Litcius/Paper detail

Biomechanical properties of different endocrown designs on endodontically treated teeth

Yuting Huang, Wietske Fokkinga, Qian Zhang, N.H.J. Creugers, Qianzhou Jiang

2023Journal of the mechanical behavior of biomedical materials/Journal of mechanical behavior of biomedical materials13 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: To compare the biomechanical properties of different endocrown designs on endodontically treated teeth with an extensive defect in the mesial wall using a three-dimensional finite element method (3D FEM). METHODS: Four finite element analysis models were designed and built up based on different endocrown configurations in a mandibular molar. One model was designed as a butt joint preparation with 2 mm occlusal thickness(control), the other three models were butt joint designs with different distances between the bottom of the mesial wall preparation and the cemento-enamel junction (CEJ): 2 mm, 1 mm and 0 mm respectively. A vertical load parallel with the longitudinal axis of the tooth and an oblique load with a 45°angle to the longitudinal axis were applied to the occlusal surfaces. The maximum Von Misses (VM) stresses and stress distribution patterns were calculated and compared. Weibull risk-of-rupture analysis was used to analyze the survival probability of the restorations and tooth in the different models. RESULTS: For the restoration, the model with a mesial wall destruction at the level of CEJ showed much higher risk of failure than other models. Overall, none of the four models showed failure. Under oblique loading, VM stress in the cement layer of the models with a mesial wall defect was higher than in the control model. In the dentin, the highest VM stresses were found in the peri-cervical dentin. Under the oblique loading, the model with the mesial wall destruction at the level of CEJ restored by endocrown showed the highest risk of failure. CONCLUSION: Under the oblique loading, with the increase of the simulated defect in the mesial wall, the peak VM stress values in the cement layer increased accordingly. In the model with a mesial wall defect up to the level of CEJ risk of failure was highest in the cervical dentin.

Topics & Concepts

Materials scienceDentinOblique caseFinite element methodWeibull distributionStress (linguistics)MolarStructural engineeringEnamel paintComposite materialOrthodonticsMathematicsEngineeringMedicineStatisticsPhilosophyLinguisticsDental materials and restorationsEndodontics and Root Canal TreatmentsDental Erosion and Treatment