A Three-dimensional Finite Element Model of Prismatic Enamel: A Re-appraisal of the Data on the Young's Modulus of Enamel

Spears, Iain R.

doi:10.1177/00220345970760101101

Cited by 145 publications

(112 citation statements)

References 19 publications

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“…Microhardness changes have been related to a loss (demineralisation) or gain (remineralisation) of the mineral/organic content of the dental structure, the direction of hydroxyapatite crystals and the anisotropic nature of enamel [23,24,6]. The nanoindentation microhardness test is suitable for determining small changes in surface microhardness and elastic modulus of dental hard tissue [25].…”

Section: Discussionmentioning

confidence: 99%

Hydrogen Peroxide Tooth Whitening Agent Effect on the Nanomechanical Properties of Enamel

Mansouri¹,

Khzam²

2017

J Res Med Den Sci

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Section: Discussionmentioning

confidence: 99%

Hydrogen Peroxide Tooth Whitening Agent Effect on the Nanomechanical Properties of Enamel

Mansouri¹,

Khzam²

2017

J Res Med Den Sci

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“…Finite element modeling of the Young's modulus of enamel has been conducted using the volumetric crystalline fraction of hydroxyapatite to calculate the possible ranges of values for stiffness, both parallel and perpendicular to crystal orientation. 19 These indicate that parallel to the crystal direction E increases from 93 GPa to 113 GPa as the crystalline fraction increases from 0.81 to 0.99. Perpendicular to the crystal direction E shows a much larger variation from 19 to 91 GPa over the same range of crystalline fraction.…”

Section: Introductionmentioning

confidence: 87%

The effect of prism orientation on the indentation testing of human molar enamel

Braly

Darnell

Mann

et al. 2007

Archives of Oral Biology

111

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Recent nanoindentation studies have demonstrated that the hardness and Young's modulus of human molar enamel decreases by more than 50% on moving from the occlusal surface to the dentin-enamel junction on cross-sectional samples. Possible sources of these variations are changes in local chemistry, microstructure, and prism orientation. This study investigates the latter source by performing nanoindentation tests at two different orientations relative to the hydroxyapatite prisms: parallel and perpendicular. A single sample volume was tested in order to maintain a constant chemistry and microstructure. The resulting data show very small differences between the two orientations for both hardness and Young's modulus. The 1.5 to 3.0% difference is significantly less than the standard deviations found within the data set. Thus, the variations in hardness and Young's modulus on cross-sectional samples of human molar are attributed to changes in local chemistry (varying levels of mineralization, organic matter, and water content) and changes in microstructure (varying volume fractions of inorganic crystals and organic matrix). The impact of prism orientation on mechanical properties measured by nanoindentation appears to be minimal.

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“…Mature enamel comprises of different calcium phosphate salts (mostly hydroxyapatite) representing 88-90% of volume and 95-96% of its weight; while the organic matter accounts for approximately 1-1.5% of enamel weight. The presences of these small quantities of protein and water in enamel have an important softening or plasticizing effect 16,17 .…”

Section: Methodsmentioning

confidence: 99%

Comparative Evaluation of the Effect of Various Remineralizing Agents on Bleached Enamel Surface: An in Vitro Study

Thakur¹,

Devadiga²,

Hegde³

2016

J. Pharm. Sci. Innov.

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The aim of this study is to comparative evaluate the remineralization potential of various newer remineralizing agents such as Fluoride enriched Casein Phospho-peptide Amorphous calcium phosphate, Beta Tri-calcium Phosphate and Hydroxyapatite based cream on bleached enamel surface using Surface hardness test. 40 freshly extracted intact human premolars extracted for orthodontic purpose were used to prepare 75 enamel sections from the buccal and palatal surfaces of t`he teeth. The teeth were divided into 5 groups of 15 specimens and subjected to surface treatment as follows: Grp 1: Intact tooth (Control group) -No Surface treatment, Grp 2: Bleaching with 35% Hydrogen peroxide (Pola-office), Group 3: CPP-ACPF (GC Tooth Mousse plus, GC Corp) for two applications, 4 mins each for 14 days, Group 4: β-TCP (3M ESPE ClinPro) for 4 min for 14 days, Group 5: Hydroxyapatite based cream (ReminPro, VOCO) for 30 minutes for 10 days. All the specimens were stored in artificial saliva in the intervals and throughout the study. The specimens were subjected to qualitative and quantitative evaluation using Surface Hardness test for Vickers Hardness Number. Enamel specimens treated with bleaching agent (Pola Office) showed a decrease in microhardness which was statistically significant when compared with unbleached enamel [Grp1]. Among the remineralising agents tested in the study Hydroxyapatite based cream was found to be marginally more effective then the CPP-ACPF and β-TCP which was not statistically different.

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A Three-dimensional Finite Element Model of Prismatic Enamel: A Re-appraisal of the Data on the Young's Modulus of Enamel

Cited by 145 publications

References 19 publications

Hydrogen Peroxide Tooth Whitening Agent Effect on the Nanomechanical Properties of Enamel

Hydrogen Peroxide Tooth Whitening Agent Effect on the Nanomechanical Properties of Enamel

The effect of prism orientation on the indentation testing of human molar enamel

Comparative Evaluation of the Effect of Various Remineralizing Agents on Bleached Enamel Surface: An in Vitro Study

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