用于空气喷砂的新型含氟和含氯生物活性玻璃
Novel Fluoride- and Chloride-containing Bioactive Glasses for Use in Air Abrasion.
机构信息
Hunan Key Laboratory of Oral Health Research & Academician Workstation for Oral-maxillofacial and Regenerative Medicine & Xiangya Stomatological Hospital & Xiangya School of Stomatology, Central South University, Changsha, 410008, Hunan, China; Institute of Dentistry, Dental Physical Sciences Unit, Barts & The London School of Medicine and Dentistry, Queen Mary University of London, E1 4NS, UK.
Hunan Key Laboratory of Oral Health Research & Academician Workstation for Oral-maxillofacial and Regenerative Medicine & Xiangya Stomatological Hospital & Xiangya School of Stomatology, Central South University, Changsha, 410008, Hunan, China.
出版信息
J Dent. 2022 Oct;125:104252. doi: 10.1016/j.jdent.2022.104252. Epub 2022 Aug 26.
OBJECTIVES
To investigate the degradation, fluorapatite formation, biological safety and cutting efficiency on dentine of the mixed fluoride- and chloride-containing bioactive glasses (BGs).
METHODS
Two series of mixed fluoride- and chloride-containing glasses (GPFCl and GPF2.3Cl series) were synthesized using a melt-quench method. Glass transition temperature (T) and the bioactivity in term of glass degradation and fluorapatite formation were evaluated in Tris buffer solution. The cutting efficiency of the powdered BGs (GPF2.3Cl series) on dentine via air abrasion was investigated using white light profilometry and scanning electron microscope. The cytotoxicity of GPF2.3Cl series on human periodontal ligament stem cells (hPLSCs) and oral fibroblasts (OFB) were examined by MTT.
RESULTS
These BGs are highly degradable and able to form fluorapatite within 3h of immersion. The formation of CaF was also found in the high fluoride-containing BGs. The faster glass degradation was evidenced in the BGs with higher chloride. A significant reduction of T from 790°C to 463°C was seen with increasing in calcium halide content. Air abrasion on dentine using the low and intermediate chloride-containing glasses demonstrates clear depressions, while no depression was found using the high chloride-containing glass. Moreover, the studied BGs showed no cytotoxicity to hPLSCs and OFB.
CONCLUSIONS
The glasses with mixed fluoride and chloride integrate the benefits from the presence of both, showing rapid glass degradation, fast fluorapatite formation, excellent biocompatibility and controllable hardness to provide a selective cutting efficiency on dentine.
CLINICAL SIGNIFICANCE
The developed BGs air abrasive with tunable hardness by varying chloride content can selectively cut different dental tissues. In clinic, a relatively hard BG is of great interest for caries preparation, while a soft glass is attractive for tooth cleaning.
目的
研究混合氟氯生物活性玻璃(BGs)的降解、氟磷灰石形成、生物安全性以及对牙本质的切割效率。
方法
采用熔融淬火法合成了两种系列的混合氟氯玻璃(GPFCl 和 GPF2.3Cl 系列)。采用 Tris 缓冲液评估玻璃的玻璃转变温度(T)和生物活性,包括玻璃降解和氟磷灰石形成。通过白光轮廓术和扫描电子显微镜研究了经空气喷砂的粉末状 BGs(GPF2.3Cl 系列)对牙本质的切割效率。通过 MTT 研究了 GPF2.3Cl 系列对人牙周膜干细胞(hPLSCs)和口腔成纤维细胞(OFB)的细胞毒性。
结果
这些 BGs 具有高度的降解性,并能在 3h 内形成氟磷灰石。在高氟含量的 BGs 中也发现了 CaF 的形成。含有较高氯的 BGs 玻璃降解速度更快。随着钙卤化物含量的增加,T 从 790°C 显著降低至 463°C。使用低氯和中氯含量的玻璃对牙本质进行空气喷砂可明显形成凹陷,而使用高氯含量的玻璃则未发现凹陷。此外,研究的 BGs 对 hPLSCs 和 OFB 无细胞毒性。
结论
具有混合氟和氯的玻璃结合了两者的优势,具有快速的玻璃降解、快速的氟磷灰石形成、优异的生物相容性和可控制的硬度,从而对牙本质提供了选择性的切割效率。
临床意义
通过改变氯含量来调节硬度的开发的 BGs 空气喷砂可以选择性地切割不同的牙齿组织。在临床上,对于龋齿预备,相对硬的 BG 非常有吸引力,而软玻璃则对牙齿清洁有吸引力。
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