Long-term nanomechanical properties and gelatinolytic activity of titanium tetrafluoride-treated adhesive dentin interface

Long-term nanomechanical properties and gelatinolytic activity of titanium tetrafluoride-treated adhesive dentin interface

•TiF4 did not affect the nanomechanical properties of dentin–resin interface.•The underlying dentin showed significant degradation after 6 months of storage time.•TiF4 did not inhibit gelatinolytic activity at the adhesive–dentin interfaces over time.•The gelatinolytic activity at the interfaces was...

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Bibliographic Details
Published in:Dental materials Vol. 35; no. 10; pp. 1471 - 1478
Main Authors: Bridi, Enrico Coser, Leme-Kraus, Ariene Arcas, Basting, Roberta Tarkany, Bedran-Russo, Ana Karina
Format: Journal Article
Language:English
Published: England Elsevier Inc 01-10-2019
Elsevier BV
Subjects:
Adhesion tests
Adhesives
Composite Resins
Dental Bonding
Dental Cements
Dental restorative materials
Dentin
Dentin-Bonding Agents
Dentistry
Etching
Fluorescein
Fluorides
Gelatin
Hardness
Humans
Hybrid layer
In situ zymography
Interfaces
Materials Testing
Modulus of elasticity
Nanohardness
Nanoindenters
Pretreatment
Properties (attributes)
Reduced modulus of elasticity
Resin Cements
Resins
Statistical analysis
Surface Properties
Tensile Strength
Titanium
Titanium tetrafluoride
Variance analysis
Titanium tetrafluoride
Hardness
Reduced modulus of elasticity
Hybrid layer
In situ zymography
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Summary:•TiF4 did not affect the nanomechanical properties of dentin–resin interface.•The underlying dentin showed significant degradation after 6 months of storage time.•TiF4 did not inhibit gelatinolytic activity at the adhesive–dentin interfaces over time.•The gelatinolytic activity at the interfaces was higher after 6 month for all the groups. This study investigated the effects of dentin pretreatment with 2.5% titanium tetrafluoride (TiF4) on nanomechanical properties, and the in situ gelatinolytic activity of the dentin–resin interface, for up to 6 months. Twenty-four human teeth were prepared by exposing occlusal flat dentin surfaces, and were randomly assigned to experimental groups, according to application or non-application of a TiF4 pretreatment, and to the adhesive systems (Clearfil SE Bond or Scotchbond Universal). Resin composite (Filtek Supreme Ultra) was built up incrementally on the teeth in all the groups. Then, the specimens were sectioned and randomly selected for evaluation at 24h, 3 months and 6 months of storage time. The reduced modulus of elasticity (Er) and the nanohardness of the underlying dentin, as well as the hybrid layer and the adhesive layer were measured using a nanoindenter. Gelatinolytic activity at the dentin–resin interfaces was assessed by in situ zymography using quenched fluorescein-conjugated gelatin at 24h and 6 months. Statistical analyses were performed with ANOVA and Tukey’s tests. There were no differences in Er and nanohardness values between adhesives systems and pretreatment (p=0.1250). In situ zymography showed significantly higher gelatinolytic activity after 6 months for all the experimental groups (p=0.0004), but no differences between the adhesive systems (p=0.7708) and the surface pretreatment (p=0.4877). Significance: Dentin pretreatment with 2.5% TiF4 followed by self-etching adhesive systems did not influence nanomechanical properties or gelatinolytic activity of the adhesive–dentin interface layers, over time.
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ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2019.07.016