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Abstract

The effect of application mode on polymerization effectiveness of self-etch adhesives with different pHs has rarely been studied. We applied 2 self-etch adhesives—Adper Prompt L-Pop (APLP, pH ~ 0.8) and Adper Easy-Bond (AEB, pH ~ 2.5)—to dentin with or without agitation (dynamic or static application), to investigate photopolymerization efficacy on dentin, and to understand the role of chemical interaction/reaction between adhesives and dentin. Micro-Raman spectra and imaging were acquired across the dentin/adhesive (D/A) interface. The degree of conversion (DC) of each adhesive as a function of position was calculated. SEM-EDS was used to obtain the elemental distribution along the interface. Photopolymerization efficacies of the two self-etch adhesives on dentin were apparently different. APLP exhibited decreasing DCs as the distance from the D/A interface became greater for both application modes, while the DCs for the dynamic mode were much higher than those for the static mode. As for AEB, the DCs remained almost constant across the adhesive layer and showed no significant difference between two modes. Raman spectral analysis disclosed that the chemical interaction between dentin and adhesives was responsible for the observations. We also verified this by tracking the distribution of the elements Ca and P in the adhesive layers.

Keywords

self-etch adhesives pH degree of conversion micro-Raman demineralization imaging

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References

Amaral

Stanislawczuk

Zander-Grande

Gagler

Reis

Loguercio

(2010). Bond strength and quality of the hybrid layer of one-step self-etch adhesives applied with agitation on dentin. Oper Dent 35:211-219.

Cadenaro

Antoniolli

Sauro

Tay

Di Lenarda

Prati

. (2005). Degree of conversion and permeability of dental adhesives. Eur J Oral Sci 113:525-530.

Carvalho

Chersoni

Frankenberger

Pashley

Prati

Tay

(2005). A challenge to the conventional wisdom that simultaneous etching and resin infiltration always occurs in self-etch adhesives. Biomaterials 26:1035-1042.

De Munck

Vargas

Iracki

Van Landuyt

Poitevin

Lambrechts

. (2005). One-day bonding effectiveness of new self-etch adhesives to bur-cut enamel and dentin. Oper Dent 30:39-49.

De Munck

Shirai

Yoshida

Inoue

Van Landuyt

Lambrechts

. (2006). Effect of water storage on the bonding effectiveness of 6 adhesives to class I cavity dentin. Oper Dent 31:456-465.

Dieng-Sarr

Sharrock

Dabsie

Gregoire

(2011). Modifications of the organic and mineral fractions of dental tissues following conditioning by self-etching adhesives. J Dent 39:141-147.

Faria-e-Silva

Lima

Moraes

Piva

Martins

(2010). Degree of conversion of etch-and-rinse and self-etch adhesives light-cured using QTH or LED. Oper Dent 35:649-654.

Finger

Tani

(2005). Effect of application mode on bonding performance of self-etching adhesives. Am J Dent 18:41-44.

Fukegawa

Hayakawa

Yoshida

Suzuki

Osaka

Van Meerbeek

(2006). Chemical interaction of phosphoric acid ester with hydroxyapatite. J Dent Res 85:941-944.

10.

Inoue

Koshiro

Yoshida

De Munck

Nagakane

Suzuki

. (2005). Hydrolytic stability of self-etch adhesives bonded to dentin. J Dent Res 84:1160-1164.

11.

Kanehira

Finger

Hoffmann

Endo

Komatsu

(2006). Relationship between degree of polymerization and enamel bonding strength with self-etching adhesives. J Adhes Dent 8:211-216.

12.

Maeda

Yamaguchi

Takamizawa

Rikuta

Tsubota

Ando

. (2008). pH changes of self-etching primers mixed with powdered dentine. J Dent 36:606-610.

13.

Miyazaki

Platt

Onose

Moore

(1996). Influence of dentin primer application methods on dentin bond strength. Oper Dent 21: 167-172.

14.

Moszner

Salz

Zimmermann

(2005). Chemical aspects of self-etching enamel-dentin adhesives: a systematic review. Dent Mater 21:895-910.

15.

Navarra

Cadenaro

Codan

Mazzoni

Sergo

De Stefano Dorigo

. (2009). Degree of conversion and interfacial nanoleakage expression of three one-step self-etch adhesives. Eur J Oral Sci 117:463-469.

16.

Penel

Leroy

Rey

Lemaître

Van Landuyt

Ghanty

. (1999). Qualitative and quantitative investigation of calcium phosphate of biological interest by raman microspectrometry. Rec Res Dev Appl Spectrosc 2:137-146.

17.

Penel

Delfosse

Rey

Hardouin

Jeanfils

Delecourt

. (2003). Raman microspectrometry studies of calcified tissues and related biomaterials. Dent Med Probl 40:37-43.

18.

Salz

Zimmermann

Salzer

(2005). Self-curing, self-etching adhesive cement systems. J Adhes Dent 7:7-17.

19.

Shirai

De Munck

Yoshida

Inoue

Lambrechts

Suzuki

. (2005). Effect of cavity configuration and aging on the bonding effectiveness of six adhesives to dentin. Dent Mater 21:110-124.

20.

Tay

Pashley

(2001). Aggressiveness of contemporary self-etching systems. I: Depth of penetration beyond dentin smear layers. Dent Mater 17:296-308.

21.

Tay

Pashley

Yiu

Sanares

Wei

(2003). Factors contributing to the incompatibility between simplified-step adhesives and chemically-cured or dual-cured composites. Part I. Single-step self-etching adhesive. J Adhes Dent 5:27-40.

22.

Van Landuyt

Snauwaert

De Munck

Peumans

Yoshida

Poitevin

. (2007). Systematic review of the chemical composition of contemporary dental adhesives. Biomaterials 28:3757-3785.

23.

Van Meerbeek

De Munck

Yoshida

Inoue

Vargas

Vijay

. (2003). Adhesion to enamel and dentin: current status and future challenges. Oper Dent 28:215-235.

24.

Van Meerbeek

Yoshihara

Yoshida

Mine

De Munck

Van Landuyt

(2011). State of the art of self-etch adhesives. Dent Mater 27:17-28.

25.

Velasquez

Sergent

Burgess

Mercante

(2006). Effect of placement agitation and placement time on the shear bond strength of 3 self-etching adhesives. Oper Dent 31:426-430.

26.

Zhang

Wang

(2012). Improved degree of conversion of model self-etching adhesives through their interaction with dentine. J Dent 40: 57-63.

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Distinct Photopolymerization Efficacy on Dentin of Self-etch Adhesives

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