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Abstract

According to the ‘Adhesion–Decalcification’ concept, specific functional monomers within dental adhesives can ionically interact with hydroxyapatite (HAp). Such ionic bonding has been demonstrated for 10-methacryloyloxydecyl dihydrogen phosphate (MDP) to manifest in the form of self-assembled ‘nano-layering’. However, it remained to be explored if such nano-layering also occurs on tooth tissue when commercial MDP-containing adhesives (Clearfil SE Bond, Kuraray; Scotchbond Universal, 3M ESPE) were applied following common clinical application protocols. We therefore characterized adhesive-dentin interfaces chemically, using x-ray diffraction (XRD) and energy-dispersive x-ray spectroscopy (EDS), and ultrastructurally, using (scanning) transmission electron microscopy (TEM/STEM). Both adhesives revealed nano-layering at the adhesive interface, not only within the hybrid layer but also, particularly for Clearfil SE Bond (Kuraray), extending into the adhesive layer. Since such self-assembled nano-layering of two 10-MDP molecules, joined by stable MDP-Ca salt formation, must make the adhesive interface more resistant to biodegradation, it may well explain the documented favorable clinical longevity of bonds produced by 10-MDP-based adhesives.

Keywords

adhesive functional monomer nano-layering interface XRD TEM

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References

Brackett

Sword

Niu

. (2011). The critical barrier to progress in dentine bonding with the etch-and-rinse technique. J Dent 39:238-248.

Breschi

Mazzoni

Ruggeri

Cadenaro

Di Lenarda

De Stefano Dorigo

(2008). Dental adhesion review: aging and stability of the bonded interface. Dent Mater 24:90-101.

Carrilho

Tay

Donnelly

Agee

Carvalho

Hosaka

. (2009). Membrane permeability properties of dental adhesive films. J Biomed Mater Res B Appl Biomater 88:312-320.

Chersoni

Suppa

Breschi

Ferrari

Tay

Pashley

. (2004). Water movement in the hybrid layer after different dentin treatments. Dent Mater 20:796-803.

Elliott

(2002). Calcium phosphate biominerals. Rev Mineral Geochem 48:427-453.

Erhardt

Pisani-Proença

Osorio

Aguilera

Toledano

Osorio

(2011). Influence of laboratory degradation methods and bonding application parameters on microTBS of self-etch adhesives to dentin. Am J Dent 24:103-108.

Erickson

Barkmeier

Latta

(2009). The role of etching in bonding to enamel: a comparison of self-etching and etch-and-rinse adhesive systems. Dent Mater 25:1459-1467.

Sun

Qian

Shen

Chen

Hannig

(2005). Evidence of chemical bonding to hydroxyapatite by phosphoric acid esters. Biomaterials 26:5104-5110.

Fukegawa

Hayakawa

Yoshida

Suzuki

Osaka

Van Meerbeek

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

10.

Gandhi

Lane

Zhou

Singh

Nayak

Tisch

. (2007). Annealing-induced interfacial toughening using a molecular nanolayer. Nature 447:299-302.

11.

Inoue

Koshiro

Yoshida

De Munck

Nagakane

Suzuki

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

12.

Kagan

Mitzi

Dimitrakopoulos

(1999). Organic-inorganic hybrid materials as semi-conducting channels in thin-film field-effect transistors. Science 286:945-947.

13.

Kim

Mai

Mazzoni

Liu

Tezvergil-Mutluay

Takahashi

. (2010). Biomimetic remineralization as a progressive dehydration mechanism of collagen matrices—implications in the aging of resin-dentin bonds. Acta Biomater 6:3729-3739.

14.

Koshiro

Sidhu

Inoue

Ikeda

Sano

(2006). New concept of resin-dentin interfacial adhesion: the nanointeraction zone. J Biomed Mater Res Part B Appl Biomater 77:401-408.

15.

Liu

Tjäderhane

Breschi

Mazzoni

Mao

. (2011). Limitations in bonding to dentin and experimental strategies to prevent bond degradation. J Dent Res 90:953-968.

16.

Perdigão

Dutra-Corrêa

Saraceni

Ciaramicoli

Kiyan

Queiroz

(2012). Randomized clinical trial of four adhesion strategies: 18-month results. Oper Dent 37:3-11.

17.

Peumans

De Munck

Van Landuyt

Poitevin

Lambrechts

Van Meerbeek

(2010). Eight-year clinical evaluation of a 2-step self-etch adhesive with and without selective enamel etching. Dent Mater 26:1176-1184.

18.

Sofos

Goldberger

Stone

Allen

Herman

. (2009). A synergistic assembly of nanoscale lamellar photoconductor hybrids. Nat Mater 8:68-75.

19.

Stupp

Braun

(1997). Molecular manipulation of microstructures: biomaterials, ceramics, and semiconductors. Science 277:1242-1248.

20.

Tai

Dao

Suresh

Palazoglu

Ortiz

(2007). Nanoscale heterogeneity promotes energy dissipation in bone. Nat Mater 6:454-462.

21.

Tay

Pashley

(2009). Biomimetic remineralization of resin-bonded acid-etched dentin. J Dent Res 88:719-724.

22.

Van Landuyt

Yoshida

Hirata

Snauwaert

De Munck

Okazaki

. (2008). Influence of the chemical structure of functional monomers on their adhesive performance. J Dent Res 87:757-761.

23.

Van Meerbeek

De Munck

Yoshida

Inoue

Vargas

Vijay

. (2003). Buonocore memorial lecture. 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.

Waidyasekera

Nikaido

Weerasinghe

Ichinose

Tagami

(2009). Reinforcement of dentin in self-etch adhesive technology: a new concept. J Dent 37:604-609.

26.

Yoshida

Van Meerbeek

Nakayama

Yoshioka

Snauwaert

Abe

. (2001). Adhesion to and decalcification of hydroxyapatite by carboxylic acids. J Dent Res 80:1565-1569.

27.

Yoshida

Nagakane

Fukuda

Nakayama

Okazaki

Shintani

. (2004). Comparative study on adhesive performance of functional monomers. J Dent Res 83:454-458.

28.

Yoshihara

Yoshida

Nagaoka

Fukegawa

Hayakawa

Mine

. (2010). Nano-controlled molecular interaction at adhesive interfaces for hard tissue reconstruction. Acta Biomateralia 6:3573-3582.

29.

Yoshihara

Yoshida

Hayakawa

Nagaoka

Irie

Ogawa

. (2011a). Nano-layering of phosphoric-acid ester monomer at enamel and dentin. Acta Biomaterialia 7:3187-3195.

30.

Yoshihara

Yoshida

Hayakawa

Nagaoka

Torii

Osaka

. (2011b). Self-etch monomer-calcium salt deposition on dentin. J Dent Res 90:602-606.

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Self-assembled Nano-layering at the Adhesive Interface

Abstract

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