新型纳米结构硅酸钙水泥的溶解度和孔隙度

Stomatoloski glasnik Srbije Pub Date : 2014-01-01 DOI:10.2298/SGS1404190S

T. Stanič, V. Pavlović, V. Jokanović, Marija Živković-Sandić, S. Živković

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引用次数: 1

摘要

介绍。硅酸钙胶结物由于其特殊的生物和物理特性，是牙髓学中最常用的材料。本研究的目的是评估新型实验纳米结构硅酸钙水泥的溶解度和孔隙度。材料和方法。采用新型纳米结构硅酸钙水泥(CS)、商品化硅酸钙水泥(Biodentin)、传统玻璃离子水泥(GIC) (Micron Superior)和树脂增强玻璃离子水泥(Fuji VIII)进行研究。所有材料按照制造商的说明制备，放置在直径16Ч2 mm的金属环中，在37°C的培养箱中保存24小时。之后，将它们称重并放入装满25毫升水的塑料容器中，再放置24小时。然后将所有样品再次称重，计算吸收和溶解度。结果。新CS水泥的溶解度最高(12.45)，其次是传统GIC Micron Superior(11.5)和Biodentin(6.1)，而树脂增强GIC Fuji VIII的溶解度最低(3.8)。差异有统计学意义(p<0.005)。新CS水泥的吸收率最高(24.15)，其次是Biodentin(18.5)和Micron superior (17.95)， GIC Fuji VIII的吸收率最低(7.75)。除了Micron Superior和Biodentin之间的差异外，这些差异也具有统计学意义。结论。新型纳米硅酸钙水泥的溶解度和孔隙度显著高于传统硅酸钙水泥、传统GIC和树脂增强GIC。

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Solubility and porosity of new nanostructured calcium silicate cement

Introduction. Calcium silicate cements are most commonly used materials in endodontics for many indications due to their exceptional biological and physical properties. The aim of this study was to assess solubility and porosity of new experimental nanostructured calcium silicate cement. Material and Methods. A novel nanostructured calcium silicate cement (CS), commercialized calcium silicate cement (Biodentin), traditional glass ionomer cement (GIC) (Micron Superior) and resin-reinforced glass ionomer cement (Fuji VIII) were used in this study. All materials were prepared as per manufactuers’ instructions, placed in metal rings of 16Ч2 mm diameter and kept in an incubator at 37°C for 24 hours. After that they were weighed and put in plastic containers filled with 25 ml of water for additional 24 hours. Then after all samples were weighed again and resorption and solubility were calculated. Results. The highest solubility was found for new CS cement (12.45) followed by conventional GIC Micron Superior (11.5) and Biodentin (6.1) whereas the lowest solubility was for resin reinforced GIC Fuji VIII (3.8). These differences were statistically significant (p<0.005). The highest absorption was also observed in new CS cement (24.15), followed by Biodentin (18.5) and Micron superior (17.95) while the lowest was for GIC Fuji VIII (7.75). These differences were also statistically significant except between Micron Superior and Biodentin. Conclusion. Solubility and porosity of new nanostructured calcium silicate cement were significantly higher than for traditional calcium silicate cement, traditional GIC and resin-reinforced GIC.

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Stomatoloski glasnik Srbije

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12 weeks