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Journal of Zhejiang University SCIENCE B 2014 Vol.15 No.7 P.649-660

http://doi.org/10.1631/jzus.B1300216


Influence of casein phosphopeptide-amorphous calcium phosphate application, smear layer removal, and storage time on resin-dentin bonding*


Author(s):  Jun Lin1, Wei-ying Zheng1, Peng-ruo-feng Liu1, Ning Zhang1, Hui-ping Lin1, Yi-jing Fan1, Xin-hua Gu1, Oliver Vollrath2, Christian Mehl3

Affiliation(s):  1. Department of Stomatology, the First Affiliated Hospital, School of Medicine, Zhejiang University, Hangzhou 310003, China; more

Corresponding email(s):   Christian.Mehl@HarderMehl.de

Key Words:  Tooth Mousse, Ethylenediaminetetraacetic acid (EDTA), Casein phosphopeptide-amorphous calcium phosphate, Smear layer, Bond strength


Jun Lin, Wei-ying Zheng, Peng-ruo-feng Liu, Ning Zhang, Hui-ping Lin, Yi-jing Fan, Xin-hua Gu, Oliver Vollrath, Christian Mehl. Influence of casein phosphopeptide-amorphous calcium phosphate application, smear layer removal, and storage time on resin-dentin bonding[J]. Journal of Zhejiang University Science B, 2014, 15(7): 649-660.

@article{title="Influence of casein phosphopeptide-amorphous calcium phosphate application, smear layer removal, and storage time on resin-dentin bonding",
author="Jun Lin, Wei-ying Zheng, Peng-ruo-feng Liu, Ning Zhang, Hui-ping Lin, Yi-jing Fan, Xin-hua Gu, Oliver Vollrath, Christian Mehl",
journal="Journal of Zhejiang University Science B",
volume="15",
number="7",
pages="649-660",
year="2014",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.B1300216"
}

%0 Journal Article
%T Influence of casein phosphopeptide-amorphous calcium phosphate application, smear layer removal, and storage time on resin-dentin bonding
%A Jun Lin
%A Wei-ying Zheng
%A Peng-ruo-feng Liu
%A Ning Zhang
%A Hui-ping Lin
%A Yi-jing Fan
%A Xin-hua Gu
%A Oliver Vollrath
%A Christian Mehl
%J Journal of Zhejiang University SCIENCE B
%V 15
%N 7
%P 649-660
%@ 1673-1581
%D 2014
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.B1300216

TY - JOUR
T1 - Influence of casein phosphopeptide-amorphous calcium phosphate application, smear layer removal, and storage time on resin-dentin bonding
A1 - Jun Lin
A1 - Wei-ying Zheng
A1 - Peng-ruo-feng Liu
A1 - Ning Zhang
A1 - Hui-ping Lin
A1 - Yi-jing Fan
A1 - Xin-hua Gu
A1 - Oliver Vollrath
A1 - Christian Mehl
J0 - Journal of Zhejiang University Science B
VL - 15
IS - 7
SP - 649
EP - 660
%@ 1673-1581
Y1 - 2014
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.B1300216


Abstract: 
The aim of this study is to evaluate the influence of tooth Mousse (TM) application, smear layer removal, and storage time on resin-dentin microtensile bond strength (μTBS). Dentin specimens were divided into two groups: (1) smear layer covered; (2) smear layer removed using 15% EDTA for 90 s. In each group, half the specimens were treated once with TM for 60 min. After bonding procedures using a two-step self-etching adhesive (Clearfil SE Bond (CSE); Kuraray Medical, Tokyo, Japan), an all-in-one adhesive (G-Bond (GB); GC Corp, Tokyo, Japan), and a total-etch adhesive (Adper Single Bond 2 (SB); 3M ESPE, St. Paul, MN, USA), the specimens were stored for 3 d or 6 months in deionized water at 37 °C, and μTBS was tested and analyzed. With the exception of SB (no TM application) and GB, the μTBS was significantly increased for CSE and SB using EDTA pre-conditioning and 3 d of storage (P≤0.001). bond strength of GB decreased significantly when using EDTA (3 d storage, P<0.05). TM application only increased the μTBS of GB (no EDTA) and SB (with EDTA) after 3 d (P≤0.02). Comparing the adhesives after 3 d of storage, CSE exhibited the greatest μTBS values followed by GB and SB (P≤0.02). The factors of adhesive, EDTA, and TM did not show any significant impact on μTBS when specimens were stored for 6 months (P>0.05). The additional application of TM and EDTA for cavity preparation seems only to have a short-term effect, and no influence on μTBS of dentin bonds after a period of 6 months.

酪蛋白磷酸肽-无定形磷酸钙、不同玷污层的处理和储存时间对牙本质粘接的影响

研究目的:评价含有酪蛋白磷酸肽-无定形磷酸钙(CPP-ACP)的再矿化剂Tooth Mousse(TM)的使用、不同玷污层的处理以及样本储存时间对牙本质粘接微拉伸性能的影响。
研究方法:将牙本质样本分成保留玷污层组和用15%乙二胺四乙酸(EDTA)处理90秒去除玷污层组。每组根据是否使用TM处理再分亚组。每个亚组分别用三种不同的粘结剂(两步法自酸蚀Clearfil SE Bond(CSE)、一步法自酸蚀G-Bond(GB)和全酸蚀Adper Single Bond 2(SB))与牙本质样本粘接,分别经过3天和6个月的去离子水储存。样本进行切割微拉伸测试并通过扫描电镜分析断裂界面模式。
重要结论:经过再矿化剂TM预处理,可以减少牙齿的敏感性,并且对于这三种粘结系统经过长时间储存后的粘结性能没有影响。EDTA的处理对于长期储存的粘结性能没有显著影响。额外的TM和EDTA对短期(3天)粘接力会有效应,但对长期(6个月)的粘接力没有影响。

关键词:玷污层;再矿化剂Tooth Mousse;微拉伸性能;储存时间;粘结剂

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

References

[1] Abdalla, A.I., Feilzer, A.J., 2008. Four-year water degradation of a total-etch and two self-etching adhesives bonded to dentin. J Dent, 36(8):611-617. 


[2] Absi, E.G., Addy, M., Adams, D., 1995. Dentine hypersensitivity: uptake of toothpastes onto dentine and effects of brushing, washing and dietary acid—SEM in vitro study. J Oral Rehabil, 22(3):175-182. 


[3] Adebayo, O.A., Burrow, M.F., Tyas, M.J., 2007. Effects of conditioners on microshear bond strength to enamel after carbamide peroxide bleaching and/or casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) treatment. J Dent, 35(11):862-870. 


[4] Adebayo, O.A., Burrow, M.F., Tyas, M.J., 2008. Bond strength test: role of operator skill. Aust Dent J, 53(2):145-150. 


[5] Adebayo, O.A., Burrow, M.F., Tyas, M.J., 2008. Dentine bonding after CPP-ACP paste treatment with and without conditioning. J Dent, 36(12):1013-1024. 


[6] Adebayo, O.A., Burrow, M.F., Tyas, M.J., 2010. Resin-dentine interfacial morphology following CPP-ACP treatment. J Dent, 38(2):96-105. 


[7] Berkowitz, G.S., Horowitz, A.J., Curro, F.A., 2009. Postoperative hypersensitivity in class I resin-based composite restorations in general practice: interim results. Comp Cont Educ Dent, 30(6):356-358. 

[8] Borges, B.C., Souza-Junior, E.J., da Costa, G., 2013. Effect of dentin pre-treatment with a casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) paste on dentin bond strength in tridimensional cavities. Acta Odontol Scand, 71(1):271-277. 


[9] Cadenaro, M., Antoniolli, F., Sauro, S., 2005. Degree of conversion and permeability of dental adhesives. Eur J Oral Sci, 113(6):525-530. 


[10] Dabsie, F., Gregoire, G., Sharrock, P., 2012. Critical surface energy of composite cement containing MDP (10-methacryloyloxydecyl dihydrogen phosphate) and chemical bonding to hydroxyapatite. J Biomater Sci-Polym Ed, 23(1-4):543-554. 


[11] de Munck, J., van Meerbeek, B., Yoshida, Y., 2003. Four-year water degradation of total-etch adhesives bonded to dentin. J Dent Res, 82(2):136-140. 


[12] Denner, N., Heydecke, G., Gerds, T., 2007. Clinical comparison of postoperative sensitivity for an adhesive resin cement containing 4-META and a conventional glass-lonomer cement. Int J Prosthodont, 20(1):73-78. 


[13] Geiger, S., Matalon, S., Blasbalg, J., 2003. The clinical effect of amorphous calcium phosphate (ACP) on root surface hypersensitivity. Oper Dent, 28(5):496-500. 


[14] Giachetti, L., Scaminaci Russo, D., Rossi Campani, E., 2011. Comparison of experienced and inexperienced operators on bond strengths of total-etch and self-etch bonding systems. Am J Dent, 24(5):271-276. 


[15] Giulio, A.B., Matteo, Z., Serena, I.P., 2009.  In vitro evaluation of casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) effect on stripped enamel surfaces. A SEM investigation. J Dent, 37(3):228-232. 


[16] Inoue, S., Koshiro, K., Yoshida, Y., 2005. Hydrolytic stability of self-etch adhesives bonded to dentin. J Dent Res, 84(12):1160-1164. 


[17] Iwai, H., Fujita, K., Ikemi, T., 2013. Development of MDP-based one-step self-etch adhesive—effect of additional 4-META on bonding performance. Dent Mater J, 32(1):1-9. 


[18] Kanehira, M., Finger, W.J., Hoffmann, M., 2006. Relationship between degree of polymerization and enamel bonding strength with self-etching adhesives. J Adhes Dent, 8(4):211-216. 


[19] Katsuno, K., Manabe, A., Itoh, K., 1996. Contact dermatitis caused by 2-HEMA and GM dentin primer solutions applied to guinea pigs and humans. Dent Mater J, 15(1):22-30. 


[20] Koibuchi, H., Yasuda, N., Nakabayashi, N., 2001. Bonding to dentin with a self-etching primer: the effect of smear layers. Dent Mater, 17(2):122-126. 


[21] Lin, J., Mehl, C., Yang, B., 2010. Durability of four composite resin cements bonded to dentin under simulated pulpal pressure. Dent Mater, 26(10):1001-1009. 


[22] Lin, J., Kern, M., Ge, J., 2013. Influence of peripheral enamel bonding and chlorhexidine pretreatment on resin bonding to dentin. J Adhes Dent, 15(4):351-359. 


[23] Marshall, G.W., Marshall, S.J., Kinney, J.H., 1997. The dentin substrate: structure and properties related to bonding. J Dent, 25(6):441-458. 


[24] Monticelli, F., Osorio, R., Mazzitelli, C., 2008. Limited decalcification/diffusion of self-adhesive cements into dentin. J Dent Res, 87(10):974-979. 


[25] Oliveira, S.S., Pugach, M.K., Hilton, J.F., 2003. The influence of the dentin smear layer on adhesion: a self-etching primer vs. a total-etch system. Dent Mater, 19(8):758-767. 


[26] Ommerborn, M.A., Schneider, C., Giraki, M., 2007.  In vivo evaluation of noncarious cervical lesions in sleep bruxism subjects. J Prosthet Dent, 98(2):150-158. 


[27] Osborne-Smith, K.L., Burke, F.J., Wilson, N.H., 1999. The aetiology of the non-carious cervical lesion. Int Dent J, 49(3):139-143. 


[28] Oshiro, M., Yamaguchi, K., Takamizawa, T., 2007. Effect of CPP-ACP paste on tooth mineralization: an FE-SEM study. J Oral Sci, 49(2):115-120. 


[29] Paranjpe, A., Bordador, L.C., Wang, M.Y., 2005. Resin monomer 2-hydroxyethyl methacrylate (HEMA) is a potent inducer of apoptotic cell death in human and mouse cells. J Dent Res, 84(2):172-177. 


[30] Pashley, D.H., Livingstone, M.J., Greenhill, J.D., 1978. Regional resistances to fluid flow in human dentine in vitroArch Oral Biol, 23(9):807-810. 


[31] Pashley, D.H., Mattews, W.G., Zhang, Y., 1996. Fluid shifts across human dentin in vitro in response to hydrodynamic stimuli. Arch Oral Biol, 41(11):1065-1072. 


[32] Pashley, D.H., Tay, F.R., Haywood, V.B., 2008. Consensus-based recommendations for the diagnosis and management of dentin hypersensitivity. Comp Cont Educ Dent, 29(1):1-7. 

[33] Perdigao, J., Gomes, G., Gondo, R., 2006.  In vitro bonding performance of all-in-one adhesives. Part I: microtensile bond strengths. J Adhes Dent, 8(6):367-373. 


[34] Piekarz, C., Ranjitkar, S., Hunt, D., 2008. An in vitro assessment of the role of Tooth Mousse in preventing wine erosion. Aust Dent J, 53(1):22-25. 


[35] Que, K., Ruan, J., Fan, X., 2010. A multi-centre and cross-sectional study of dentine hypersensitivity in China. J Clin Periodontol, 37(7):631-637. 


[36] Rahiotis, C., Vougiouklakis, G., 2007. Effect of a CPP-ACP agent on the demineralization and remineralization of dentine in vitroJ Dent, 35(8):695-698. 


[37] Ramalingam, L., Messer, L.B., Reynolds, E.C., 2005. Adding casein phosphopeptide-amorphous calcium phosphate to sports drinks to eliminate in vitro erosion. Pediatr Dent, 27(1):61-67. 


[38] Ranjitkar, S., Rodriguez, J.M., Kaidonis, J.A., 2009. The effect of casein phosphopeptide-amorphous calcium phosphate on erosive enamel and dentine wear by toothbrush abrasion. J Dent, 37(4):250-254. 


[39] Reynolds, E.C., 1997. Remineralization of enamel subsurface lesions by casein phosphopeptide-stabilized calcium phosphate solutions. J Dent Res, 76(9):1587-1595. 


[40] Reynolds, E.C., 1998. Anticariogenic complexes of amorphous calcium phosphate stabilized by casein phosphopeptides: a review. Spec Care Dent, 18(1):8-16. 


[41] Rimondini, L., Baroni, C., Carrassi, A., 1995. Ultrastructure of hypersensitive and non-sensitive dentine. A study on replica models. J Clin Periodontol, 22(12):899-902. 


[42] Sano, H., Shono, T., Sonoda, H., 1994. Relationship between surface area for adhesion and tensile bond strength—evaluation of a micro-tensile bond test. Dent Mater, 10(4):236-240. 


[43] Sattabanasuk, V., Burrow, M.F., Shimada, Y., 2009. Resin bonding to dentine after casein phosphopeptide-amorphous calcium phosphate (CPP-ACP) treatments. J Adhes Sci Technol, 23(7-8):1149-1161. 


[44] Sauro, S., Mannocci, F., Toledano, M., 2009. EDTA or H3PO4/NaOCl dentine treatments may increase hybrid layers’ resistance to degradation: a microtensile bond strength and confocal-micropermeability study. J Dent, 37(4):279-288. 


[45] Sauro, S., Toledano, M., Aguilera, F.S., 2010. Resin-dentin bonds to EDTA-treated vs. acid-etched dentin using ethanol wet-bonding. Dent Mater, 26(4):368-379. 


[46] Silva-Jnior, C.A., Borges, B.C., Souza-Jnior, E.J., 2011. Effect of CPP-ACP treatment on dentin bond-strength of self-etching adhesives. Dent Mater, 27(3):1-84. 


[47] Simonetti, M., Radovic, I., Vano, M., 2006. The influence of operator variability on adhesive cementation of fiber posts. J Adhes Dent, 8(6):421-425. 


[48] Sulieman, M., 2005. An overview of bleaching techniques: 2. Night Guard Vital Bleaching and non-vital bleaching. Dent Update, 32(1):39-40. 

[49] Swift, E.J., 2004. Causes, prevention, and treatment of dentin hypersensitivity. Comp Cont Educ Dent, 25(2):95-106. 

[50] Tani, C., Finger, W.J., 2002. Effect of smear layer thickness on bond strength mediated by three all-in-one self-etching priming adhesives. J Adhes Dent, 4(4):283-289. 


[51] Tantbirojn, D., Huang, A., Ericson, M.D., 2008. Change in surface hardness of enamel by a cola drink and a CPP-ACP paste. J Dent, 36(1):74-79. 


[52] Tay, F.R., Pashley, D.H., 2002. Dental adhesives of the future. J Adhes Dent, 4(2):91-103. 


[53] Tay, F.R., Pashley, D.H., Suh, B.I., 2002. Single-step adhesives are permeable membranes. J Dent, 30(7-8):371-382. 


[54] Tokiwa, O., Park, B.K., Takezawa, Y., 2008. Relationship of tooth grinding pattern during sleep bruxism and dental status. Cranio, 26(4):287-293. 


[55] Tsuchimoto, Y., Yoshida, Y., Mine, A., 2006. Effect of 4-MET- and 10-MDP-based primers on resin bonding to titanium. Dent Mater J, 25(1):120-124. 


[56] Tyas, M.J., 1995. The Class V lesion—aetiology and restoration. Aust Dent J, 40(3):167-170. 


[57] van Landuyt, K.L., Snauwaert, J., Peumans, M., 2008. The role of HEMA in one-step self-etch adhesives. Dent Mater, 24(10):1412-1419. 


[58] van Landuyt, K.L., de Munck, J., Mine, A., 2010. Filler debonding & subhybrid-layer failures in self-etch adhesives. J Dent Res, 89(10):1045-1050. 


[59] Vanuspong, W., Eisenburger, M., Addy, M., 2002. Cervical tooth wear and sensitivity: erosion, softening and rehardening of dentine; effects of pH, time and ultrasonication. J Clin Periodontol, 29(4):351-357. 


[60] West, N., Addy, M., Hughes, J., 1998. Dentine hypersensitivity: the effects of brushing desensitizing toothpastes, their solid and liquid phases, and detergents on dentine and acrylic: studies in vitroJ Oral Rehabil, 25(12):885-895. 


[61] Yamaguchi, K., Miyazaki, M., Takamizawa, T., 2007. Ultrasonic determination of the effect of casein phosphopeptide-amorphous calcium phosphate paste on the demineralization of bovine dentin. Caries Res, 41(3):204-207. 


[62] Yang, B., Ludwig, K., Adelung, R., 2006. Micro-tensile bond strength of three luting resins to human regional dentin. Dent Mater, 22(1):45-56. 


[63] Yoshida, Y., Nagakane, K., Fukuda, R., 2004. Comparative study on adhesive performance of functional monomers. J Dent Res, 83(6):454-458. 


[64] Zorba, Y.O., Erdemir, A., Ercan, E., 2010. The effects of three different desensitizing agents on the shear bond strength of composite resin bonding agents. J Mech Behav Biomed Mater, 3(5):399-404. 



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