Change in elastic modulus of bovine dentine with exposure to a calcium hydroxide paste

Kawamoto, Ryo; Kurokawa, Hiroyasu; Takubo, Chikako; Shimamura, Yasunori; Yoshida, Takeshi; Miyazaki, Masashi

doi:10.1016/j.jdent.2008.08.003

Cited by 28 publications

(37 citation statements)

References 36 publications

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“…Furthermore, the organization of the collagen fibrils and hydroxyapatite crystals is different between the root dentine and the coronal dentine [17] that might cause differences in the elastic behaviour in response to exposure to the CH paste. These variations of elastic modulus between coronal and root dentine could explain that CH may lead to an increased risk of crown-root fracture [18]. In the present study, the loss of 26 % of the teeth treated with CH, due to cervical fracture (not apical fracture), supports this theory.…”

Section: Discussionsupporting

confidence: 76%

MTA versus Ca(OH)2 in apexification of non-vital immature permanent teeth: a randomized clinical trial comparison

et al. 2014

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Section: Discussionsupporting

confidence: 76%

MTA versus Ca(OH)2 in apexification of non-vital immature permanent teeth: a randomized clinical trial comparison

et al. 2014

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“…One possible hypothesis that can explain the adverse effects of Ca(OH) 2 on DPSC proliferation despite its noncytotoxic nature is that Ca(OH) 2 can significantly change the physio‐mechanical properties of surface dentine (Kawamoto et al . , Yassen et al . ), which may cause unfavourable interactions between DPSC and the brittle dentine surface.…”

Section: Discussionmentioning

confidence: 99%

Attachment and proliferation of dental pulp stem cells on dentine treated with different regenerative endodontic protocols

et al. 2016

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“…As used by Kawamoto et al, the bovine model used in the present study is a biological model already consolidated in the literature, as it provides a better standardization of the dentin age, it is easy to obtain teeth in good condition, and it shows less variability in organic/inorganic composition than human teeth [31]. …”

Section: Discussionmentioning

confidence: 99%

Chlorhexidine Prevents Root Dentine Mineral Loss and Fracture Caused by Calcium Hydroxide over Time

Ribeiro

Thomaz

Lima

et al. 2017

International Journal of Dentistry

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Purpose. To evaluate the mineral ion loss of root dentine after treatment with 2% chlorhexidine solution (CHX) and to compare its yield and flexural strength (fs) after exposure to calcium hydroxide [Ca(OH)2]. Materials and Methods. Dentine bars (DB) were made from 90 roots of bovine incisors and randomized into three groups: GControl: distilled/deionized water (DDW), GNaOCl: 2.5% sodium hypochlorite + 17% EDTA, and GCHX: CHX + DDW. The release of phosphate (PO4) and calcium (Ca) ions was measured by spectrophotometry. The DB were exposed to Ca(OH)2 paste for 0, 30, 90, and 180 days. DB were subjected to the three-point bending test to obtain yield and fs values. The fracture patterns were evaluated (20x). Data were analyzed using Kruskal-Wallis and Dunn's post hoc tests or one- and two-way ANOVA followed by Tukey's post hoc test (α = 0.05). Results. GCHX showed lower PO43− and Ca2+ ionic release than GNaOCl (p < 0.001). For yield and fs, GCHX > GNaOCl in all periods (p < 0.001), except for yield strength values on 90 days (p = 0.791). A larger frequency of vertical fractures was observed in GNaOCl and that of oblique fractures in GCHX (p < 0.05). Conclusions. CHX prevented PO43− and Ca2+ loss and showed a tendency to preserve the yield and fs of root dentine over time following exposure to Ca(OH)2 paste.

show abstract

Change in elastic modulus of bovine dentine with exposure to a calcium hydroxide paste

Cited by 28 publications

References 36 publications

MTA versus Ca(OH)2 in apexification of non-vital immature permanent teeth: a randomized clinical trial comparison

MTA versus Ca(OH)2 in apexification of non-vital immature permanent teeth: a randomized clinical trial comparison

Attachment and proliferation of dental pulp stem cells on dentine treated with different regenerative endodontic protocols

Chlorhexidine Prevents Root Dentine Mineral Loss and Fracture Caused by Calcium Hydroxide over Time

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