利用生物可吸收性和生物矿化度的差异对煅烧和未煅烧羟基磷灰石的体外溶解度进行比较评估

Woo Young Jang, Jae Chul Pyun, Jeong Ho Chang
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摘要

本研究通过体外溶解评估报告了未煅烧工艺对羟基磷灰石生物吸附和生物矿化的影响。制备的煅烧羟基磷灰石(c-HAp)和未煅烧羟基磷灰石(unc-HAp)的粒度分别为 2 μm 和 13 μm,表面积分别为 4.47 m2/g 和 108.08 m2/g,Ca/P 比分别为 1.66 和 1.52。根据 ISO 10993-14 标准,c-HAp 和 unc-HAp 在柠檬酸缓冲液中于 37 °C 下进行了 20 天的体外溶解评估。在溶解过程中,c-HAp 和 unc-HAp 的重量增加,钙离子和磷离子迅速释放。从 c-HAp 中释放出的钙离子形成了杆状颗粒,其形态更长、更细,而在 unc-HAp 中,它们看起来更粗、更短。在 ICP-OES 结果中,钙元素的浓度因这种形成而先增后减。通过 XRD 图样,可以确定棒状颗粒为柠檬酸钙(Ca-citrate)。unc-HAp柠檬酸钙颗粒中的钙含量高于c-HAp。在细胞毒性评估中,unc-HAp 表现出无毒特性。因此,与 c-HAp 相比,unc-HAp 具有更高的生物吸附性和生物矿化性,表现出更强的生物相容性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative In Vitro Dissolution Assessment of Calcined and Uncalcined Hydroxyapatite Using Differences in Bioresorbability and Biomineralization
This study reports the effect of the not-calcining process on the bioresorption and biomineralization of hydroxyapatite through in vitro dissolution assessment. The prepared calcined hydroxyapatite (c-HAp) and uncalcined hydroxyapatite (unc-HAp) have a particle size of 2 μm and 13 μm, surface areas of 4.47 m2/g and 108.08 m2/g, and a Ca/P ratio of 1.66 and 1.52, respectively. In vitro dissolution assessments of c-HAp and unc-HAp were performed for 20 days at 37 °C in a citric acid buffer according to ISO 10993-14. During the dissolution, the c-HAp and unc-HAp confirmed an increase in weight, and the calcium and phosphorous ions were rapidly released. The calcium ions released from c-HAp formed rod-shaped particles with a longer and thinner morphology, while in unc-HAp, they appeared thicker and shorter. In the ICP-OES results, the concentrations of calcium elements were initially increased and then decreased by this formation. The rod-shaped particles identified as calcium citrate (Ca-citrate) through the XRD pattern. The calcium content of Ca-citrate particles from unc-HAp was higher than that from c-HAp. The unc-HAp demonstrated non-toxic properties in a cytotoxicity evaluation. Therefore, due to its higher bioresorption and biomineralization, unc-HAp exhibits enhanced biocompatibility compared to c-HAp.
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