生物活性颗粒和铵盐对实验渗透物理化性质的影响。

IF 2.5 4区 医学 Q2 Dentistry
Caroline Mathias, Rafael Soares Gomes, Carmem Silvia Pfeifer, Priscila Regis Pedreira, Janaina Emanuela Damasceno, Giselle Maria Marchi
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引用次数: 0

摘要

本研究对羟基磷灰石纳米颗粒(HAp)、58S生物活性玻璃(BAG)和六氟磷酸二苯硫鎓(DPI)加入后的实验渗透剂的理化性质进行了评价。树脂基体由TEGDMA/Bis-EMA(3:1)、0.5 mol% CQ和1 mol% EDAB组成。共混物接受或不接受0.5 mol% DPI和10% wt BAG或HAp。Icon被用作商业控制。在模拟体液(SBF)浸泡7天前后,采用XRD、FT-IR光谱和SEM对各组进行表征。考察了聚合动力学(n= 3)、吸水性和溶解度(n=10)以及粘度(n= 3)。聚合动力学方面,样品聚合5 min, 40 s和5 min获得数据。统计学分析采用方差分析和Tukey检验(a = 0.05)。SBF浸泡7天后,XRD和FT-IR分析表明,HAp晶相只存在于HAp基团中。Icon和BAG基团的转化率和聚合速率较低,而HAp基团的转化率和聚合速率较高。对于BAG组,DPI在40 s内提高了聚合速率和DC。5 min后,各组DC均在80%以上。在颗粒组中,HAp组粘度较高,而DPI组粘度降低。Icon的吸水率最高。综上所述,BAG既没有改善所研究的物理化学性质,也没有显示出生物活性。DPI的加入降低了颗粒添加引起的粘度,也减弱了BAG添加引起的DC下降。在浸润剂中加入生物活性颗粒应谨慎观察,因为它们会增加黏度,可能不会带来重大的临床改善,因此使用它们是合理的。只有当向渗透剂中添加任何成分作为补偿机制时,才能表示DPI。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of bioactive particles and onium salt on the physicochemical properties of experimental infiltrants.

This study evaluated physicochemical properties of experimental infiltrants after addition of hydroxyapatite nanoparticles (HAp) or 58S bioactive glass (BAG) and diphenyliodonium hexafluorophosphate (DPI). The resin matrix was composed of TEGDMA/Bis-EMA (3:1), 0.5 mol% CQ, and 1 mol% EDAB. The blends received or not 0.5 mol% DPI and 10% wt BAG or HAp. Icon was used as commercial control. The groups were characterized by XRD, FT-IR spectrometry, and SEM before and after simulated body fluid (SBF) immersion for up to 7 days. Polymerization kinetics (n =3 ), water sorption and solubility (n=10), and viscosity (n = 3) were surveyed. For polymerization kinetics, the samples were polymerized for 5 min and the data were obtained from 40 s and 5 min. Statistical analysis was made using ANOVA and Tukey's test (a = 0.05). After 7 days of SBF immersion, XRD and FT-IR showed that the HAp crystalline phase was present only in the HAp groups. A lower degree of conversion (DC) and polymerization rate were observed for the Icon and BAG groups, whereas HAp showed higher values. For the BAG group, DPI increased polymerization rate and DC in 40 s. After 5 min, all groups presented DC above 80%. In groups with particles, the HAp groups exhibited higher viscosity, whereas DPI groups showed a decrease in viscosity. Icon had the highest water sorption. To conclude, BAG neither improved the physicochemical properties studied, nor did it show bioactive properties. The addition of DPI reduced viscosity caused by particle addition and also attenuated the DC decrease caused by BAG addition. The addition of bioactive particles to infiltrants should be seen with caution because they increase viscosity and may not bring major clinical improvements that justify their use. DPI might be indicated only if any component is added to the infiltrant to act as a compensation mechanism.

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来源期刊
Brazilian Oral Research
Brazilian Oral Research DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
3.70
自引率
4.00%
发文量
107
审稿时长
12 weeks
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