Viscosity modulation of resin composites versus hand application on internal adaptation of restorations

Adrielle Caroline Moreira Andrade; Amanda Acioli Trennepohl; Sabrina Elise Moecke; Alessandra Bühler Borges; Carlos Rocha Gomes Torres

doi:10.1007/s00784-022-04452-7

Viscosity modulation of resin composites versus hand application on internal adaptation of restorations

Clin Oral Investig. 2022 Jul;26(7):4847-4856. doi: 10.1007/s00784-022-04452-7. Epub 2022 Mar 21.

Authors

Adrielle Caroline Moreira Andrade¹, Amanda Acioli Trennepohl¹, Sabrina Elise Moecke¹, Alessandra Bühler Borges¹, Carlos Rocha Gomes Torres²

Affiliations

¹ Department of Restorative Dentistry, Institute of Science and Technology, Sao Paulo State University - UNESP, Av. Eng. Francisco Jose Longo, 777, Sao Jose dos Campos, São Paulo, Zip code: 12245-000, Brazil.
² Department of Restorative Dentistry, Institute of Science and Technology, Sao Paulo State University - UNESP, Av. Eng. Francisco Jose Longo, 777, Sao Jose dos Campos, São Paulo, Zip code: 12245-000, Brazil. carlos.rg.torres@unesp.br.

PMID: 35314890
DOI: 10.1007/s00784-022-04452-7

Abstract

Objective: To compare the effect of the injection of viscosity modulated resin composites versus hand application without modulation, on the internal adaptation of different material to the gingival wall of class II preparations.

Materials and methods: Class II cavities were created on mesial and distal surfaces of 60 extracted human molars, resulting on 120 tooth preparations (n = 120). The preparations were restored with four resin composites: VIS-VisCalor (Voco); GRA-GrandioSO (Voco); FIL-Filtek One Bulk Fill (3 M/ESPE); and SON-SonicFill (Kerr). Each composite was applied by two different techniques: by hand (H) or assisted (A). For the hand technique, the material was placed into the preparation using a spatula. For the assisted technique, the resin composite was heated up to 65 °C (for VIS, GRA, and FIL) or sonicated (for SON) and injected into the preparation. After the restorative procedures, the teeth were completely demineralized to allow the restoration removal. The total area of the gingival wall and the area occupied by interfacial defects of adaptation (TDA) were measured by optical microscopy and digital software. The percentage of the area occupied by the defects (%TDA) in relation to the total area was calculated. The data were analyzed by two-way ANOVA and Tukey tests.

Results: Significant differences were observed for the application technique (p = 0.0403) and for the materials (p = 0.0184), as well for the interaction between them (p = 0.0452). The mean (standard deviation) of %TDA and results of Tukey test for the interaction were as follows: SON/H - 1.04(0.75)a; VIS/A - 2.01(0.92)a; VIS/H - 3.62(0.99)b; GRA/A - 6.23(3.32)b; FIL/H - 7.45(3.31)bc; GRA/H - 9.21(4.53)c; SON/A - 11.26(4.04)a; FIL/A - 17.89(5.08)d.

Conclusion: The injection of heated resin composites improves the adaptation to the walls in relation to the hand technique for VisCalor and GrandioSO but worsens for Filtek One. Sonic vibration increases the number of interfacial defects for SonicFill.

Clinical relevance: The physical modulation of the resin composite viscosity can improve or worsen the material adaptation to the walls of class II restoration. It had a positive impact for VisCalor and GrandioSO but a negative for Filtek One and SonicFill.

Keywords: Adaptation; Heat; Resin composite; Sonic; Viscosity; Voids.

MeSH terms

Composite Resins
Dental Caries*
Dental Restoration, Permanent* / methods
Humans
Materials Testing
Molar
Viscosity

Substances

Composite Resins