–503.

Davidson CL, Feilzer AJ -1997-. Polymerization shrinkage and polymerization shrinkage stress in polymer-based restoratives. J Dent 25: 435–440.

10.

De Jager N, Pallav P, Feilzer AJ -2005-. Finite element analysis model to simulate the behavior of luting cements during setting. Dent Mater 21:1025–1032.

11.

Feilzer AJ, Dauvillier BS -2003-. Effect of TEGDMA/BisGMA ratio on stress development and viscolelastic properties of experimental two-paste composites. J Dent Res 82:824–828.

12.

Feilzer AJ, De Gee AJ, Davidson CL -1987-. Setting stress in composite resin in relation to configuration of the restoration. J Dent Res 66: 1636–1639.

13.

Ferrari M, Mannocci F, Vichi A, Cagidiaco MC, Mjör IA -2000-. Bonding to root canal: structural characteristic of the substrate. Am J Dent 13:255–260.

14.

Kemp-Scholte CM, Davidson CL -1990-. Complete marginal seal of Class V resin composite restorations effected by increased flexibility. J Dent Res 69:1240–1243.

15.

Labella R, Lambrechts P, Van Meerbeek B, Vanherle G -1999-. Polymerization shrinkage and elasticity of flowable composites and filled adhesives. Dent Mater 15:128–137.

16.

Moreira da Silva E, dos Santos GO, Guimarães JG, Barcellos Ade A, Sampaio EM -2007-. The influence of C-factor, flexural modulus and viscous flow on gap formation in resin composite restorations. Oper Dent 32:356–362.

17.

Peutzfeldt A -1987-. Resin composites in dentistry: the monomer systems. Eur J Oral Sci 105:97–116.

18.

Radovic I, Monticelli F, Cury AH, Bertelli E, Vulicevic ZR, Ferrari M -2008-. Coupling of composite cements to quartz fiber posts: a comparison of industrial and “chairside” treatments of the post surface. J Adhes Dent 10:57–66.

19.

Saboia VP, Nato F, Mazzoni A, Orsini G, Putignano A, Giannini M, et al. -2008-. Adhesion of a two-step etch-and-rinse adhesive on collagen-depleted dentin. J Adhes Dent 10:419–422.

20.

Salameh Z, Sorrentino R, Papacchini F, Ounsi H, Tashkandi E, Goracci C, et al. -2006-. Fracture resistance and failure patterns of endodontically treated mandibular molars restored using resin composite with or without translucent -glass fiber- posts. J Endod 32:752–755.

21.

Schwartz RS -2006-. Adhesive dentistry and endodontics. Part 2: Bonding in the root canal system—the promise and the problems: a review. J Endod 32:1125–1134.

22.

Schwartz RS, Fransman R -2005-. Adhesive dentistry and endodontics: materials, clinical strategies and procedures for restoration of access cavities: a review. J Endod 31:151–165.

23.

Schwartz RS, Robbins JW -2004-. Post placement and restoration of endodontically treated teeth: a literature review. J Endod 30:289–301.

24.

Tay FR, Hashimoto M, Pashley DH, Peters MC, Lai SC, Yiu CK, et al. -2003a-. Aging affects two modes of nanoleakage expression in bonded dentin. J Dent Res 82:537–541.

25.

Tay FR, Suh BI, Pashley DH, Prati C, Chuang SF, Li F -2003b-. Factors contributing to the incompatibility between simplified-step adhesives and self-cured or dual-cured composites. Part II. Single-bottle, total-etch adhesive. J Adhes Dent 5:91–105.

26.

Tay FR, Loushine RJ, Lambrechts P, Weller RN, Pashley DH -2006-. Geometric factors affecting dentin bonding in root canals: a theoretical modelling approach. J Endod 31:584–588.

27.

Tjandrawinata R, Irie M, Suzuki K -2005-. Flexural properties of eight flowable light-cured restorative materials, in immediate vs 24-hour water storage. Oper Dent 30:239–249.

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Influence of Luting Material Filler Content on Post Cementation

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