Influence of margin design and restorative material on the stress distribution of endocrowns: a 3D finite element analysis

Zheng, Zhi; Sun, Jieli; Jiang, Lifang; Wu, Yuan; He, Jiahui; Ruan, Wenhao; Yan, Wenjuan

doi:10.1186/s12903-022-02063-y

Cited by 24 publications

(25 citation statements)

References 41 publications

(61 reference statements)

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“…Restoration materials should have a modulus of elasticity similar to dentin (17.8 GPa) to create a homogeneous stress distribution and reduce the incidence of root fracture. 7,12,40,41 The results showed the stress concentration on polyethylene fiber-reinforced composite restorations did not exceed the strength of the materials. E-glass fiber has an elastic modulus of 8.87 GPa.…”

Section: Discussionmentioning

confidence: 97%

“…7,8,10,11 Stress analysis due to masticatory forces can be performed by using the finite element method (FEM) to identify highstress concentrations that result in restoration failure. 12 The advantages of FEM are reduced research time and costs, as well as provide an overview of a new scientific concept to clinical application, by carrying out the virtual test under measured and conceivable loading conditions. 13 This study aims to determine the stress distribution of fiber-reinforced composite by adding fiber bidirectional made of polyethylene and e-glass on ETT mandibular molar without mesial and lingual walls using the finite element method…”

Section: Introductionmentioning

confidence: 99%

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Stress Analysis on Mesiolingual Cavity of Endodontically Treated Molar Restored Using Bidirectional Fiber-Reinforced Composite (Wallpapering Technique)

Neri,

Aripin,

Muryani

et al. 2024

CCIDE

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Introduction: Endodontically treated teeth (ETT) undergo extensive structure change and experience high stress during biomechanical function. Stress distribution is influenced by the restoration material and the type of bond between material and tooth structure. The selection of materials that can distribute stress will affect the resistance and retention of ETT to mastication forces, thus biomechanical functions were achieved. Composite has mechanical properties similar to dentin, it can transmit and distribute stresses throughout the tooth surface. The disadvantage of composites in large cavities is their lack of toughness. The addition of fiber to composites can increase their toughness.Purpose: This research is to determine the stress distribution of a fiber-reinforced composite made of polyethylene and e-glass on the mesiolingual cavity of ETT. Materials and Methods: A three-dimensional model of the mandibular molar was prepared for cavity preparation and the formation of restorations using SolidWorks 2021. The models were analyzed with Abaqus 2020 to determine stress concentrations after given vertical and oblique loading. Results: The maximum and minimum principal stress data were obtained to assess material resistance and interfacial damage criterion. Polyethylene fiber shows a more homogeneous stress distribution because the modulus of elasticity is close to the dentin and has a thickness that can reduce the volume of the composite. The E-glass shows the stress concentration on the circumferential fiber and cavity floor. Conclusion:The stress distribution of fiber-reinforced composite on the buccolingual cavity of ETT using the finite element method did not show structural failure in the polyethylene group because the maximum and minimum principal stresses were lower than the strength of the material. Interfacial bond failure occurs at the enamel portion. The maximum and minimum principal values of e-glass indicate structural failure in the circumferential fiber and the base fiber because the stress exceeds the strength of the material. Interfacial bond failure occurred on the circumferential and the cavity floor.

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Section: Discussionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Stress Analysis on Mesiolingual Cavity of Endodontically Treated Molar Restored Using Bidirectional Fiber-Reinforced Composite (Wallpapering Technique)

Neri,

Aripin,

Muryani

et al. 2024

CCIDE

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“…Due to the location of the restoration within the chamber cavity, a possible irreparable fracture of the piece must also be taken into account in case of failure, for which an excessively Hard e can also pose a risk [21] . More solid materials with less flexibility will receive a greater stress load directly on the restoration itself [22] ; while those with a flexibility modulus similar to that of the tooth will distribute the forces in an equivalent way throughout the piece [23] . Although metallic materials can be used in this type of restoration, the predominant materials used are ceramics, in addition to current alternatives such as hybrid materials and CADCAM-machined composites.…”

Section: Materials Selectionmentioning

confidence: 99%

Indications for the use of endocrowns, design and selection of materials: Literature review

Zardoni¹,

Flores²,

Fierro³

et al. 2023

Int. J. Appl. Dent. Sci.

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Introduction: Endocrowns are a valuable rehabilitation option in dental pieces that have suffered extensive tissue loss, being retained to the internal portion of the pulp chamber through the use of adhesive cementation Objective: To carry out a review of the literature on the criteria endocrown use, preparation designs for this type of restoration and the selection of materials for this restoration. Methodology: A review was carried out in the Scopus, Pubmed and Scielo databases with the keywords "endocrown", "design", "fit", "materials", "restoration" Results: Within the best studied design criteria are at least 2 mm of occlusal reduction and extension towards the pulp chamber, elements such as a 1 mm splint and stabilization notches seem to improve performance. Lithium disilicate is the most widely used material, but hybrid ceramic and composite CADCAM blocks are promising. Materials such as zirconia or metal increase the risk of irreparable fracture. Conclusion:Knowing the design criteria supported by evidence, as well as an adequate selection of materials, makes the endocrown a valuable restorative option.

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“…Recommendations for the preparation design include a depth of 3 mm for the central retention cavity with a divergence angle of 6–12° for more homogenous stress distribution (Abtahi et al, 2022 ; Tribst et al, 2021 ). The cervical margin width should be at least 2 mm, and prepared flat or slightly bevelled (Zheng et al, 2022 ).…”

Section: Endocrownsmentioning

confidence: 99%

Present status and future directions: The restoration of root filled teeth

et al. 2022

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This narrative review will focus on a number of contemporary considerations relating to the restoration of root filled teeth and future directions for research. Clinicians are now more than ever, aware of the interdependence of the endodontic and restorative aspects of managing root filled teeth, and how these aspects of treatment are fundamental to obtaining the best long-term survival. To obtain the optimal outcomes for patients, clinicians carrying out endodontic treatment should have a vested interest in the restorative phase of the treatment process, as well as an appreciation for the structural and biomechanical effects of endodontic-restorative procedures on restoration and tooth longevity. Furthermore, the currently available research, largely lacks appreciation of occlusal factors in the longevity of root filled teeth, despite surrogate outcomes demonstrating the considerable influence this variable has.Controversies regarding the clinical relevance of minimally invasive endodontic and restorative concepts are largely unanswered with respect to clinical data, and it is therefore, all too easy to dismiss these ideas due to the lack of scientific evidence.However, conceptually, minimally invasive endodontic-restorative philosophies appear to be valid, and therefore, in the pursuit of improved clinical outcomes, it is important that the efficacies of these treatment protocols are determined. Alongside an increased awareness of the preservation of tooth structure, developments in adhesive bonding, ceramic materials and the inevitable integration of digital dentistry, there is also a need to evaluate the efficacy of new treatment philosophies and techniques with well-designed prospective clinical studies.

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Influence of margin design and restorative material on the stress distribution of endocrowns: a 3D finite element analysis

Cited by 24 publications

References 41 publications

Stress Analysis on Mesiolingual Cavity of Endodontically Treated Molar Restored Using Bidirectional Fiber-Reinforced Composite (Wallpapering Technique)

Stress Analysis on Mesiolingual Cavity of Endodontically Treated Molar Restored Using Bidirectional Fiber-Reinforced Composite (Wallpapering Technique)

Indications for the use of endocrowns, design and selection of materials: Literature review

Present status and future directions: The restoration of root filled teeth

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