Ha William N, Kahler Bill, Walsh Laurence James
University of Queensland School of Dentistry, Brisbane, Queensland, Australia.
University of Queensland School of Dentistry, Brisbane, Queensland, Australia.
J Endod. 2014 Mar;40(3):423-6. doi: 10.1016/j.joen.2013.10.018. Epub 2013 Nov 19.
Mineral trioxide aggregate (MTA) is commonly supplied in 1-g packages of powder that are used by some clinicians across several treatments against the manufacturer's instructions. ProRoot MTA cannot be resealed after opening, whereas MTA Angelus has a resealable lid. This study assessed changes in particle size distribution once the packaging had been opened.
Fresh ProRoot MTA and MTA Angelus powder were analyzed by using laser diffraction and scanning electron microscopy and compared with powder from packages that had been opened once and kept in storage for 2 years. The ProRoot packet was folded over, whereas the MTA Angelus jar had the lid twisted back to its original position.
After 2 years, ProRoot MTA powder showed a 6-fold increase in particle size (lower 10% from 1.13 to 4.37 μm, median particle size from 1.99 to 12.87 μm, and upper 10% from 4.30 to 34.67 μm), with an accompanying 50-fold change in particle surface area. MTA Angelus showed only a 2-fold increase in particle size (4.15 to 8.32 μm, 12.72 to 23.79 μm, and 42.66 to 47.91 μm, respectively) and a 2-fold change in particle size surface area.
MTA reacts with atmospheric moisture, causing an increase in particle size that may adversely affect the properties and shelf life of the material. Smaller particles have a greater predisposition to absorb moisture. Single-use systems are advised.
矿物三氧化物凝聚体(MTA)通常以1克装的粉末形式供应,一些临床医生在多次治疗中使用时未遵循制造商的说明。ProRoot MTA打开后无法重新密封,而MTA Angelus有可重新密封的盖子。本研究评估了包装打开后粒度分布的变化。
使用激光衍射和扫描电子显微镜对新鲜的ProRoot MTA和MTA Angelus粉末进行分析,并与打开一次并储存2年的包装中的粉末进行比较。ProRoot包装被折叠起来,而MTA Angelus罐子的盖子被拧回原位。
2年后,ProRoot MTA粉末的粒度增加了6倍(下限10%从1.13μm增加到4.37μm,中位粒径从1.99μm增加到12.87μm,上限10%从4.30μm增加到34.67μm),同时颗粒表面积变化了50倍。MTA Angelus的粒度仅增加了2倍(分别为4.15μm至8.32μm、12.72μm至23.79μm和42.66μm至47.91μm),颗粒表面积变化了2倍。
MTA与大气中的水分发生反应,导致粒度增加,这可能会对材料的性能和保质期产生不利影响。较小的颗粒更容易吸收水分。建议使用一次性系统。
