光聚合过程中复合树脂增量和髓腔温度变化的实时分析
Real-Time Analysis of Temperature Changes in Composite Increments and Pulp Chamber during Photopolymerization.
作者信息
Kim Ryan Jin-Young, Lee In-Bog, Yoo Jin-Young, Park Su-Jung, Kim Sin-Young, Yi Young-Ah, Hwang Ji-Yun, Seo Deog-Gyu
机构信息
Department of Conservative Dentistry and Dental Research Institute, School of Dentistry, Seoul National University Seoul 110-749, Republic of Korea.
Department of Dental Hygiene, Wonju College of Medicine, Yonsei University, Wonju 220-701, Republic of Korea.
出版信息
Biomed Res Int. 2015;2015:923808. doi: 10.1155/2015/923808. Epub 2015 Oct 18.
OBJECTIVE
The aim of this study was to evaluate the temperature change at various sites within the composite and on the pulpal side of dentin during polymerization of two composite increments.
MATERIALS AND METHODS
Class I cavities prepared in third molars were restored in two composite increments (n = 5). Temperatures were measured for 110 s using eight thermocouples: bottom center of cavity (BC), top center of 1st increment (MC), top center of 2nd increment (TC), bottom corner of cavity (BE), top corner of 1st increment (ME), top corner of 2nd increment (TE), pulpal side of dentin (PD), and center of curing light guide tip (CL).
RESULTS
Maximum temperature values (°C) measured during polymerization of 1st increment were MC (59.8); BC (52.8); ME (51.3); CL (50.7); BE (48.4); and PD (39.8). Maximum temperature values during polymerization of 2nd increment were TC 58.5; TE (52.6); MC (51.7); CL (50.0); ME (48.0); BC (46.7); BE (44.5); and PD (38.8).
CONCLUSION
Temperature at the floor of the cavity was significantly higher during polymerization of 1st increment compared to 2nd increment. Temperature rise was higher at the center than at the corner and at the top surface than at the bottom surface of each increment.
目的
本研究旨在评估两层复合树脂充填材料聚合过程中,复合树脂内部不同部位以及牙本质牙髓侧的温度变化。
材料与方法
在第三磨牙制备I类洞,分两层用复合树脂进行充填修复(n = 5)。使用8个热电偶测量110秒内的温度:洞底中央(BC)、第一层充填材料顶部中央(MC)、第二层充填材料顶部中央(TC)、洞底角落(BE)、第一层充填材料顶部角落(ME)、第二层充填材料顶部角落(TE)、牙本质牙髓侧(PD)以及光固化灯头中心(CL)。
结果
第一层充填材料聚合过程中测得的最高温度值(℃)依次为:MC(59.8);BC(52.8);ME(51.3);CL(50.7);BE(48.4);PD(39.8)。第二层充填材料聚合过程中测得的最高温度值依次为:TC 58.5;TE(52.6);MC(51.7);CL(50.0);ME(48.0);BC(46.7);BE(44.5);PD(38.8)。
结论
与第二层充填材料聚合时相比,第一层充填材料聚合时洞底温度显著更高。每层充填材料聚合时,中央温度上升高于角落,顶面温度上升高于底面。
Zotero 插件