Influence of hydration and mechanical characterization of carious primary dentine using an ultra-micro indentation system (UMIS)

The conditions under which mechanical properties of dentine are tested influence the values recorded. The aims of this study were to examine the effect of hydration on the mechanical properties of primary carious dentine and to provide information on changes in hardness and modulus of elasticity cha...

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Published in:European journal of oral sciences 2004-06, Vol.112 (3), p.231-236
Main Authors: Angker, Linny, Nijhof, Niels, Swain, Michael V., Kilpatrick, Nicola M.
Format: Article
Language:English
Subjects:
Analysis of Variance
carious primary dentine
Child, Preschool
Dental Caries - pathology
Dentin - pathology
Dentin Solubility
Dentistry
Desiccation
elastic modulus
Elasticity
Hardness
Humans
Linear Models
Molar
Tooth, Deciduous - pathology
Water
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container_title European journal of oral sciences
container_volume 112
creator Angker, Linny
Nijhof, Niels
Swain, Michael V.
Kilpatrick, Nicola M.
description The conditions under which mechanical properties of dentine are tested influence the values recorded. The aims of this study were to examine the effect of hydration on the mechanical properties of primary carious dentine and to provide information on changes in hardness and modulus of elasticity change caused by the demineralizing caries process in dentine. Three primary molar teeth with untreated carious dentine were prepared for nano‐indentation tests under both wet and dry conditions. Further tests were conducted on eight primary molars with untreated carious dentine under hydrated conditions. The mechanical properties of dehydrated carious dentine increased approximately 10‐fold for hardness and 100‐fold for the modulus of elasticity compared with hydrated dentine. The hardness and elastic modulus of the carious primary dentine deteriorated progressively toward the lesion cavity floor, ranging from 0.001 to 0.52 GPa and from 0.015 to 14.55 GPa, respectively, and could be fitted to a simple linear relationship when plotted in logarithmic scale vs. distance. The total depth of dentine affected was around 1100 µm parallel to the tubule direction. This depth was significantly greater than observed subjectively, implying that the demineralization process is more advanced than might be suspected on simple clinical examination.
doi_str_mv 10.1111/j.1600-0722.2004.00123.x
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subjects Analysis of Variance
carious primary dentine
Child, Preschool
Dental Caries - pathology
Dentin - pathology
Dentin Solubility
Dentistry
Desiccation
elastic modulus
Elasticity
Hardness
Humans
Linear Models
Molar
Tooth, Deciduous - pathology
Water
title Influence of hydration and mechanical characterization of carious primary dentine using an ultra-micro indentation system (UMIS)
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