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两种双重固化树脂水门汀经氧化锆陶瓷片光固化后的转化率。

Degree of conversion of two dual-cured resin cements light-irradiated through zirconia ceramic disks.

机构信息

Department of Medical & Biological Engineering, Graduate School, Kyungpook National University, Daegu, Republic of Korea.

Department of Dental Biomaterials, School of Dentistry, and Institute for Biomaterials Research & Development, Kyungpook National University, Daegu, Republic of Korea.

出版信息

J Adv Prosthodont. 2013 Nov;5(4):464-70. doi: 10.4047/jap.2013.5.4.464. Epub 2013 Nov 28.

Abstract

PURPOSE

The aim of this Fourier transform infrared (FTIR) spectroscopic study was to measure the degree of conversion (DC) of dual-cured resin cements light-irradiated through zirconia ceramic disks with different thicknesses using various light-curing methods.

MATERIALS AND METHODS

Zirconia ceramic disks (KT12) with three different thicknesses (1.0, 2.0, and 4.0 mm) were prepared. The light transmittance of the disks was measured using ultraviolet visible near-infrared spectroscopy. Four different light-curing protocols were used by combining two curing light modes (Elipar TriLight (standard mode) and bluephase G2 (high power mode)) with light-exposure times of 40 and 120 seconds. The DCs of the two dual-cured resin cements (Duo-Link and Panavia F2.0) light-irradiated through the disks was analyzed at three time intervals (3, 7, and 10 minutes) by FTIR spectroscopy. The data was analyzed using repeated measures ANOVA (α=.05).Two-way ANOVA and Tukey post hoc test were used to analyze the 10 minute DC results.

RESULTS

The 1.0 mm thick disk exhibited low light transmittance (<25%), and the transmittance decreased considerably with increasing disk thickness. All groups exhibited significantly higher 10 minute DC values than the 3 or 7 minute values (P<.05), but some exceptions were observed in Duo-Link. Two-way ANOVA revealed that the influence of the zirconia disk thickness on the 10 minute DC was dependent on the light-curing methods (P<.001). This finding was still valid even at 4.0 mm thickness, where substantial light attenuation took place.

CONCLUSION

The curing of the dual-cured resin cements was affected significantly by the light-curing technique, even though the additional chemical polymerization mechanism worked effectively.

摘要

目的

本傅里叶变换红外(FTIR)光谱研究的目的是测量在不同厚度的氧化锆陶瓷片下使用不同光固化方法进行光照射的双固化树脂水门汀的转化率(DC)。

材料与方法

制备了三种不同厚度(1.0、2.0 和 4.0 毫米)的氧化锆陶瓷片。使用紫外可见近红外光谱法测量了圆盘的透光率。通过将两种固化光模式(Elipar TriLight(标准模式)和 bluephase G2(高功率模式))与 40 和 120 秒的光暴露时间相结合,使用了四种不同的光固化方案。通过 FTIR 光谱分析了两种双固化树脂水门汀(Duo-Link 和 Panavia F2.0)在通过圆盘照射后的三个时间间隔(3、7 和 10 分钟)的 DC。数据采用重复测量方差分析(α=.05)进行分析。使用双向方差分析和 Tukey 事后检验分析 10 分钟 DC 结果。

结果

1.0 毫米厚的圆盘透光率低(<25%),且随着圆盘厚度的增加透光率显著降低。所有组在 10 分钟时的 DC 值均明显高于 3 或 7 分钟时的值(P<.05),但 Duo-Link 中存在一些例外。双向方差分析显示,氧化锆圆盘厚度对 10 分钟 DC 的影响取决于光固化方法(P<.001)。即使在厚度为 4.0 毫米的情况下也存在这种情况,此时会发生明显的光衰减。

结论

尽管额外的化学聚合机制有效,但双固化树脂水门汀的固化受到光固化技术的显著影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6652/3865204/1f9b5d44c592/jap-5-464-g001.jpg

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