Evaluation of Physical Properties in Carboxymethyl Chitosan Modified Glass Ionomer Cements and the Effect for Dentin Remineralization: SEM/EDX, Compressive Strength, and Ca/P Ratio.

Q1 Dentistry

European Journal of Dentistry Pub Date : 2024-07-16 DOI:10.1055/s-0044-1786864

Aditya Wisnu Putranto, Ratna Meidyawati, Senyan Dwiseptyoga, Dicky Yudha Andhika Zikrullah

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引用次数: 0

Abstract

Objective: The aim of this article was to evaluate the effects of modifying glass ionomer cement (GIC) with carboxymethyl chitosan (CMC) on surface morphology and remineralization outcomes by examining dentin morphology and calcium ion composition changes.

Materials and methods: Thirty holes in a cylindrical acrylic mold were filled with three groups of restorative materials: GIC, GIC modified with CMC (GIC-CMC) 5%, and GIC-CMC10%. The surface morphology of each group's materials was observed using scanning electron microscopy (SEM). The compressive strength measurement was performed using a universal testing machine. The dentin remineralization process was performed by applying GIC, GIC-CMC5%, and GIC-CMC10% materials for 14 days on demineralized dentin cavities treated with 17% ethylenediamine tetraacetic acid (EDTA) for 7 days. A morphological evaluation was conducted using SEM. The calcium ion composition and calcium-to-phosphorous (Ca/P) ratio were examined using an energy-dispersive X-ray (EDX).

Statistical analysis: The Kruskal-Wallis and post-hoc Mann-Whitney U tests were performed to compare all four groups of calcium ions (p < 0.05).

Results: The modification of GIC with CMC affected the morphological changes in the materials in the form of reduced porosity and increased fractures. A significant difference was found in compressive strength between the GIC-CMC modification materials of GIC-CMC5% and GIC-CMC10% and the GIC control group. The dentin tubule morphology and surface changes were observed after applying GIC, GIC-CMC5%, and GIC-CMC10% materials for 14 days, as evaluated by SEM. The EDX examination showed an increase in calcium ion content and hydroxyapatite formation (Ca/P ratio) after applying the GIC-CMC10% material.

Conclusion: The surface porosity of the GIC modification material with the addition of CMC tended to decrease. However, an increase in cracked surfaces that widened, along with the rise in CMC percentage, was found. This modification also reduced the compressive strength of the materials, with the lowest average yield at 10% CMC addition. Therefore, the modification of GIC with CMC affects changes in morphology, calcium ion composition, and Ca/P ratio in demineralized dentin.

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评估羧甲基壳聚糖改性玻璃离子黏结剂的物理性质及其对牙本质再矿化的影响：SEM/EDX、抗压强度和 Ca/P 比率。

目的：本文旨在通过研究牙本质形态和钙离子成分的变化，评估用羧甲基壳聚糖（CMC）改性玻璃离子水泥（GIC）对表面形态和再矿化结果的影响：在圆柱形丙烯酸模具上的 30 个孔中填充三组修复材料：GIC、5% GIC（GIC-CMC）和 10%GIC-CMC。使用扫描电子显微镜（SEM）观察各组材料的表面形态。使用万能试验机测量抗压强度。将 GIC、GIC-CMC5% 和 GIC-CMC10% 材料在用 17% 乙二胺四乙酸（EDTA）处理 7 天的脱矿牙本质龋洞上应用 14 天，进行牙本质再矿化过程。使用扫描电镜进行了形态学评估。使用能量色散 X 射线（EDX）检测了钙离子成分和钙磷（Ca/P）比：统计分析：采用 Kruskal-Wallis 检验和事后 Mann-Whitney U 检验对所有四组钙离子进行比较（p 结果：用 CMC 对 GIC 进行改性后，材料的形态发生了变化，孔隙率降低，断裂增加。GIC-CMC 改性材料（GIC-CMC5% 和 GIC-CMC10% 组）与 GIC 对照组的抗压强度存在明显差异。使用 GIC、GIC-CMC5% 和 GIC-CMC10% 材料 14 天后，用扫描电镜观察牙本质小管形态和表面变化。EDX 检测显示，使用 GIC-CMC10% 材料后，钙离子含量和羟基磷灰石形成（Ca/P 比值）均有所增加：结论：添加 CMC 后，GIC 改性材料的表面孔隙率呈下降趋势。然而，随着 CMC 百分比的增加，裂纹表面也随之扩大。这种改性还降低了材料的抗压强度，添加 10% CMC 时的平均屈服强度最低。因此，用 CMC 修饰 GIC 会影响脱矿牙本质的形态、钙离子成分和 Ca/P 比值的变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

European Journal of Dentistry Dentistry-Dentistry (all)

CiteScore

5.10

自引率

0.00%

发文量

161

期刊介绍： The European Journal of Dentistry is the official journal of the Dental Investigations Society, based in Turkey. It is a double-blinded peer-reviewed, Open Access, multi-disciplinary international journal addressing various aspects of dentistry. The journal''s board consists of eminent investigators in dentistry from across the globe and presents an ideal international composition. The journal encourages its authors to submit original investigations, reviews, and reports addressing various divisions of dentistry including oral pathology, prosthodontics, endodontics, orthodontics etc. It is available both online and in print.