Study on the fluoride-releasing ability of dental GICmaterials in deionized water and artificial saliva environments

Q. M. Do, Ngoc Tri Huynh Nguyen, Thi Hong Ngu Huynh, H. L. Pham, T. T. Ho, Do Trung Kien Kieu, N. Huynh
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引用次数: 2

Abstract

: Glass ionomer cement (GIC) is a particular type of cement used in dentistry. One of the most critical properties of GIC is the ability to release fluoride, which can prevent recurrent tooth decay. This study simultaneously investigated the release of fluoride, the compressive strength, and the apparent density of three GICs in deionized water (DW) and artificial saliva (AS) environments. GICs with 3 different types of glass powders were used to study. Powder B (the original) was the glass powder based on the SiO 2 -Al 2 O 3 CaF 2 -AlPO 4 -Na 3 AlF 6 system, powder HA5 was powder B supplemented with 5 wt. % hydroxyapatite powder (HA), and powder Si 2 was powder B surface-treated with 2 wt. % silane JH-S69. The results of this study showed the amount of fluoride ion (F - ) released during 28 days in AS was lower in comparison to the DW environment, and the rate slowed down significantly after 1 d. The F - release rate at 1-d age tended to be high as the compression strength was low. In AS, the powder supplemented with 5 wt.% HA improved the compressive strength and the cumulative amount of F - released by the GIC. After 28 d, the F - release of the GIC materials were able to be recharged in a NaF solution with 1,018 ppm F - concentration for 3 min and further fluoride ions were released in both the DW and AS environments.
牙用gi材料在去离子水和人工唾液环境中释氟能力的研究
玻璃离子水门合剂(GIC)是一种用于牙科的特殊类型的水门合剂。GIC最重要的特性之一是能够释放氟化物,这可以防止蛀牙复发。本研究同时考察了三种GICs在去离子水(DW)和人工唾液(AS)环境下的氟释放、抗压强度和表观密度。用3种不同类型的玻璃粉对GICs进行了研究。粉末B(原)是基于sio2 - al2o3 - caf2 - alpo4 -Na 3alf6体系的玻璃粉,粉末HA5是在粉末B中添加了5%的羟基磷灰石粉末(HA),粉末si2是用2%的硅烷JH-S69表面处理的粉末B。本研究结果表明,与DW环境相比,AS环境中氟离子(F -)在28 d内的释放量较低,且在1 d后释放速度明显放缓。随着抗压强度的降低,1 d时F -的释放率趋于较高。在AS中,添加5 wt.% HA的粉末提高了抗压强度和GIC释放的F -累积量。28 d后,GIC材料的F -释放能够在F -浓度为1018 ppm的NaF溶液中重新充电3 min,并且在DW和AS环境中释放更多的氟离子。
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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