Influence of Resin Cement Thickness and Elastic Modulus on the Stress Distribution of Zirconium Dioxide Inlay-Bridge: 3D Finite Element Analysis

Joseph Assaf; Louis Hardan; Cynthia Kassis; Rim Bourgi; Walter Devoto; Elie AMM; Carol Moussa; Jacek Sawicki; Monika Lukomska-Szymanska

doi:10.3390/polym13223863

journal article Open Access Nov 09, 2021

Influence of Resin Cement Thickness and Elastic Modulus on the Stress Distribution of Zirconium Dioxide Inlay-Bridge: 3D Finite Element Analysis

Joseph Assaf Louis Hardan

Cynthia Kassis Rim Bourgi

Walter Devoto Elie AMM Carol Moussa Jacek Sawicki

Monika Lukomska-Szymanska

Polymers Vol. 13 No. 22 pp. 3863 · MDPI AG

View at Publisher Save 10.3390/polym13223863

Abstract

The mechanical properties and the thickness of the resin cement agents used for bonding inlay bridges can modify the clinical performance of the restoration such as debonding or prosthetic materials fracture. Thus, the aim of this study was to evaluate the stress distribution and the maximum strain generated by resin cements with different elastic moduli and thicknesses used to cement resin-bonded fixed partial denture (RBFPD). A three-dimensional (3D) finite element analysis (FEA) was used, and a 3D model was created based on a Cone-Beam Computed Tomography system (CBCT). The model was analyzed by the Ansys software. The model fixation occurred at the root of the abutment teeth and an axial load of 300 N was applied on the occlusal surface of the pontic. The highest stress value was observed for the Variolink 0.4 group (1.76 × 106 Pa), while the lowest was noted for the Panavia 0.2 group (1.07 × 106 Pa). Furthermore, the highest total deformation value was found for the Variolink 0.2 group (3.36 × 10−4 m), while the lowest was observed for the Panavia 0.4 group (2.33 × 10−4 m). By means of this FEA, 0.2 mm layer Panavia F2.0 seemed to exhibit a more favorable stress distribution when used for cementation of posterior zirconium-dioxide-based RBFPD. However, both studied materials possessed clinically acceptable properties.

Topics

No keywords indexed for this article. Browse by subject →

References

37

[1]

Lynch "All-ceramic inlay-retained fixed dental prostheses for replacing posterior missing teeth: A systematic review" J. Prosthodont. Res. (2018) 10.1016/j.jpor.2017.06.007

[2]

Sales "Is down syndrome a risk factor or contraindication for dental implants? A systematic review" J. Prosthet. Dent. (2021)

[3]

Edelhoff "Tooth structure removal associated with various preparation designs for anterior teeth" J. Prosthet. Dent. (2002) 10.1067/mpr.2002.124094

[4]

Chaar "All-ceramic inlay-retained fixed dental prostheses: An update" Quintessence Int. (2015)

[5]

Tribst "Short communication: Influence of restorative material and cement on the stress distribution of posterior resin-bonded fixed dental prostheses: 3D finite element analysis" J. Mech. Behav. Biomed. Mater. (2019) 10.1016/j.jmbbm.2019.05.004

[6]

Escobedo Martínez, M.F., Rodríguez López, S., Valdés Fontela, J., Olay García, S., and Mauvezín Quevedo, M. (2020). A new technique for direct fabrication of fiber-reinforced composite bridge: A long-term clinical observation. Dent. J., 10. 10.3390/dj8020048

[7]

Alraheam "Five-year success rate of resin-bonded fixed partial dentures: A systematic review" J. Esthet. Restor. Dent. (2019) 10.1111/jerd.12431

[8]

Penteado "Influence of resin cement rigidity on the stress distribution of resin-bonded fixed partial dentures" Comput. Methods Biomech. Biomed. Eng. (2019) 10.1080/10255842.2019.1609456

[9]

Hammond "Finite element analysis and dentistry" Fac. Dent. J. (2015) 10.1308/rcsfdj.2015.134

[10]

Borges, A.L.S., Grangeiro, M.T.V., de Andrade, G.S., de Melo, R.M., Baroudi, K., and Silva-Concilio, L.R. (2021). Stress concentration of endodontically treated molars restored with transfixed glass fiber post: 3D-finite element analysis. Materials, 14. 10.3390/ma14154249

[11]

Zarow, M., Vadini, M., Chojnacka-Brozek, A., Szczeklik, K., Milewski, G., Biferi, V., D’Arcangelo, C., and De De Angelis, F. (2020). Effect of fiber posts on stress distribution of endodontically treated upper premolars: Finite element analysis. Nanomaterials, 10. 10.3390/nano10091708

[12]

Oezden "Three-dimensional finite element analysis of stress distribution in inlay-restored mandibular first molar under simultaneous thermomechanical loads" Dent. Mater. J. (2016) 10.4012/dmj.2014-341

[13]

"Effect of temperature and stress distribution on all-ceramic restorations by using a three-dimensional finite element analysis" J. Oral. Rehabil. (2004) 10.1111/j.1365-2842.2004.01005.x

[14]

Bakke "Bite force and occlusion" Semin. Orthod. (2006) 10.1053/j.sodo.2006.01.005

[15]

Krupnin "Biomechanical analysis of new constructions of adhesive bridge prostheses" Russ. J. Biomech. (2019) 10.15593/rjbiomech/2019.3.08

[16]

Daher "Study by finite elements of stress distribution by comparing behaviour of 2 types of composite" Int. J. Dent. Oral Sci. (2021) 10.19070/2377-8075-21000316

[17]

Rychlewski "On Hooke’s law" J. Appl. Math. Mech. (1984) 10.1016/0021-8928(84)90137-0

[18]

Tribst "CAD-FEA modeling and analysis of different full crown monolithic restorations" Dent. Mater. (2018) 10.1016/j.dental.2018.06.024

[19]

Rojpaibool "Fracture resistance of lithium disilicate ceramics bonded to enamel or dentin using different resin cement types and film thicknesses" J. Prosthodont. (2017) 10.1111/jopr.12372

[20]

Sagen "Debonding mechanism of zirconia and lithium disilicate resin cemented to dentin" Acta Biomater. Odontol. Scand. (2019) 10.1080/23337931.2018.1561188

[21]

Tribst "Influence of ceramic material, thickness of restoration and cement layer on stress distribution of occlusal veneers" Braz. Oral. Res. (2018) 10.1590/1807-3107bor-2018.vol32.0118

[22]

Keulemans "Influence of retainer design on two-unit cantilever resin-bonded glass fiber reinforced composite fixed dental prostheses: An in vitro and finite element analysis study" J. Adhes. Dent. (2008)

[23]

Tanoue "Longevity of resin-bonded fixed partial dentures made of metal alloys: A review of the literature" J. Prosthodont. Res. (2021) 10.2186/jpr.jpr_d_20_00122

[24]

Dahl "The influence of the resin-based cement layer on ceramic-dentin bond strength" Eur. J. Oral Sci. (2021)

[25]

Madfa "3D FEA of cemented glass fiber and cast posts with various dental cements in a maxillary central incisor" Springerplus (2015) 10.1186/s40064-015-1345-4

[26]

Zitzmann "Clinical outcome of metal-and all-ceramic resin-bonded fixed dental prostheses" J. Prosthodont. Res. (2021) 10.2186/jpr.jpr_d_20_00014

[27]

Jowkar "The effect of silver nanoparticles, zinc oxide nanoparticles, and titanium dioxide nanoparticles on the push-out bond strength of fiber posts" J. Clin. Exp. Dent. (2020)

[28]

Gumus "Evaluation of fracture resistance of inlay-retained fixed partial dentures fabricated with different monolithic zirconia materials" J. Prosthet. Dent. (2018) 10.1016/j.prosdent.2017.06.008

[29]

Elastic Properties of Lithium Disilicate Versus Feldspathic Inlays: Effect on the Bonding by 3D Finite Element Analysis

Flavia Zardo Trindade, Luiz Felipe Valandro, Niek de Jager et al.

Journal of Prosthodontics 2018 10.1111/jopr.12550

[30]

Tatarciuc, M., Maftei, G.A., Vitalariu, A., Luchian, I., Martu, I., and Diaconu-Popa, D. (2021). Inlay-retained dental bridges—A finite elementanalysis. Appl. Sci., 11. 10.3390/app11093770

[31]

Altan "Evaluation of shear bond strength of zirconia-based monolithic CAD-CAM materials to resin cement after different surface treatments" Niger. J. Clin. Pract. (2019) 10.4103/njcp.njcp_157_19

[32]

Nasr "All-ceramic Computer-aided Design and Computer-aided Manufacturing Restorations: Evolution of Structures and Criteria for Clinical Application" J. Contemp. Dent. Pract. (2019) 10.5005/jp-journals-10024-2549

[33]

Go "Evaluation of the microshear bond strength of MDP-containing and non–MDP-containing self-adhesive resin cement on zirconia restoration" Oper. Dent. (2019) 10.2341/18-132-l

[34]

Lakshmi "Influence of connector dimensions on the stress distribution of monolithic zirconia and lithium-di-silicate inlay retained fixed dental prostheses—A 3D finite element analysis" Tanta Dent. J. (2015) 10.1016/j.tdj.2015.01.001

[35]

Onodera "Effect of connector design on fracture resistance of zirconia all-ceramic fixed partial dentures" Bull. Tokyo Dent. Coll. (2011) 10.2209/tdcpublication.52.61

[36]

Versluis "Residual shrinkage stress distributions in molars after composite restoration" Dent. Mater. (2004) 10.1016/j.dental.2003.05.007

[37]

Gomes "Reliability of FEA on the Results of Mechanical Properties of Materials" Braz. Dent. J. (2015) 10.1590/0103-6440201300639

Metrics

20

Citations

37

References

Details

Published: Nov 09, 2021
Vol/Issue: 13(22)
Pages: 3863
License: View

Authors

J

Joseph Assaf

Department of Restorative Dentistry, School of Dentistry, Saint-Joseph University, Beirut 1107 2180, Lebanon

L

Louis Hardan

Department of Restorative Dentistry, School of Dentistry, Saint-Joseph University, Beirut 1107 2180, Lebanon

C

Cynthia Kassis

Department of Restorative Dentistry, School of Dentistry, Saint-Joseph University, Beirut 1107 2180, Lebanon

R

Rim Bourgi

Department of Restorative Dentistry, School of Dentistry, Saint-Joseph University, Beirut 1107 2180, Lebanon

W

Walter Devoto

Independent Researcher, 16030 Sestri Levante, Italy

E

Elie AMM

Department of Orthodontics, School of Dental Medicine, Saint Joseph University, Beirut 1107 2180, Lebanon

C

Carol Moussa

Department of Restorative Dentistry, School of Dentistry, Saint-Joseph University, Beirut 1107 2180, Lebanon

J

Jacek Sawicki

Institute of Materials Science and Engineering, Lodz University of Technology, 90-924 Lodz, Poland

M

Monika Lukomska-Szymanska

Department of General Dentistry, Medical University of Lodz, 92-213 Lodz, Poland

Cite This Article

Joseph Assaf, Louis Hardan, Cynthia Kassis, et al. (2021). Influence of Resin Cement Thickness and Elastic Modulus on the Stress Distribution of Zirconium Dioxide Inlay-Bridge: 3D Finite Element Analysis. Polymers, 13(22), 3863. https://doi.org/10.3390/polym13223863

Influence of Resin Cement Thickness and Elastic Modulus on the Stress Distribution of Zirconium Dioxide Inlay-Bridge: 3D Finite Element Analysis

You May Also Like