Self-etch monomer-calcium salt deposition on dentin

Kumiko Yoshihara; Y. Yoshida; S. Hayakawa; N. Nagaoka; Y. Torii; A. Osaka; K. Suzuki; S. Minagi; B. Van Meerbeek; K. L. Van Landuyt

doi:10.1177/0022034510397197

Self-etch monomer-calcium salt deposition on dentin

Kumiko Yoshihara, Y. Yoshida, S. Hayakawa, N. Nagaoka, Y. Torii, A. Osaka, K. Suzuki, S. Minagi, B. Van Meerbeek, K. L. Van Landuyt

Research output: Contribution to journal › Article › peer-review

99 Citations (Scopus)

Abstract

Previous research, in which the bonding effectiveness of the 3 self-etch monomers HAEPA, EAEPA, and MAEPA was determined, showed that MAEPA was most effective. In this study, the molecular interactions of these monomers with hydroxyapatite and dentin were investigated by combining x-ray diffraction, infrared spectroscopy, and scanning electron microscopy. We tested the null hypothesis that the bonding performance of these monomers does not correlate to the formation of monomer-calcium salts and to hydrolytic stability of these monomer-calcium complexes. Monomer/ ethanol/water solutions were prepared and applied to synthetic hydroxyapatite and dentin. While HAEPA and EAEPA dissolved dentin considerably and deposited unstable calcium-phosphate salts (DCPD), MAEPA formed hydrolysis-resistant monomer-calcium salts that remained attached to the dentin surface even after being washed. The chemical stability of the monomer-Ca salts was thought to contribute in particular to the bond durability, but this study shows that the formation of stable monomer-calcium salts also enhances the 'immediate' bonding performance of self-etch adhesives.

Original language	English
Pages (from-to)	602-606
Number of pages	5
Journal	Journal of dental research
Volume	90
Issue number	5
DOIs	https://doi.org/10.1177/0022034510397197
Publication status	Published - May 2011

Keywords

XRD
adhesion
adhesive
functional monomer
monomer-calcium salt
phosphonate
self-etch

ASJC Scopus subject areas

Dentistry(all)

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10.1177/0022034510397197

Cite this

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title = "Self-etch monomer-calcium salt deposition on dentin",

abstract = "Previous research, in which the bonding effectiveness of the 3 self-etch monomers HAEPA, EAEPA, and MAEPA was determined, showed that MAEPA was most effective. In this study, the molecular interactions of these monomers with hydroxyapatite and dentin were investigated by combining x-ray diffraction, infrared spectroscopy, and scanning electron microscopy. We tested the null hypothesis that the bonding performance of these monomers does not correlate to the formation of monomer-calcium salts and to hydrolytic stability of these monomer-calcium complexes. Monomer/ ethanol/water solutions were prepared and applied to synthetic hydroxyapatite and dentin. While HAEPA and EAEPA dissolved dentin considerably and deposited unstable calcium-phosphate salts (DCPD), MAEPA formed hydrolysis-resistant monomer-calcium salts that remained attached to the dentin surface even after being washed. The chemical stability of the monomer-Ca salts was thought to contribute in particular to the bond durability, but this study shows that the formation of stable monomer-calcium salts also enhances the 'immediate' bonding performance of self-etch adhesives.",

keywords = "XRD, adhesion, adhesive, functional monomer, monomer-calcium salt, phosphonate, self-etch",

author = "Kumiko Yoshihara and Y. Yoshida and S. Hayakawa and N. Nagaoka and Y. Torii and A. Osaka and K. Suzuki and S. Minagi and {Van Meerbeek}, B. and {Van Landuyt}, {K. L.}",

note = "Funding Information: This research has been supported by Grants-in-Aid for Scientific Research from the Ministry of Education, Science, Sports and Culture of Japan, and by a FWO (G.0206.07) and K.U. Leuven grant (OT/06/55). K.L. Van Landuyt has been appointed as Post-doctoral Research Fellow for Scientific Research of Flanders. We thank Ivoclar Vivadent for providing the functional monomers and the Ca-monomer salts.",

year = "2011",

month = may,

doi = "10.1177/0022034510397197",

language = "English",

volume = "90",

pages = "602--606",

journal = "Journal of Dental Research",

issn = "0022-0345",

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AU - Yoshihara, Kumiko

AU - Yoshida, Y.

AU - Hayakawa, S.

AU - Nagaoka, N.

AU - Torii, Y.

AU - Osaka, A.

AU - Suzuki, K.

AU - Minagi, S.

AU - Van Meerbeek, B.

AU - Van Landuyt, K. L.

N1 - Funding Information: This research has been supported by Grants-in-Aid for Scientific Research from the Ministry of Education, Science, Sports and Culture of Japan, and by a FWO (G.0206.07) and K.U. Leuven grant (OT/06/55). K.L. Van Landuyt has been appointed as Post-doctoral Research Fellow for Scientific Research of Flanders. We thank Ivoclar Vivadent for providing the functional monomers and the Ca-monomer salts.

PY - 2011/5

Y1 - 2011/5

N2 - Previous research, in which the bonding effectiveness of the 3 self-etch monomers HAEPA, EAEPA, and MAEPA was determined, showed that MAEPA was most effective. In this study, the molecular interactions of these monomers with hydroxyapatite and dentin were investigated by combining x-ray diffraction, infrared spectroscopy, and scanning electron microscopy. We tested the null hypothesis that the bonding performance of these monomers does not correlate to the formation of monomer-calcium salts and to hydrolytic stability of these monomer-calcium complexes. Monomer/ ethanol/water solutions were prepared and applied to synthetic hydroxyapatite and dentin. While HAEPA and EAEPA dissolved dentin considerably and deposited unstable calcium-phosphate salts (DCPD), MAEPA formed hydrolysis-resistant monomer-calcium salts that remained attached to the dentin surface even after being washed. The chemical stability of the monomer-Ca salts was thought to contribute in particular to the bond durability, but this study shows that the formation of stable monomer-calcium salts also enhances the 'immediate' bonding performance of self-etch adhesives.

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KW - XRD

KW - adhesion

KW - adhesive

KW - functional monomer

KW - monomer-calcium salt

KW - phosphonate

KW - self-etch

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Self-etch monomer-calcium salt deposition on dentin

Abstract

Keywords

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