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VOLUME 16 , ISSUE S3 ( November, 2023 ) > List of Articles

ORIGINAL RESEARCH

Comparative Evaluation of Shear Bond Strength of Tricalcium Silicate-based Materials to Composite Resin with Two Different Adhesive Systems: An In Vitro Study

Vikrant Kumar, Insha Showkat, Naveen Manuja, Seema Chaudhary, Ashish A Sinha, Chaitra R Telgi

Keywords : Biodentine, Mineral trioxide aggregate, Mineral trioxide aggregate Plus, Self-etch adhesive, Shear bond strength, Total-etch adhesive

Citation Information :

DOI: 10.5005/jp-journals-10005-2687

License: CC BY-NC 4.0

Published Online: 11-01-2024

Copyright Statement:  Copyright © 2023; The Author(s).


Abstract

Background: Establishing a strong bond between the pulp capping agent and the restorative material is crucial to the success of the procedure. Without this bond, there is a risk of bacterial infiltration into the pulp, leading to treatment failure. In the past, calcium hydroxide was commonly used for such treatments, but it faced challenges, including poor adhesion to dentin, dissolution over time, and the development of multiple tunnel defects. Mineral trioxide aggregate (MTA), introduced to dentistry in 1993, offered an alternative but came with drawbacks like challenging handling and extended setting times. However, in recent times, several new calcium silicate-based materials have emerged to address MTA's limitations. Two notable examples are Biodentine and MTA Plus. Biodentine, for instance, exhibits excellent sealing ability, while MTA Plus distinguishes itself with a finer particle size compared to traditional MTA. These innovative materials offer promising solutions to enhance the efficacy of pulp capping procedures. Aim: Therefore, in this research, we conducted a comparative analysis of the shear bond strength (SBS) between composite resin and three materials—MTA, MTA Plus, and Biodentine. We examined the effects of applying two distinct adhesive systems in order to evaluate their influence on the bond strength. Materials and methods: A total of 60 acrylic blocks were evenly distributed into three groups, each containing 20 blocks—group I received Biodentine, group II was assigned MTA, and group III received MTA Plus. The respective test materials were compacted into the holes within the blocks. Following this, the samples were incubated for a period of 72 hours. Subsequently, the samples were divided into two subgroups, each consisting of 10 blocks—the self-etch and the total-etch subgroup. The SBS values were then carefully measured for analysis. Result: The SBS of the Biodentine group demonstrated a significantly higher value when compared to the other groups. It's worth noting that when the self-etch adhesive system was employed, the SBS of all the groups experienced a significant reduction. Conclusion: Biodentine cement proves to be an effective choice for pulp capping procedures, regardless of the specific adhesive system employed. Notably, the total-etch adhesive system consistently yields higher bond strength when compared to the self-etch adhesive system.

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