Digital Image Correlation and Finite Element Analysis of Bone Strain Generated by Implant-Retained Cantilever Fixed Prosthesis

J. P.M. Tribst; A. M.O. Dal Piva; M. A. Bottino; R. S. Nishioka; A. L.S. Borges; M. Özcan

doi:10.1922/EJPRD_1941Tribst08

Digital Image Correlation and Finite Element Analysis of Bone Strain Generated by Implant-Retained Cantilever Fixed Prosthesis

J. P.M. Tribst
, A. M.O. Dal Piva
, M. A. Bottino
, R. S. Nishioka
, A. L.S. Borges
, M. Özcan

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

PURPOSE: The present study evaluated the displacement and strain generated in an implant- supported fixed prosthesis under axial and non-axial loads using two methods.

MATERIALS AND METHODS: Three implants were inserted in a resin block. The Digital Image Correlation (DIC) was used to measure displacement and strain generated on the surface of the resin blocks for the different load applications (500N, 1 image/second). A 3-dimensional model was constructed and a load of 500 N was applied at an axial point and a non-axial point through finite element analysis (FEA).

RESULTS: Both methods gave similar trends for the strains, and both gave slightly higher strains with non-axial loading. FEA predicted higher strain magnitude (±11%) in comparison with DIC, but with the same mechanical behavior. According to ANOVA, the loading influenced the strain concentration. Higher strain was generated for non-axial loading around the implant nearest to the loading.

CONCLUSIONS: For implant-retained cantilever fixed prosthesis, the same load applied in the lever arm induces higher strain in the cervical area of the last implant, which suggests more damaging potential than a load applied at the center of the prosthesis.

Original language	English
Pages (from-to)	10-17
Number of pages	8
Journal	European Journal of Prosthodontics and Restorative Dentistry
Volume	28
Issue number	1
Early online date	27 Feb 2020
DOIs	https://doi.org/10.1922/EJPRD_1941Tribst08
Publication status	Published - Mar 2020

Bibliographical note

Publisher Copyright:
Copyright© 2019 Dennis Barber Ltd.

Funding

The authors would like to thank São Paulo Research Foundation (FAPESP) with the grant nº 17/09104-4.

Funders	Funder number
Fundação de Amparo à Pesquisa do Estado de São Paulo	17/09104-4

Keywords

Biomechanical Complications
Computerized Models
Dental Implant
Finite Element Analysis

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10.1922/EJPRD_1941Tribst08

https://www.ejprd.org/view.php?article_id=958&journal_id=125

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title = "Digital Image Correlation and Finite Element Analysis of Bone Strain Generated by Implant-Retained Cantilever Fixed Prosthesis",

abstract = "PURPOSE: The present study evaluated the displacement and strain generated in an implant- supported fixed prosthesis under axial and non-axial loads using two methods.MATERIALS AND METHODS: Three implants were inserted in a resin block. The Digital Image Correlation (DIC) was used to measure displacement and strain generated on the surface of the resin blocks for the different load applications (500N, 1 image/second). A 3-dimensional model was constructed and a load of 500 N was applied at an axial point and a non-axial point through finite element analysis (FEA).RESULTS: Both methods gave similar trends for the strains, and both gave slightly higher strains with non-axial loading. FEA predicted higher strain magnitude (±11\%) in comparison with DIC, but with the same mechanical behavior. According to ANOVA, the loading influenced the strain concentration. Higher strain was generated for non-axial loading around the implant nearest to the loading.CONCLUSIONS: For implant-retained cantilever fixed prosthesis, the same load applied in the lever arm induces higher strain in the cervical area of the last implant, which suggests more damaging potential than a load applied at the center of the prosthesis.",

keywords = "Biomechanical Complications, Computerized Models, Dental Implant, Finite Element Analysis",

author = "Tribst, \{J. P.M.\} and \{Dal Piva\}, \{A. M.O.\} and Bottino, \{M. A.\} and Nishioka, \{R. S.\} and Borges, \{A. L.S.\} and M. {\"O}zcan",

note = "Publisher Copyright: Copyright{\textcopyright} 2019 Dennis Barber Ltd.",

year = "2020",

month = mar,

doi = "10.1922/EJPRD\_1941Tribst08",

language = "English",

volume = "28",

pages = "10--17",

journal = "European Journal of Prosthodontics and Restorative Dentistry",

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T1 - Digital Image Correlation and Finite Element Analysis of Bone Strain Generated by Implant-Retained Cantilever Fixed Prosthesis

AU - Tribst, J. P.M.

AU - Dal Piva, A. M.O.

AU - Bottino, M. A.

AU - Nishioka, R. S.

AU - Borges, A. L.S.

AU - Özcan, M.

PY - 2020/3

Y1 - 2020/3

N2 - PURPOSE: The present study evaluated the displacement and strain generated in an implant- supported fixed prosthesis under axial and non-axial loads using two methods.MATERIALS AND METHODS: Three implants were inserted in a resin block. The Digital Image Correlation (DIC) was used to measure displacement and strain generated on the surface of the resin blocks for the different load applications (500N, 1 image/second). A 3-dimensional model was constructed and a load of 500 N was applied at an axial point and a non-axial point through finite element analysis (FEA).RESULTS: Both methods gave similar trends for the strains, and both gave slightly higher strains with non-axial loading. FEA predicted higher strain magnitude (±11%) in comparison with DIC, but with the same mechanical behavior. According to ANOVA, the loading influenced the strain concentration. Higher strain was generated for non-axial loading around the implant nearest to the loading.CONCLUSIONS: For implant-retained cantilever fixed prosthesis, the same load applied in the lever arm induces higher strain in the cervical area of the last implant, which suggests more damaging potential than a load applied at the center of the prosthesis.

AB - PURPOSE: The present study evaluated the displacement and strain generated in an implant- supported fixed prosthesis under axial and non-axial loads using two methods.MATERIALS AND METHODS: Three implants were inserted in a resin block. The Digital Image Correlation (DIC) was used to measure displacement and strain generated on the surface of the resin blocks for the different load applications (500N, 1 image/second). A 3-dimensional model was constructed and a load of 500 N was applied at an axial point and a non-axial point through finite element analysis (FEA).RESULTS: Both methods gave similar trends for the strains, and both gave slightly higher strains with non-axial loading. FEA predicted higher strain magnitude (±11%) in comparison with DIC, but with the same mechanical behavior. According to ANOVA, the loading influenced the strain concentration. Higher strain was generated for non-axial loading around the implant nearest to the loading.CONCLUSIONS: For implant-retained cantilever fixed prosthesis, the same load applied in the lever arm induces higher strain in the cervical area of the last implant, which suggests more damaging potential than a load applied at the center of the prosthesis.

KW - Biomechanical Complications

KW - Computerized Models

KW - Dental Implant

KW - Finite Element Analysis

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Digital Image Correlation and Finite Element Analysis of Bone Strain Generated by Implant-Retained Cantilever Fixed Prosthesis

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