A subset of ipRGCs regulates both maturation of the circadian clock and segregation of retinogeniculate projections in mice

The clinical success of fiber posts has been attributed to their lower elastic modulus. The tested hypothesis was that fiber posts could lead to lower risk of post debonding and lower risk of root fracture, despite an increase in root stresses. Stress analyses were carried out with a 3D finite element model of a premolar restored with a metallic or a fiber post. Bonded and non-bonded post/cement interface conditions were simulated. We calculated risk-of-fracture indices by determining the highest principal stress values divided by the tensile strength. Shear stresses along the post/cement interface were analyzed for the bonded models. Compared with the premolar restored with a metallic post, the fiber post generated lower stresses along the interface and higher stresses in the root. However, with the fiber post, fracture was less likely to occur in the root, since its core and post fracture indices were higher.

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Composite shrinkage stress as a function of specimen dimensions and compliance of the testing system

Witzel

Ballester

Meira

et al. 2007

Dental Materials

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Vertical Root Fracture in Upper Premolars with Endodontic Posts: Finite Element Analysis

Santos

Tanaka

Lima

et al. 2009

Journal of Endodontics

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Residual stresses in Y-TZP crowns due to changes in the thermal contraction coefficient of veneers

et al. 2013

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Elastic modulus of posts and the risk of root fracture

Meira

Espósito

Quitero

et al. 2009

Dental Traumatology

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The definition of an optimal elastic modulus for a post is controversial. This work hypothesized that the influence of the posts' elastic modulus on dentin stress concentration is dependent on the load direction. The objective was to evaluate, using finite element analysis, the maximum principal stress (sigma(max)) on the root, using posts with different elastic modulus submitted to different loading directions. Nine 3D models were built, representing the dentin root, gutta-percha, a conical post and the cortical bone. The softwares used were: MSC.PATRAN2005r2 (preprocessing) and MSC.Marc2005r2 (processing). Load of 100 N was applied, varying the directions (0 degrees, 45 degrees and 90 degrees) in relation to the post's long axis. The magnitude and direction of the sigma(max) were recorded. At the 45 degrees and 90 degrees loading, the highest values of sigma(max) were recorded for the lowest modulus posts, on the cervical region, with a direction that suggests debonding of the post. For the 0 degrees loading, the highest values of sigma(max) were recorded for higher modulus posts, on the apical region, and the circumferential direction suggests vertical root fracture. The hypothesis was accepted: the effect of the elastic modulus on the magnitude and direction of the sigma(max) generated on the root was dependent on the loading direction.

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Josete Barbosa Cruz Meira

Adhesion to tooth structure: A critical review of “macro” test methods

Association of orthodontic force system and root resorption: A systematic review

Shear versus micro-shear bond strength test: A finite element stress analysis

Can Fiber Posts Increase Root Stresses and Reduce Fracture?

Composite shrinkage stress as a function of specimen dimensions and compliance of the testing system

Vertical Root Fracture in Upper Premolars with Endodontic Posts: Finite Element Analysis

Residual stresses in Y-TZP crowns due to changes in the thermal contraction coefficient of veneers

Elastic modulus of posts and the risk of root fracture

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