Influence of Cementation Mode and Ferrule Design on the Fatigue Resistance of Monolithic Zirconia Endocrowns

Stoilov, Milan; Boehmer, Tobias; Stoilov, Lea; Stark, Helmut; Marder, Michael; Enkling, Norbert; Kraus, Dominik

doi:10.3390/jcm13041165

JCM

2024

DOI: 10.3390/jcm13041165

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Influence of Cementation Mode and Ferrule Design on the Fatigue Resistance of Monolithic Zirconia Endocrowns

Milan Stoilov,

Tobias Boehmer,

Lea Stoilov

et al.

Abstract: Background: Classic endocrowns made of dental ceramics are considered a promising alternative to traditional post-endodontic restorations. The use of circular ferrules in endocrowns is a topic of controversial discussion. Therefore, the present study aims to evaluate the effect of ferrule design and cementation mode on the fatigue resistance of zirconia endocrowns. Methods: Eighty human molars were divided into four groups (n = 20): NFC (no-ferrule, conventional cementation), NFA (no-ferrule, adhesive luting),… Show more

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Effect of margin designs and loading conditions on the stress distribution of endocrowns: a finite element analysis

Zeng,

Luo,

et al. 2024

BMC Oral Health

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Background Margin designs and loading conditions can impact the mechanical characteristics and survival of endocrowns. Analyzing the stress distribution of endocrowns with various margin designs and loading conditions can provide evidence for their clinical application. Methods Three finite element analysis models were established based on the margin designs: endocrown with a butt-joint type margin (E0), endocrown with a 90° shoulder (E90), and endocrown with a 135° shoulder (E135). The E0 group involved lowering the occlusal surface and preparing the pulp chamber. The E90 group created a 90° shoulder on the margin of model E0, measuring 1.5 mm high and 1 mm wide. The E135 group featured a 135° shoulder. The solids of the models were in fixed contact with each other, and the materials of tooth tissue and restoration were uniform, continuous, isotropic linear elasticity. Nine static loads were applied, with a total load of 225 N, and the maximum von Mises stresses and stress distribution were calculated for teeth and endocrowns with different margin designs. Results Compared the stresses of different models under the same loading condition. In endocrowns, when the loading points were concentrated on the buccal side, the maximum von Mises stresses were E0 = E90 = E135, and when there was a lingual loading, they were E0 < E90 = E135. In enamel, the maximum von Mises stresses under all loading conditions were E0 > E90 > E135. In dentin, the maximum von Mises stresses of the three models were basically similar except for load2, load5 and load9. Compare the stresses of the same model under different loading conditions. In endocrowns, stresses were higher when lingual loading was present. In enamel and dentin, stresses were higher when loaded obliquely or unevenly. The stresses in the endocrowns were concentrated in the loading area. In enamel, stress concentration occurred at the cementoenamel junction. In particular, E90 and E135 also experienced stress concentration at the shoulder. In dentin, the stresses were mainly concentrated in the upper section of the tooth root. Conclusion Stress distribution is similar among the three margin designs of endocrowns, but the shoulder-type designs, especially the 135° shoulder, exhibit reduced stress concentration.

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Effect of margin designs and loading conditions on the stress distribution of endocrowns: a finite element analysis

Zeng,

Luo,

et al. 2024

BMC Oral Health

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Endocrown-retained fixed partial dentures: Revolutionizing tooth restoration or risky business? A finite element study

Muthukumar,

Natarajan,

Kumar

et al. 2024

Journal of Conservative Dentistry and Endodontics

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Aim: This study aimed to compare the biomechanical performance of endocrown-retained and post-and-core-retained fixed partial dentures (FPDs), focusing on stress distribution, tensile, and shear stress. Materials and Methods: Finite element analysis was used to simulate occlusal loading on two FPD designs: endocrown-retained zirconia and post-and-core-retained zirconia which were subjected to a simulated occlusal load of 150 N. Stress distribution was analyzed using von Mises stress, tensile stress, and shear stress. Material properties for zirconia, resin cement, enamel, dentin, bone, Periodontal ligament (PDL), and fiber post were incorporated. Results: The endocrown design showed lower von Mises stress (176.35 MPa) than the post-and-core design (298.29 MPa). It also had lower shear stress at the cement interface and reduced stress on abutment teeth. Conclusion: Endocrown-retained FPDs provide better stress distribution and structural integrity, offering a reliable, minimally invasive option for restoring endodontically treated molars. Clinical Significance: Endocrown retained 3-unit fixed partial denture can be a promising alternative to the fiber-post retained FPD for restoring molars with extensive tooth loss.

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Influence of Cementation Mode and Ferrule Design on the Fatigue Resistance of Monolithic Zirconia Endocrowns

Cited by 2 publications

References 53 publications

Effect of margin designs and loading conditions on the stress distribution of endocrowns: a finite element analysis

Effect of margin designs and loading conditions on the stress distribution of endocrowns: a finite element analysis

Endocrown-retained fixed partial dentures: Revolutionizing tooth restoration or risky business? A finite element study

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