Effect of the lingual margin configuration on the fracture strength of class IV resin based composite restorations under static loading

Garcia Martinez, Nubia Carolina

01 July 2015

Resin-based composite for Class IV restoration is a conservative alternative for maxillary incisor fracture. Little is known about the effect of lingual margin configurations on the longevity of these restorations. This in vitro experiment compared the mean fracture strength among four lingual margin configurations (butt joint, 45° bevel, 60° bevel and chamfer) for Class IV resin-based composite restorations. A total sample size of n=100 human extracted lower incisors were selected, then the teeth were randomly assigned to one of the four lingual margin configuration groups (n=25) and restored with resin-based composite. After thermocycling (5000 cycles, 5°C-55°C with 30 seconds dwell time), they were subjected to inter-incisal static load (135° angulation) until failure (N). Failure mode was determined. In vitro fracture strength was compared among the four groups using one-way ANOVA at alpha=0.05. Mean standard deviation of fracture strength and frequency distribution of failure modes were reported. Results revealed no significant effect on the fracture strength for the type of lingual margin configurations (F(3,96)=0.13; p=0.9435). The data showed that 71% of failure modes resulted in complete tooth fracture (intact restoration), 11% in total adhesive failure, 7% in adhesive only facial, 6% in total cohesive, 4% in cohesive only facial, 1% in avulsion. Fischer’s exact test revealed no statistically significant association (p>0.05) between the margin configurations and failure modes. Within the limitations of this study, it can be concluded that any of the four lingual margin configurations are acceptable in Class IV preparation in terms of fracture strength under static load.

publicabstract

Bevels

Class IV preparations

Fracture Strength

Margin configuration

Resin-based composites

Other Dentistry

A comparison of gingival marginal adaptation and surface microhardness of class II resin based composites (conventional and bulk fill) placed in layering versus bulk fill techniques

Abouelnaga, Mohamed Ahmed Anis

01 July 2014

No description available.

Bulk Fill Resin Based Composites

Conventional Resin Based Composite

Dentistry

Operative

Other Dentistry

Thermoanalytical Investigations on the Influence of Storage Time in Water of Resin-Based CAD/CAM Materials

Rosentritt, Martin, Schneider-Feyrer, Sibylle, Strasser, Thomas, Koenig, Andreas, Schmohl, Leonie, Schmidt, Alois

02 May 2023

New resin-based composites and resin-infiltrated ceramics are used to fabricate computer-aided design (CAD) and computer-aided manufacturing (CAM)-based restorations, although little information is available on the long-term performance of these materials. The aim of this investigation was to determine the effects of storage time (24 h, 90 days, 180 days) on the thermophysical properties of resin-based CAD/CAM materials. Thermogravimetric Analysis (TGA), differential scanning calorimetry (DSC) and dynamic mechanical analysis (DMA) were used in the study. TGA provided insight into the composition of the resin-based materials and the influence of internal plasticization and water sorption. Resin-based composites showed different decomposition, heat energy and mechanical behavior, which was influenced by storage time in water. Individual materials such as Grandio bloc showed lower influence of water storage while maintaining good mechanical properties.

info:eu-repo/classification/ddc/570

ddc:570