牙髓病学中商业级和研究级氢氧化钙颗粒形态的比较。
Comparison of particle morphology between commercial- and research-grade calcium hydroxide in endodontics.
作者信息
Komabayashi Takashi, Ahn Chul, Spears Robert, Zhu Qiang
机构信息
Department of Endodontics, West Virginia University School of Dentistry.
出版信息
J Oral Sci. 2014 Sep;56(3):195-9. doi: 10.2334/josnusd.56.195.
Ca(OH)2 aqueous slurry is widely used as an inter-appointment antimicrobial dressing in root canal treatment. The aim of this study was to quantify the particle size and shape of commercial-grade UltraCal XS (UC) and to compare it with that of research-grade Ca(OH)2 (RG) using a flow particle image analyzer (FPIA). The morphology and penetration inside the dentin tubules of the UC and RG particles were examined using a scanning electron microscope (SEM). UC and RG (10 mg) were mixed with 15 mL of alcohol, and were sonicated. Five milliliters of the dispersion was subjected to FPIA, and particle length, width, perimeter and aspect ratio were analyzed. In addition, UC paste and RG aqueous slurry were agitated on dentin discs and were prepared for SEM examination. There were significant differences between UC and RG with regard to the frequency of different length groups (P < 0.0001). UC contained smaller particles than RG (P < 0.0001). Under SEM, the agitated UC and RG particles occluded the opening of dentin tubules and penetrated inside the dentin tubules. The size of UC particles is smaller than those of RG. Both UC and RG particles were able to penetrate into open dentin tubules.
氢氧化钙水浆在根管治疗中被广泛用作复诊间抗菌敷料。本研究的目的是使用流动颗粒图像分析仪(FPIA)对商业级UltraCal XS(UC)的粒度和形状进行量化,并将其与研究级氢氧化钙(RG)进行比较。使用扫描电子显微镜(SEM)检查UC和RG颗粒在牙本质小管内的形态和渗透情况。将UC和RG(10毫克)与15毫升酒精混合,并进行超声处理。取5毫升分散液进行FPIA分析,分析颗粒的长度、宽度、周长和纵横比。此外,将UC糊剂和RG水浆在牙本质圆盘上搅拌,并制备用于SEM检查的样本。UC和RG在不同长度组的频率方面存在显著差异(P < 0.0001)。UC所含颗粒比RG小(P < 0.0001)。在SEM下,搅拌后的UC和RG颗粒堵塞了牙本质小管的开口并渗透到牙本质小管内部。UC颗粒的尺寸比RG颗粒小。UC和RG颗粒都能够渗透到开放的牙本质小管中。
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