Nanoleakage types and potential implications

evidence from unfilled and filled adhesives with the same resin composition.

Franklin Chi Meng Tay, David Henry Pashley, Cynthia Yiu, Celine Cheong, Masanori Hashimoto, Kousuke Itou, Masahiro Yoshiyama, Nigel M. King

Research output: Contribution to journalArticle

41 Citations (Scopus)

Abstract

PURPOSE: To compare nanoleakage patterns of an unfilled (OS; One-Step), a 6 wt% spherical silica-filled (OSs; One-Step Plus) and a 15 wt% glass-filled (OSg) version of a two-step, acetone-based self-priming adhesive. Permeability of bonded dentin treated with OS and OSs was also examined. METHODS: Deep, coronal dentin from extracted third molars were etched and bonded using these adhesives. One-mm thick sections were immersed in 50 wt% ammoniacal silver nitrate (pH 9.5) for 24 hours. Unstained, undemineralized sections were examined by TEM. The permeability of dentin bonded with OS and OSs were investigated at 20 cm of H2O hydrostatic pressure and compared with the osmotic conductance determined with 4.8 M CaCl2 at zero hydrostatic pressure. Composite-dentin beams bonded with OS, OSs and OSg that were fractured after microtensile bond testing were examined by SEM. RESULTS: Two types of nanoleakage patterns were recognized along the resin-dentin interfaces. The reticular type consisted of discontinuous islands of silver deposits and was exclusively seen in hybrid layers. The spotted type consisted of isolated silver grains and was evident throughout the hybrid and adhesive layers in OS. These two patterns were seen to variable extents in the two filled adhesive versions OSs and OSg and their distribution was independent of one another. OS and OSs bonded dentin were permeable to fluid filtration. However, part of this fluid movement was due to the permeability of the adhesive layer, as demonstrated by osmotic fluid conductance in the absence of hydrostatic pressure. Fractographic analysis revealed denuded collagen fibrils within fractured hybrid layers that were indicative of incomplete resin infiltration.

Original languageEnglish (US)
Pages (from-to)182-190
Number of pages9
JournalAmerican Journal of Dentistry
Volume17
Issue number3
StatePublished - Jan 1 2004

Fingerprint

Adhesives
Dentin
Hydrostatic Pressure
Dentin Permeability
Silver
Silver Nitrate
Third Molar
Acetone
Islands
Silicon Dioxide
Glass
Permeability
Collagen

ASJC Scopus subject areas

  • Dentistry(all)

Cite this

Nanoleakage types and potential implications : evidence from unfilled and filled adhesives with the same resin composition. / Tay, Franklin Chi Meng; Pashley, David Henry; Yiu, Cynthia; Cheong, Celine; Hashimoto, Masanori; Itou, Kousuke; Yoshiyama, Masahiro; King, Nigel M.

In: American Journal of Dentistry, Vol. 17, No. 3, 01.01.2004, p. 182-190.

Research output: Contribution to journalArticle

Tay, FCM, Pashley, DH, Yiu, C, Cheong, C, Hashimoto, M, Itou, K, Yoshiyama, M & King, NM 2004, 'Nanoleakage types and potential implications: evidence from unfilled and filled adhesives with the same resin composition.', American Journal of Dentistry, vol. 17, no. 3, pp. 182-190.
Tay, Franklin Chi Meng ; Pashley, David Henry ; Yiu, Cynthia ; Cheong, Celine ; Hashimoto, Masanori ; Itou, Kousuke ; Yoshiyama, Masahiro ; King, Nigel M. / Nanoleakage types and potential implications : evidence from unfilled and filled adhesives with the same resin composition. In: American Journal of Dentistry. 2004 ; Vol. 17, No. 3. pp. 182-190.
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abstract = "PURPOSE: To compare nanoleakage patterns of an unfilled (OS; One-Step), a 6 wt{\%} spherical silica-filled (OSs; One-Step Plus) and a 15 wt{\%} glass-filled (OSg) version of a two-step, acetone-based self-priming adhesive. Permeability of bonded dentin treated with OS and OSs was also examined. METHODS: Deep, coronal dentin from extracted third molars were etched and bonded using these adhesives. One-mm thick sections were immersed in 50 wt{\%} ammoniacal silver nitrate (pH 9.5) for 24 hours. Unstained, undemineralized sections were examined by TEM. The permeability of dentin bonded with OS and OSs were investigated at 20 cm of H2O hydrostatic pressure and compared with the osmotic conductance determined with 4.8 M CaCl2 at zero hydrostatic pressure. Composite-dentin beams bonded with OS, OSs and OSg that were fractured after microtensile bond testing were examined by SEM. RESULTS: Two types of nanoleakage patterns were recognized along the resin-dentin interfaces. The reticular type consisted of discontinuous islands of silver deposits and was exclusively seen in hybrid layers. The spotted type consisted of isolated silver grains and was evident throughout the hybrid and adhesive layers in OS. These two patterns were seen to variable extents in the two filled adhesive versions OSs and OSg and their distribution was independent of one another. OS and OSs bonded dentin were permeable to fluid filtration. However, part of this fluid movement was due to the permeability of the adhesive layer, as demonstrated by osmotic fluid conductance in the absence of hydrostatic pressure. Fractographic analysis revealed denuded collagen fibrils within fractured hybrid layers that were indicative of incomplete resin infiltration.",
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AU - Tay, Franklin Chi Meng

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AU - Cheong, Celine

AU - Hashimoto, Masanori

AU - Itou, Kousuke

AU - Yoshiyama, Masahiro

AU - King, Nigel M.

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N2 - PURPOSE: To compare nanoleakage patterns of an unfilled (OS; One-Step), a 6 wt% spherical silica-filled (OSs; One-Step Plus) and a 15 wt% glass-filled (OSg) version of a two-step, acetone-based self-priming adhesive. Permeability of bonded dentin treated with OS and OSs was also examined. METHODS: Deep, coronal dentin from extracted third molars were etched and bonded using these adhesives. One-mm thick sections were immersed in 50 wt% ammoniacal silver nitrate (pH 9.5) for 24 hours. Unstained, undemineralized sections were examined by TEM. The permeability of dentin bonded with OS and OSs were investigated at 20 cm of H2O hydrostatic pressure and compared with the osmotic conductance determined with 4.8 M CaCl2 at zero hydrostatic pressure. Composite-dentin beams bonded with OS, OSs and OSg that were fractured after microtensile bond testing were examined by SEM. RESULTS: Two types of nanoleakage patterns were recognized along the resin-dentin interfaces. The reticular type consisted of discontinuous islands of silver deposits and was exclusively seen in hybrid layers. The spotted type consisted of isolated silver grains and was evident throughout the hybrid and adhesive layers in OS. These two patterns were seen to variable extents in the two filled adhesive versions OSs and OSg and their distribution was independent of one another. OS and OSs bonded dentin were permeable to fluid filtration. However, part of this fluid movement was due to the permeability of the adhesive layer, as demonstrated by osmotic fluid conductance in the absence of hydrostatic pressure. Fractographic analysis revealed denuded collagen fibrils within fractured hybrid layers that were indicative of incomplete resin infiltration.

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