Effect of long-term storage on nanomechanical and morphological properties of dentin-adhesive interfaces

Rodolfo Bruniera Anchieta, Lucas Silveira Machado, Ana Paula Martini, Paulo Henrique Dos Santos, Marcelo Giannini, Malvin Janal, Nick Tovar, Renato Herman Sundfeld, Eduardo Passos Rocha, Paulo Coelho

Research output: Contribution to journalArticle

Abstract

Introduction To evaluate the influence of storage time on the elastic modulus, micromorphology, nanoleakage, and micromechanical behavior of the dentin-adhesive interfaces of five adhesive systems (Scotchbond Multi-Purpose, Clearfil SE Bond, One Up Bond F, Adper Easy One, and Filtek LS Adhesive) after 24 h (T0) and 12 months (T1). Methods Fifty teeth were restored and distributed according to each adhesive system (n = 10). At least four specimens were obtained from each tooth. One specimen was evaluated under SEM to obtain the micromorphology of dentin-adhesive interface (DAI). Two specimens were used to assess nanoleakage, one tested in T0 and the other in T1. The last specimen was used for nanoindentation, in T0 and T1, to obtain the initial and final mechanical properties of DAI structures. Two non-restored teeth were evaluated under SEM to obtain the dentin morphology. Laboratorial data were used to build 15 finite element models to assess the maximum principal stress in each time of analysis. Results Storage resulted in hydrolysis of the dentin-adhesive interfaces for all groups. Silver impregnation increased for all groups after 1 year storage (p <.05), except for Clearfil SE Bond. In general, a decrease in elastic modulus values was observed for all groups from T0 to T1 (p <.05), mainly at the hybrid layer. The FEAs showed higher stress levels at T1 than T0 simulations for all adhesives. Conclusion At T1, degradation occurred at the dentin-adhesive interface formed by all adhesives, and the intensity of degradation differed depending on the type of adhesive system used. The interface formed by the self-etching primer containing the 10-MDP functional monomer showed the highest stability among the adhesive systems after 12 months of storage.

Original languageEnglish (US)
Pages (from-to)141-153
Number of pages13
JournalDental Materials
Volume31
Issue number2
DOIs
StatePublished - Feb 1 2015

Fingerprint

Dentin
Adhesives
Tooth
Elastic Modulus
Elastic moduli
Degradation
Scanning electron microscopy
Nanoindentation
Silver
Impregnation
Etching
Hydrolysis
Monomers
Finite element method
Mechanical properties

Keywords

  • Dentin
  • Dentin-adhesive interface
  • Hybrid layer
  • Hydrolytic degradation
  • Mechanical properties

ASJC Scopus subject areas

  • Dentistry(all)
  • Materials Science(all)
  • Mechanics of Materials

Cite this

Anchieta, R. B., Machado, L. S., Martini, A. P., Dos Santos, P. H., Giannini, M., Janal, M., ... Coelho, P. (2015). Effect of long-term storage on nanomechanical and morphological properties of dentin-adhesive interfaces. Dental Materials, 31(2), 141-153. https://doi.org/10.1016/j.dental.2014.11.010

Effect of long-term storage on nanomechanical and morphological properties of dentin-adhesive interfaces. / Anchieta, Rodolfo Bruniera; Machado, Lucas Silveira; Martini, Ana Paula; Dos Santos, Paulo Henrique; Giannini, Marcelo; Janal, Malvin; Tovar, Nick; Sundfeld, Renato Herman; Rocha, Eduardo Passos; Coelho, Paulo.

In: Dental Materials, Vol. 31, No. 2, 01.02.2015, p. 141-153.

Research output: Contribution to journalArticle

Anchieta, RB, Machado, LS, Martini, AP, Dos Santos, PH, Giannini, M, Janal, M, Tovar, N, Sundfeld, RH, Rocha, EP & Coelho, P 2015, 'Effect of long-term storage on nanomechanical and morphological properties of dentin-adhesive interfaces', Dental Materials, vol. 31, no. 2, pp. 141-153. https://doi.org/10.1016/j.dental.2014.11.010
Anchieta, Rodolfo Bruniera ; Machado, Lucas Silveira ; Martini, Ana Paula ; Dos Santos, Paulo Henrique ; Giannini, Marcelo ; Janal, Malvin ; Tovar, Nick ; Sundfeld, Renato Herman ; Rocha, Eduardo Passos ; Coelho, Paulo. / Effect of long-term storage on nanomechanical and morphological properties of dentin-adhesive interfaces. In: Dental Materials. 2015 ; Vol. 31, No. 2. pp. 141-153.
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AU - Anchieta, Rodolfo Bruniera

AU - Machado, Lucas Silveira

AU - Martini, Ana Paula

AU - Dos Santos, Paulo Henrique

AU - Giannini, Marcelo

AU - Janal, Malvin

AU - Tovar, Nick

AU - Sundfeld, Renato Herman

AU - Rocha, Eduardo Passos

AU - Coelho, Paulo

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N2 - Introduction To evaluate the influence of storage time on the elastic modulus, micromorphology, nanoleakage, and micromechanical behavior of the dentin-adhesive interfaces of five adhesive systems (Scotchbond Multi-Purpose, Clearfil SE Bond, One Up Bond F, Adper Easy One, and Filtek LS Adhesive) after 24 h (T0) and 12 months (T1). Methods Fifty teeth were restored and distributed according to each adhesive system (n = 10). At least four specimens were obtained from each tooth. One specimen was evaluated under SEM to obtain the micromorphology of dentin-adhesive interface (DAI). Two specimens were used to assess nanoleakage, one tested in T0 and the other in T1. The last specimen was used for nanoindentation, in T0 and T1, to obtain the initial and final mechanical properties of DAI structures. Two non-restored teeth were evaluated under SEM to obtain the dentin morphology. Laboratorial data were used to build 15 finite element models to assess the maximum principal stress in each time of analysis. Results Storage resulted in hydrolysis of the dentin-adhesive interfaces for all groups. Silver impregnation increased for all groups after 1 year storage (p <.05), except for Clearfil SE Bond. In general, a decrease in elastic modulus values was observed for all groups from T0 to T1 (p <.05), mainly at the hybrid layer. The FEAs showed higher stress levels at T1 than T0 simulations for all adhesives. Conclusion At T1, degradation occurred at the dentin-adhesive interface formed by all adhesives, and the intensity of degradation differed depending on the type of adhesive system used. The interface formed by the self-etching primer containing the 10-MDP functional monomer showed the highest stability among the adhesive systems after 12 months of storage.

AB - Introduction To evaluate the influence of storage time on the elastic modulus, micromorphology, nanoleakage, and micromechanical behavior of the dentin-adhesive interfaces of five adhesive systems (Scotchbond Multi-Purpose, Clearfil SE Bond, One Up Bond F, Adper Easy One, and Filtek LS Adhesive) after 24 h (T0) and 12 months (T1). Methods Fifty teeth were restored and distributed according to each adhesive system (n = 10). At least four specimens were obtained from each tooth. One specimen was evaluated under SEM to obtain the micromorphology of dentin-adhesive interface (DAI). Two specimens were used to assess nanoleakage, one tested in T0 and the other in T1. The last specimen was used for nanoindentation, in T0 and T1, to obtain the initial and final mechanical properties of DAI structures. Two non-restored teeth were evaluated under SEM to obtain the dentin morphology. Laboratorial data were used to build 15 finite element models to assess the maximum principal stress in each time of analysis. Results Storage resulted in hydrolysis of the dentin-adhesive interfaces for all groups. Silver impregnation increased for all groups after 1 year storage (p <.05), except for Clearfil SE Bond. In general, a decrease in elastic modulus values was observed for all groups from T0 to T1 (p <.05), mainly at the hybrid layer. The FEAs showed higher stress levels at T1 than T0 simulations for all adhesives. Conclusion At T1, degradation occurred at the dentin-adhesive interface formed by all adhesives, and the intensity of degradation differed depending on the type of adhesive system used. The interface formed by the self-etching primer containing the 10-MDP functional monomer showed the highest stability among the adhesive systems after 12 months of storage.

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KW - Hydrolytic degradation

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