Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis

Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis

ABSTRACT: To evaluate the stresses generated in upper premolars rehabilitated with ceramic fragments (table-top) of lithium disilicate on the occlusal surface. An upper premolar was modeled following its anatomical references using computer aided design software (Rhinoceros version 5.0 SR8, USA). The dental tissues were individually designed containing enamel, dentin and periodontal ligament. The main anatomical points were used as parameters for model creation. Ceramic fragments were modeled varying their maximum thicknesses as: 0.5 mm, 1.0 mm and 1.5 mm. Solid geometries were exported to the analysis software (ANSYS 17.2, USA) in STEP format. The materials were considered isotropic, homogeneous and linear, and the values of the elastic modulus of the materials and structures were used to perform a static structural mechanical analysis. The set was submitted to 200 N load. The system fixation was defined on the basis of the three- dimensional model, and the results were obtained in MPa according to the failure criteria of the analyzed materials (tensile stress). Occlusal restoration was not detrimental to mechanical behavior. Stress distribution in the internal region of the restoration was similar between the groups. Thicker fragments presented a lower concentration of tensile stress, therefore suggesting better prognosis in attenuating tensile stresses in the tooth region. More conservative occlusal ceramic fragments presented worse prognosis. However, all evaluated thickness for table-tops support the occlusal rehabilitation of upper premolars when submitted to 200 N loading.

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Main Authors: Souto Borges,Alexandre Luiz, dos Santos Rangel Silva,Roberta, Melo de-Matos,Jefferson David, Dal-Piva,Amanda Maria de Oliveira, Filho,Oswaldo Daniel Andreatta, Lopes,Guilherme da Rocha Scalzer, Tribst,João Paulo Mendes
Format: Digital revista
Language:English
Published: Universidad de La Frontera. Facultad de Medicina 2021
Online Access:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-381X2021000400942
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spelling oai:scielo:S0718-381X20210004009422022-06-28Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element AnalysisSouto Borges,Alexandre Luizdos Santos Rangel Silva,RobertaMelo de-Matos,Jefferson DavidDal-Piva,Amanda Maria de OliveiraFilho,Oswaldo Daniel AndreattaLopes,Guilherme da Rocha ScalzerTribst,João Paulo Mendes ceramics finite element analysis fixed prosthesis ABSTRACT: To evaluate the stresses generated in upper premolars rehabilitated with ceramic fragments (table-top) of lithium disilicate on the occlusal surface. An upper premolar was modeled following its anatomical references using computer aided design software (Rhinoceros version 5.0 SR8, USA). The dental tissues were individually designed containing enamel, dentin and periodontal ligament. The main anatomical points were used as parameters for model creation. Ceramic fragments were modeled varying their maximum thicknesses as: 0.5 mm, 1.0 mm and 1.5 mm. Solid geometries were exported to the analysis software (ANSYS 17.2, USA) in STEP format. The materials were considered isotropic, homogeneous and linear, and the values of the elastic modulus of the materials and structures were used to perform a static structural mechanical analysis. The set was submitted to 200 N load. The system fixation was defined on the basis of the three- dimensional model, and the results were obtained in MPa according to the failure criteria of the analyzed materials (tensile stress). Occlusal restoration was not detrimental to mechanical behavior. Stress distribution in the internal region of the restoration was similar between the groups. Thicker fragments presented a lower concentration of tensile stress, therefore suggesting better prognosis in attenuating tensile stresses in the tooth region. More conservative occlusal ceramic fragments presented worse prognosis. However, all evaluated thickness for table-tops support the occlusal rehabilitation of upper premolars when submitted to 200 N loading.info:eu-repo/semantics/openAccessUniversidad de La Frontera. Facultad de MedicinaInternational journal of odontostomatology v.15 n.4 20212021-12-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-381X2021000400942en10.4067/S0718-381X2021000400942
institution SCIELO
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country Chile
countrycode CL
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access En linea
databasecode rev-scielo-cl
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region America del Sur
libraryname SciELO
language English
format Digital
author Souto Borges,Alexandre Luiz
dos Santos Rangel Silva,Roberta
Melo de-Matos,Jefferson David
Dal-Piva,Amanda Maria de Oliveira
Filho,Oswaldo Daniel Andreatta
Lopes,Guilherme da Rocha Scalzer
Tribst,João Paulo Mendes
spellingShingle Souto Borges,Alexandre Luiz
dos Santos Rangel Silva,Roberta
Melo de-Matos,Jefferson David
Dal-Piva,Amanda Maria de Oliveira
Filho,Oswaldo Daniel Andreatta
Lopes,Guilherme da Rocha Scalzer
Tribst,João Paulo Mendes
Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
author_facet Souto Borges,Alexandre Luiz
dos Santos Rangel Silva,Roberta
Melo de-Matos,Jefferson David
Dal-Piva,Amanda Maria de Oliveira
Filho,Oswaldo Daniel Andreatta
Lopes,Guilherme da Rocha Scalzer
Tribst,João Paulo Mendes
author_sort Souto Borges,Alexandre Luiz
title Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
title_short Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
title_full Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
title_fullStr Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
title_full_unstemmed Table-Top Lithium Disilicate Ceramic Restoration Thickness Effect on the Stress Distribution in Upper Premolars: 3D Finite Element Analysis
title_sort table-top lithium disilicate ceramic restoration thickness effect on the stress distribution in upper premolars: 3d finite element analysis
description ABSTRACT: To evaluate the stresses generated in upper premolars rehabilitated with ceramic fragments (table-top) of lithium disilicate on the occlusal surface. An upper premolar was modeled following its anatomical references using computer aided design software (Rhinoceros version 5.0 SR8, USA). The dental tissues were individually designed containing enamel, dentin and periodontal ligament. The main anatomical points were used as parameters for model creation. Ceramic fragments were modeled varying their maximum thicknesses as: 0.5 mm, 1.0 mm and 1.5 mm. Solid geometries were exported to the analysis software (ANSYS 17.2, USA) in STEP format. The materials were considered isotropic, homogeneous and linear, and the values of the elastic modulus of the materials and structures were used to perform a static structural mechanical analysis. The set was submitted to 200 N load. The system fixation was defined on the basis of the three- dimensional model, and the results were obtained in MPa according to the failure criteria of the analyzed materials (tensile stress). Occlusal restoration was not detrimental to mechanical behavior. Stress distribution in the internal region of the restoration was similar between the groups. Thicker fragments presented a lower concentration of tensile stress, therefore suggesting better prognosis in attenuating tensile stresses in the tooth region. More conservative occlusal ceramic fragments presented worse prognosis. However, all evaluated thickness for table-tops support the occlusal rehabilitation of upper premolars when submitted to 200 N loading.
publisher Universidad de La Frontera. Facultad de Medicina
publishDate 2021
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0718-381X2021000400942
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