Influence of different base materials and thicknesses on the fracture resistance of endocrown: A three-dimensional finite element analysis

Introduction To analyze the stress distribution of the all-ceramic endocrown with different base materials and thicknesses using three-dimensional finite element analysis. Methods A endodontically treated maxillary premolar was scanned by micro-CT, a three-dimensional finite element model of the end...

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Bibliographic Details
Published in:BMC oral health 2022-08, Vol.22 (1), p.1-363, Article 363
Main Authors: Cheng, Xia, Zhang, Xiu-yin, Qian, Wen-hao
Format: Article
Language:English
Subjects:
Alveolar bone
Base materials
Cement
Composite materials
Computed tomography
Crowns (Dentistry)
Enamel
Endocrown
Endodontics
Finite element analysis
Finite element method
Fractures
Mechanical loading
Mechanical properties
Methods
Nanocomposites
Patient outcomes
Physiological aspects
Prevention
Software
Stress
Teeth
Three-dimensional finite element analysis
Tooth fractures
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Summary:Introduction To analyze the stress distribution of the all-ceramic endocrown with different base materials and thicknesses using three-dimensional finite element analysis. Methods A endodontically treated maxillary premolar was scanned by micro-CT, a three-dimensional finite element model of the endocrown with fluid resin as the base material was divided into control (0 mm), 1 mm, 2 mm, and 3 mm groups according to base thickness. Three kinds of conventional base materials were used and divided into glass ion group (A), fluid resin group (B), and nanocomposite resin group (C), and a three-dimensional finite element model of the endocrown with 1.0 mm thickness of base was established. A static loading with axial and 45[degrees] direction was applied to each model, the stress distribution of each part of the endocrown was analyzed under different base materials and thicknesses. Results The different thickness of the base layer has an influence on the components of the restoration and the tooth. The stress in the control group was the largest. The stress was the lowest when the thickness of the base layer was 1 mm; The maximum of the equivalent stress, the first, second, and third principal stress in the endocrown, abutment, and alveolar bone, are basically the same with the different base materials. The stress on the base layer increases with the elastic modulus of base materials increases. Conclusions The base layer played a force buffering effect on the dental body restored with endocrowns, and the effect was the best at 1 mm; The selection of base material has little influence on the whole, but in order to protect the weak tissues of the cavity bottom, the base material with lower elastic modulus can be used. Keywords: Endocrown, Base materials, Three-dimensional finite element analysis, Stress
ISSN:1472-6831
1472-6831
DOI:10.1186/s12903-022-02350-8