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. 2022 Jun;23(1 Suppl):175-182.
doi: 10.30476/DENTJODS.2021.88737.1355.

Comparison the Effect of Bromelain Enzyme, Phosphoric Acid, and Polyacrylic Acid Treatment on Microleakage of Composite and Glass Ionomer Restorations

Farahnaz Sharafeddin  1 Paniz Moraveji  2
Affiliations

Comparison the Effect of Bromelain Enzyme, Phosphoric Acid, and Polyacrylic Acid Treatment on Microleakage of Composite and Glass Ionomer Restorations

Farahnaz Sharafeddin et al. J Dent (Shiraz). 2022 Jun.

Abstract

Statement of the problem: Resin modified glass-ionomer cement (RMGIC) shows low microleakage values. Bromelain enzyme is a deproteinizing agent with an anti-inflammatory effect in human body.Efective cavity treatment is an important factor in reduction of microleakage.

Purpose: The aim of this study was to determine the effectiveness of the deproteinizing aspect of 10% bromelain enzyme on the microleakage of RMGIC and composite restorations.

Materials and method: In this experimental study, 40 non-carious extracted human molar teeth were categorized in eight experimental groups (n=5). Standard class V cavities were prepared on the buccal and lingual surfaces of the teeth (n=10). The specimen were classified as Group 1, in which 20% polyacrylic acid (PAA) was applied on the teeth then treated with 10% bromelain enzyme; Group 2: 10% bromelain enzyme was applied; Group 3: 10% bromelain enzyme was applied and then treated with polyacrylic acid; Group 4: 20% polyacrylic acid was applied. Groups1 to 4 were restored with RMGIC (Fuji II LC, GC, Japan). Group 5: etched by 37% phosphoric acid and then treated by 10% bromelain; Group 6: 10% bromelain enzyme was applied without etching; Group 7: teeth were deproteinized with 10% bromelain enzyme and then etched with 37% phosphoric acid; and Group 8: cavities were etched with 37% phosphoric acid. In the groups 5 to 8, Adper single bond (3M, ESPE, USA) and filled with composite resin Z350 (3M, ESPE, USA). After thermocycling, the teeth were sectioned. Microleakage scores were measured using stereomicroscope (40×). Kruskal-Wallis and Mann-Whitney tests were used for data analysis. (p< 0.05).

Results: Statistical analysis did not show any significant difference in occlusal and gingival margin microleakage in glass ionomer groups (1-4) (occlusal p= 0.218, gingival p= 0.192). Kruskal-Wallis revealed significant difference in occlusal and gingival margin microleakage of Groups 5 to 8 (occlusal p= 0.006 and gingival p= 0.00). Group 5 demonstrated the lowest occlusal microleakage (occlusal mean=0.00).

Conclusion: Applying bromelain or polyacrylic acid did not affect the microleakage of glass ionomer filling. Due to the antinflamatory effects of bromelain, we suggest using it instead of PAA. Pretreatment of 10% bromelain enzyme after phosphoric acid significantly decreased microleakage in the occlusal and gingival margin of composite filling.

Keywords: Bromelain; Composite resin; Glass ionomer; Phosphoric acid; Polyacrylic acid.

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Conflict of interest statement

There are no conflicts of interest.

Figures

Figure 1
Figure 1
Microleakage scoring (×40): a: 0 = no dye penetration; b: 1= dye penetration up the one-half of the occlusal wall; 2= dye penetration extending beyond one- half of the distance but not reaching axial wall; and c: 3= axial wall dye penetration extending
Figure 2
Figure 2
Mean of microleakage scores
See this image and copyright information in PMC

References

    1. Sharafeddin F, Alavi AA, Siabani S, Safari M. Comparison of Shear Bond Strength of Three Types of Glass Ionomer Cements Containing Hydroxyapatite Nanoparticles to Deep and Superficial Dentin. J Dent Shiraz. 2020;21:132–140. - PMC - PubMed
    1. Sharafeddin F, Moradian M, Motamedi M. Evaluation of Shear Bond Strength of Methacrylate-and Silorane-based Composite Resin Bonded to Resin-Modified Glass-ionomer Containing Micro-and Nano-hydroxyapatite. J Dent Shiraz. 2016;17:142–148. - PMC - PubMed
    1. Sharafeddin F, Feizi N. Evaluation of the effect of adding micro-hydroxyapatite and nano-hydroxyapatite on the microleakage of conventional and resin-modified Glass-ionomer Cl V restorations. J Clin Exp Dent. 2017;9:e242–e248. - PMC - PubMed
    1. SharafeddinF, Azar MR, Feizi N, Salehi R. Evaluation of Surface Microhardness of Silver and Zirconia Reinforced Glass-ionomers with and without Microhydroxyapatite. J Dent Biomater. 2017;4:454–460.
    1. Sharafeddin F, Ghaboos SA, Jowkar Z. The effect of short polyethylene fiber with different weight percentages on diametral tensile strength of conventional and resin modified glass ionomer cements. J Clin Exp Dent. 2017;9:e466–e470. - PMC - PubMed

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