Fracture toughness of bleached enamel: Effect of applying three different nanobiomaterials by nanoindentation test

(2016) Fracture toughness of bleached enamel: Effect of applying three different nanobiomaterials by nanoindentation test. Contemporary Clinical Dentistry. pp. 209-215. ISSN 0976-237X

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Abstract

Background: Despite the absence of dispute about the efficacy of bleaching agents, a prime concern is about their compromising effect on the enamel structure. This in vitro study investigated whether the addition of three different biomaterials, including nano-bioactive glass (n-BG)/nano-hydroxy apetite (n-HA)/nano-amorphous calcium phosphate (n-ACP), to bleaching agents can affect the fracture toughness (FT) and vickers hardness number (VHN) of bovine enamel. Materials and Methods: The crowns of the newly extracted permanent bovine incisors teeth were separated from the root and sectioned along their central line; one half serving as the control specimen and the other half as the test specimen. After mounting and polishing procedure, all the control specimens (C) were subjected to nano-indentation test to obtain the baseline values of FT. Then, the control specimens were exposed to a 38 hydrogen peroxide for four times, each time for 10 min. The test specimens were divided into three groups and treated as follows, with the same protocol used for the control specimens: Group 1; ACP + hydrogen peroxide (HP) mixed gel; Group 2 BG + HP mixed gel; and Group 3 HA + HP mixed gel. FT measurements with nano-indentation were carried out subsequent to bleaching experiments. Data were analyzed using SPSS and KruskaluWallis test ( = 0.05). Results: A significant difference in young's modulus (YM), VHN, and FT at baseline and subsequent to bleaching in control group was observed. However, no significant differences were found in YM, VHN, and FT between the test groups, compared to the respective baseline values. Conclusion: Under the limitations of the current study, it can be concluded that the n-HA, n-ACP, and n-BG could be potential biomaterials used to reduce the adverse effects of tooth bleaching.

Item Type: Article
Keywords: biomaterials enamel fracture toughness hardness tooth whitening in-situ cpp-acp surface-properties hydrogen-peroxide microhardness fluoride paste remineralization hydroxyapatite integrity
Page Range: pp. 209-215
Journal or Publication Title: Contemporary Clinical Dentistry
Journal Index: ISI
Volume: 7
Number: 2
Identification Number: https://doi.org/10.4103/0976-237X.183047
ISSN: 0976-237X
Depositing User: مهندس مهدی شریفی
URI: http://eprints.mui.ac.ir/id/eprint/2686

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