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Effects of the Incorporation of Bioactive Particles on Physical Properties, Bioactivity and Penetration of Resin Enamel Infiltrant

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Author(s):
Souza, Ana Ferreira ; Souza, Marina Trevelin ; Damasceno, Janaina Emanuela ; Ferreira, Paulo Vitor Campos ; de Cerqueira, Gabriela Alves ; Aguiar, Flavio Henrique Baggio ; Marchi, Giselle Maria
Total Authors: 7
Document type: Journal article
Source: CLINICAL COSMETIC AND INVESTIGATIONAL DENTISTRY; v. 15, p. 13-pg., 2023-01-01.
Abstract

Purpose: The resinous infiltrant lacks remineralizing activity. This research aimed to develop and evaluate bioactivity, physico-mechanical properties and penetration of resin infiltrants containing Biosilicate or nanohydroxyapatite. Methods: Experimental resin infiltrant (ERI; 75/25 wt.% TEGDMA/BisEMA) was divided among the groups Pure Experimental (PE); ERI + Biosilicate 5 or 10% (Bio5; Bio10), ERI + 10% nanohydroxyapatite (Hap10), and Icon (DMG, Germany). Bioactivity was analyzed by SEM, EDS and FT-IR/ATR after soaking in SBF. Degree of conversion (DC), sorption and solubility (SO; SOL), flexural strength, modulus of elasticity (FS; E-modulus), contact angle (CA) and penetration were characterized. Extent of penetration was analyzed by treating white spot lesions (WSL) in human dental enamel samples with the infiltrants and subsequently analyzing specimens by confocal laser scanning microscopy. Data from each test were submitted to ANOVA and Tukey's tests (p < 0.01). Results: SEM, EDS and FT-IR showed the formation of precipitates and increase in the rates of Ca and P in the groups with bioactive particles, after storage in SBF. Hap10 showed higher DC and CA values than all the other groups. Groups Bio5 and Bio10 showed CA values similar to those of Icon, higher SO and SOL values, and reduction in other properties. All infiltrants were capable of penetrating into the WSLs. Conclusion: The incorporation of Biosilicate (5 or 10%) or nanohydroxyapatite (10%) into ERI induced mineral deposition on the surface and did not compromise infiltration and penetration into WSLs, however, compromising their physico-mechanical properties. (AU)

FAPESP's process: 19/25093-8 - Evaluation of physicochemical properties of resin infiltrants
Grantee:Giselle Maria Marchi
Support Opportunities: Regular Research Grants
FAPESP's process: 19/11850-1 - Effect of the incorporation of biosilicate and hydroxyapatite on experimental resin infiltrant
Grantee:Ana Ferreira Souza
Support Opportunities: Scholarships in Brazil - Master