Revista de Odontologia da UNESP
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Revista de Odontologia da UNESP
Original Article

Influência do uso de um primer na microinfiltração em dentina desproteinizada

Primer influence on microleakage in deproteinized dentin

Torres, C.R.G.; Silva, A.P.

Rev. odontol. UNESP, vol.35, n1, p.7-13, 2006
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Resumo

O objetivo deste estudo foi testar a hipótese de nulidade de que o uso de um primer num substrato dental condicionado e desproteinizado não teria influência na microinfiltração marginal. Para tal, 60 incisivos bovinos receberam preparos classe V na junção amelo-cementária e foram divididos em dois grupos. No Grupo C foi realizado condicionamento com ácido fosfórico a 35% por 15 segundos, enquanto, no Grupo H, após o condicionamento ácido idêntico ao do Grupo C, foi feita a aplicação de uma solução de NaOCl a 10% por 1 minuto. Cada grupo foi dividido em três subgrupos. No subgrupo PA, foram aplicados o primer e o adesivo do sistema Scotchbond Multipurpose (SBMP); no A foi aplicado apenas o adesivo do SBMP e no MB o adesivo para esmalte Magic Bond. As cavidades foram restauradas com dois incrementos com o compósito Z250. Os dentes foram imersos em água destilada a 37°C por 24 horas e submetidos a 500 ciclos térmicos (5 e 55°C). A microinfiltração foi avaliada quantitativamente pelo método do nitrato de prata seguido pela diafanização. Os dados foram submetidos à análise de variância a dois fatores e teste de Tukey (α = 5%). Foram observadas diferenças significativas apenas para o fator tipo de adesivo. As médias (± desvio padrão) observadas para cada tipo de adesivo foram: PA: 1,10 (± 0,54)a; A: 3,15 (± 1,50)b; MB: 3,74 (± 1,04)b. Os grupos acompanhados de letras iguais não apresentaram diferenças significantes. Concluiu-se que o uso do primer sobre o substrato dentinário desproteinizado melhorou o selamento marginal e que a desproteinização não teve influência sobre a microinfiltração marginal.

Palavras-chave

Infiltração dentária, dentina, hipoclorito de sódio, colágeno

Abstract

The aim of this study was to test the nullity hypothesis that the use of a primer in an acid etched and deproteinized dentin substratum would not have significant influence on microleakage. Sixty incisive bovine teeth received class V preparations at the cementoenamel junction and were assigned into two groups. In the group C the acid etching was performed with 35% phosphoric acid for 15 seconds, while in the group H, after being acid etched in the same way as the group C, an application of a 10% NaOCl solution was carried out for 1 min. Each group was divided into 3 subgroups. In the subgroup PA, the primer and the adhesive of the Scotchbond Multipurpose adhesive system (SBMP) were applied. In the subgroup B, only the adhesive of the SBMP was applied. In the subgroup MB, the enamel adhesive Magic Bond was applied. The cavities were restored with 2 increments of Z250 composite. The teeth were immersed in distilled water at 37°C for 24 hours and submitted to 500 thermal cycles (5 and 55°C). The microleakage was evaluated quantitatively by the silver nitrate method followed by clearing. The data were submitted to two-way ANOVA and Tukey’s test (α = 5%). Significant differences were only observed for the factor adhesive type. The mean (± standard deviation) observed for each adhesive type were: PA: 1.10 (± 0.54)a; A: 3.15(± 1.50)b; MB:3.74(± 1.04)b. The groups accompanied by the same letters do not present significant differences. We concluded that the use of the primer on the deproteinized dentin substratum improved the marginal sealing and that the deproteinization did not influence the marginal microleakage.

Keywords

Dental leakage, dentin, sodium hypochlorite, collagen

References



1. Araújo MAM, Torres CRG, Araújo RM. Influência do estado de hidratação da dentina ácido-condicionada no selamento marginal em restaurações de resina composta. Rev Odontol UNESP. 1998; 27: 363-79.

2. Blunck U, Speyer F, Roulet JF. Effect of hypochlorite treatment of conditioned dentin on the marginal adapta- tion of composite resin restorations [abstract 46]. J Dent Res. 1997; 76 (special issue): 19.

3. Bränström M. The effect of dentin disiccation and apir- ated odontoblasts on the pulp. J Prosthet Dent. 1968; 20: 165-71.

4. Burke FJ. Fourth generation dentine bonding agents. Br Dent J. 1994; 177 (1): 9.

5. Burrow MF, Tagami J, Hosoda H. The long term dura- bility of bond strength to dentin. Bull Tokyo Med Dent Univ. 1993; 40:173-91.

6. Chan AR, Titley KC, Chernecky R, Smith DC. A short and long-term shear bond strength study using acids of varying dilutions on bovine dentine. J Dent. 1997; 25:145-52.

7. Fujita E, Takada Y, Kato T, Kondo Y, Susuki K, Yamashita A. Effect of dentin treatment on adhesion of adhesive composite resin to dentin-dissolution of collagen. Ad- hesive Dent. 1990; 8: 227-35.

8. Gwinnett AJ, Tay FR, Pang KM, Wei SH. Quantitative contribution of the collagen network in dentin hybridiza- tion. Am J Dent. 1996; 9: 140-4.

9. Gwinnett AJ. Altered tissue contribution to interfacial bond strength with acid conditioned dentin. Am J Dent. 1994; 7: 243-6.

10. Hosoda H, Sugizaki J, Nakagima M, Shono T, Tagami J. A study on the mechanism of bonding between resin and dentin. Part 1. Bonding to dentin treated with sodium hypochlorite. Jap J Conserv Dent. 1993; 36: 1054-8.

11. Inai N, Kanemura N, Tagami J, Watanabe LG, Marshall SJ, Marshall GW. Adhesion between collagen depleted dentin and dentin adhesives. Am J Dent. 1998; 11: 123- 7.

12. Nakabayashi N, Ashizawa M, Nakamura M. Identifica- tion of a resin-dentin hybrid layer in vital human dentin created in vivo: durable bonding to vital dentin. Quin- tessence Int. 1992; 23: 135-41.

13. Nakabayashi N, Kojima K, Masuhara E. The promo- tion of adhesion by infiltration of monomers into tooth substrate. J Biomed Mater Res. 1982; 16: 265-73.

14. Nakabayashi N, Takarada K. Effect of HEMA on bond- ing to dentin. Dent Mater. 1992; 8: 125-30.

15. Perdigão J, Lambrechts P, Van Meerbeek B, Vanherle G, Lopes AL. Field emission SEM comparison of four post- fixation drying techniques for human dentin. J Biomed Mater Res. 1995; 29: 1111-20.

16. Perdigão J, Lopes M, Geraldeli S, Lopes GC, Garcia- Godoy F. Effect of a sodium hypochlorite gel on dentin bonding. Dent Mater. 2000; 16: 311-23.

17. Phrukkanon S, Burrow MF, Hartley PG, Tyas MJ. The influence of modification of etched bovine dentin on bond strengths. Dent Mater. 2000; 16: 255-65.

18. Pimenta LA, Amaral CM, Bedran de Castro AK, Ritter AV. Stability of dentin bond strengths using different bonding techniques after 12 months: total –etch, de- proteinization and sef-etching. Oper Dent. 2004; 29: 592-8.

19. Pioch T, Kobaslija S, Huseinbegovic A, Muller K, Dorfer CE. The effect of NaOCl dentin treatment on nanoleak- age formation. J Biomed Mater Res. 2001; 56: 578-83.

20. Pioch T, Kobaslija S, Schagen B, Gotz H. Interfacial micromorphology and tensile bond strength of dentin bonding systems after NaOCl treatment. J Adhes Dent. 1999; 1: 135-42.

21. Prati C, Chersoni S, Pashley H. Effect of removal surface collagen fibrils on resin-dentin bonding. Dent Mater. 1999; 15: 323-31.

22. Saboia VPA, Pimenta LAF, Ambrosano GMB. Effect of collagen removal on microleakage of resin composite restorations. Oper Dent. 2002; 27: 38-43.

23. Spencer P, Swafford J. Unprotected protein at the dentin- adhesive interface. Quintessence Int. 1999; 30: 501-7.

24. Swift Junior E, Triolo PT. Bond strengths of Scotchbond Multipurpose to moist dentin and enamel. Am J Dent. 1992; 5: 318-20.

25. Tanaka J, Nakai H. Application of root canal cleaning agents having dissolving abilities of collagen to the sur- face treatment for enhanced bonding of resin to dentin. Dent Mater J. 1993; 12: 196-208.

26. Tay FR, Gwinnett AJ, Wei SHY. The overwet phenom- enon: a scanning electron microscopic study of surface moisture in the acid conditioned, resin-dentin interface. Am J Dent. 1996; 9: 109-14.

27. Tay FR, Pang KM, Gwinnett AJ, Wei SHY. A method for microleakage evaluation along the dentin/restorative interface. Am J Dent. 1995; 8: 105-8.

28. Toledano M, Osorio R, Perdigao J, Rosales JI, Thompson JY, Vilchez MAC. Effect of acid etching and collagen removal on dentin wettability and roughness. J Biomed Mater Res. 1999; 47: 198-203.

29. Toledano M, Perdigão J, Osório R, Osorio E. Effect of dentin deproteinization on microleakage of Class V composite restorations. Oper Dent. 2000; 25: 497-504.

30. Torres CRG, Araújo MAM, Torres ACM. Effects of dentin collagen removal on microleakage of bonded restorations. J Adhes Dent. 2004; 6: 33-42.

31. Uno S, Finger WJ. Function of the hybrid zone as a stress-absorbing layer in resin-dentin bonding. Quintes- sence Int. 1995; 26: 733-8.

32. Vargas MA, Cobb DS, Armstrong SR. Resin-dentin shear bond strength and interfacial ultrastructure with and without a hybrid layer. Oper Dent. 1997; 22: 159-66.

33. Wakabayashi Y, Kondou Y, Suzuki K, Ytani H, Yamashita A. Effect of dissolution of collagen on adhesion to dentin. Int J Prosthodont. 1994; 7: 302-6.
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