Marginal integrity in minimally invasive molar resin composite restorations: Impact of polymerization shrinkage
Open access
Datum
2024-07Typ
- Journal Article
ETH Bibliographie
yes
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Abstract
Objectives: This study utilized non-linear finite element (FE) models to explore polymerization shrinkage and its impact on marginal integrity in molars following both selective caries removal (SCR) and conventional treatment. Specifically, we performed 2D in silico simulations to study residual stresses post-resin polymerization shrinkage and their influence on the marginal integrity of various restoration types. Methods: Initially, FE models were developed based on a cohesive zone framework to simulate crack propagation along the bonded interfaces between restoration and tooth structure in SCR-treated molars with class I and class II restorations. The modeled resin composite restorations first underwent polymerization shrinkage and were then subjected to various occlusal loading conditions. Stress magnitudes and distributions were identified to evaluate the margin integrity and predict the mechanism and location of interfacial failure. Results and discussion: The FE models computed polymerization shrinkage stresses of less than 1 MPa, exerting a minor influence on the composite/tooth interface. Occlusal loading, however, significantly impacted the load-bearing capacity of the composite/tooth (c/t) interface, potentially jeopardizing the restoration integrity. Especially under bi-axial occlusal loading, interfacial debonding occurred in the vertical cavity walls of the class I restorations, increasing the risk of failure. Notably, SCR-treated teeth exhibited better margin integrity than restored teeth after complete caries removal (NCR). These findings provide valuable insights into the mechanical behavior of SCR-treated teeth under different loading conditions and highlight the importance of considering the load scenarios that may lead to failure at the c/t interface. By investigating the factors influencing crack initiation and delamination, this novel research contributes to the optimization of restorative treatments and aids in the design of more resilient dental restorations. Mehr anzeigen
Persistenter Link
https://doi.org/10.3929/ethz-b-000671313Publikationsstatus
publishedExterne Links
Zeitschrift / Serie
Journal of the Mechanical Behavior of Biomedical MaterialsBand
Seiten / Artikelnummer
Verlag
ElsevierThema
Selective caries removal; Tooth-restoration marginal integrity; Polymerization shrinkage; Minimally invasive dentistry; Nonlinear finite element modeling; Failure/crack modelingETH Bibliographie
yes
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