含氟生物活性玻璃复合材料的离子释放及氟再充注
Ion release from, and fluoride recharge of a composite with a fluoride-containing bioactive glass.
作者信息
Davis Harry B, Gwinner Fernanda, Mitchell John C, Ferracane Jack L
机构信息
Department of Restorative Dentistry, Oregon Health & Science University, 2730 S.W. Moody Ave., Portland, OR 97201-5042, USA.
Department of Restorative Dentistry, Oregon Health & Science University, 2730 S.W. Moody Ave., Portland, OR 97201-5042, USA.
出版信息
Dent Mater. 2014 Oct;30(10):1187-94. doi: 10.1016/j.dental.2014.07.012. Epub 2014 Aug 28.
OBJECTIVES
Materials that are capable of releasing ions such as calcium and fluoride, that are necessary for remineralization of dentin and enamel, have been the topic of intensive research for many years. The source of calcium has most often been some form of calcium phosphate, and that for fluoride has been one of several metal fluoride or hexafluorophosphate salts. Fluoride-containing bioactive glass (BAG) prepared by the sol-gel method acts as a single source of both calcium and fluoride ions in aqueous solutions. The objective of this investigation was to determine if BAG, when added to a composite formulation, can be used as a single source for calcium and fluoride ion release over an extended time period, and to determine if the BAG-containing composite can be recharged upon exposure to a solution of 5000ppm fluoride.
METHODS
BAG 61 (61% Si; 31% Ca; 4% P; 3% F; 1% B) and BAG 81 (81% Si; 11% Ca; 4% P; 3% F; 1% B) were synthesized by the sol-gel method. The composite used was composed of 50/50 Bis-GMA/TEGDMA, 0.8% EDMAB, 0.4% CQ, and 0.05% BHT, combined with a mixture of BAG (15%) and strontium glass (85%) to a total filler load of 72% by weight. Disks were prepared, allowed to age for 24h, abraded, then placed into DI water. Calcium and fluoride release was measured by atomic absorption spectroscopy and fluoride ion selective electrode methods, respectively, after 2, 22, and 222h. The composite samples were then soaked for 5min in an aqueous 5000ppm fluoride solution, after which calcium and fluoride release was again measured at 2, 22, and 222h time points.
RESULTS
Prior to fluoride recharge, release of fluoride ions was similar for the BAG 61 and BAG 81 composites after 2h, and also similar after 22h. At the four subsequent time points, one prior to, and three following fluoride recharge, the BAG 81 composite released significantly more fluoride ions (p<0.05). Both composites were recharged by exposure to 5000ppm fluoride, although the BAG 81 composite was recharged more than the BAG 61 composite. The BAG 61 composite released substantially more calcium ions prior to fluoride recharge during each of the 2 and 22h time periods. Thereafter, the release of calcium at the four subsequent time points was not significantly different (p>0.05) for the two composites.
SIGNIFICANCE
These results show that, when added to a composite formulation, fluoride-containing bioactive glass made by the sol-gel route can function as a single source for both calcium and fluoride ions, and that the composite can be readily recharged with fluoride.
目的
能够释放牙本质和牙釉质再矿化所需离子(如钙和氟)的材料多年来一直是深入研究的主题。钙的来源最常见的是某种形式的磷酸钙,而氟的来源则是几种金属氟化物或六氟磷酸盐盐类中的一种。通过溶胶 - 凝胶法制备的含氟生物活性玻璃(BAG)在水溶液中作为钙和氟离子的单一来源。本研究的目的是确定当BAG添加到复合配方中时,是否能在较长时间内作为钙和氟离子的单一来源释放,以及含BAG的复合材料在暴露于5000ppm氟溶液后是否可以再充电。
方法
通过溶胶 - 凝胶法合成BAG 61(61%硅;31%钙;4%磷;3%氟;1%硼)和BAG 81(81%硅;11%钙;4%磷;3%氟;1%硼)。所用复合材料由50/50的双酚A - 双甲基丙烯酸缩水甘油酯/三乙二醇二甲基丙烯酸酯、0.8%的N,N - 二甲基丙烯酸乙酯、0.4%的樟脑醌和0.05%的二叔丁基对甲酚组成,并与BAG(15%)和锶玻璃(85%)的混合物混合,使总填料负载量达到72%(重量)。制备圆盘,使其老化24小时,打磨后放入去离子水中。分别在2、22和222小时后,通过原子吸收光谱法和氟离子选择性电极法测量钙和氟的释放量。然后将复合样品在5000ppm氟水溶液中浸泡5分钟,之后再次在2、22和222小时时间点测量钙和氟的释放量。
结果
在氟再充电之前,BAG 61和BAG 81复合材料在2小时后氟离子释放量相似,在22小时后也相似。在随后的四个时间点,即氟再充电之前和之后的三个时间点,BAG 81复合材料释放的氟离子明显更多(p<0.05)。两种复合材料通过暴露于5000ppm氟进行再充电,尽管BAG 81复合材料比BAG 61复合材料再充电程度更高。在2小时和22小时的每个时间段内,BAG 61复合材料在氟再充电之前释放的钙离子明显更多。此后,两种复合材料在随后的四个时间点的钙释放量没有显著差异(p>0.05)。
意义
这些结果表明,当添加到复合配方中时,通过溶胶 - 凝胶法制备的含氟生物活性玻璃可以作为钙和氟离子的单一来源发挥作用,并且该复合材料可以很容易地用氟进行再充电。
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