Stress Distribution Around Osseointegrated Implants With Different Internal-Cone Connections: Photoelastic and Finite Element Analysis

Anami, Lilian Costa; Lima, Júlia Magalhães da Costa; Takahashi, Fumiaki; Neisser, Maximiliano Piero; Noritomi, Pedro Yoshito; Bottino, Marco Antônio

doi:10.1563/aaid-joi-d-12-00260

Cited by 16 publications

(17 citation statements)

References 27 publications

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“…However, the stress distribution behavior in the supporting structures of the denture (mucosa and alveolar bone) needs further investigations to confirm the results of the current work, in particular, comparing photoelastic method with finite element analysis, as shown in previous study related to osseointegration of implants [36]. It is also possible that the change in the masticatory manner could define other patterns of loading on dentures with respect to induced stresses on the support structures and, therefore, this aspect deserves to be investigated.…”

Section: Discussionsupporting

confidence: 75%

Photoelastic analysis of stresses transmitted by complete dentures lined with hard or soft liners

Pereira

Mesquita

Nóbilo

2015

Materials Science and Engineering: C

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Section: Discussionsupporting

confidence: 75%

Photoelastic analysis of stresses transmitted by complete dentures lined with hard or soft liners

Pereira

Mesquita

Nóbilo

2015

Materials Science and Engineering: C

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“…Such similar results between photoelasticity and FEA were also reported by a previous study that investigated the stresses generated around implants with different internal-cone abutments. 14 Photoelasticity is an experimental analysis and allows the use of real components; therefore, the 3D misfit generated by the casting procedure can be accurately reproduced. 4 In contrast, the reproduction of misfits by FEA is usually simplified by a gap between two components with parallel contact surfaces.…”

Section: Discussionmentioning

confidence: 99%

“…Among the main methods used for in vitro stress investigation are photoelasticity 2,4 and finite element analysis (FEA). 2,14,15 Photoelasticity provides a qualitative result of the stress distribution and mimics the clinical scenario by using real components (i.e. implants, abutments and frameworks).…”

Section: Introductionmentioning

confidence: 99%

“…Based on these particularities of the methodologies, previous studies recommended their combined use. 2,14,16 Despite this recommendation, the reliability between photoelasticity and FEA methodologies are not yet well established for the investigation of the biomechanical behavior of the implant-supported system. Thus, a comparison between these two methodologies under the same simulation is warranted.…”

Section: Introductionmentioning

confidence: 99%

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Photoelastic and finite element stress analysis reliability for implant-supported system stress investigation

et al. 2018

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Aim: To compare the reliability between photoelastic and finite element (FE) analyses by evaluating the effect of different marginal misfit levels on the stresses generated on two different implant-supported systems using conventional and short implants. Methods: Two photoelastic models were obtained: model C with two conventional implants (4.1×11 mm); and model S with a conventional and a short implant (5×6 mm). Three-unit CoCr frameworks were fabricated simulating a superior first pre-molar (P) to first molar (M) fixed dental prosthesis. Different levels of misfit (µm) were selected based on the misfit average of 10 frameworks obtained by the single-screw test protocol: low (<20), medium (>20 and <40) and high (>40). Stress levels and distribution were measured by photoelastic analysis. A similar situation of the in vitro assay was designed and simulated by the in silico analysis. Maximum and minimum principal strain were recorded numerically and color-coded for the models. Von Mises Stress was obtained for the metallic components. Results: Photoelasticity and FE analyses showed similar tendency where the increase of misfit generates higher stress levels despite of the implant design. The short implant showed lower von Mises stress values; however, it presented stresses around its full length for the in vitro and in silico analysis. Also, model S showed higher µstrain values for all simulated misfit levels. The type of implant did not affect the stresses around pillar P. Conclusions: Photoelasticity and FEA are reliable methodologies presenting similarity for the investigation of the biomechanical behavior of implant-supported rehabilitations.

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“…As figuras de 5.11 a 5.14 mostram os corpos de prova contendo o implante (Naves et al, 2013;Sotto-Maior et al, 2014). Como forma de comprovar ou validar esses dados, desenvolveram a mesma comparação para análise de elementos finitos seguindo os mesmos parâmetros dos corpos de prova, e encontrando resultados semelhantes (Anderson e Rayfield, 2012;Anami et al, 2015).…”

Section: Implante Hexágono Internounclassified

Avaliação da distribuição das tensões ao redor de implantes em diferentes níves de inserção

Zanardi¹

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Stress Distribution Around Osseointegrated Implants With Different Internal-Cone Connections: Photoelastic and Finite Element Analysis

Cited by 16 publications

References 27 publications

Photoelastic analysis of stresses transmitted by complete dentures lined with hard or soft liners

Photoelastic analysis of stresses transmitted by complete dentures lined with hard or soft liners

Photoelastic and finite element stress analysis reliability for implant-supported system stress investigation

Avaliação da distribuição das tensões ao redor de implantes em diferentes níves de inserção

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