Effect of 15% carbamide peroxide bleaching gel on color of Class V resin composite restoration

Future Dental Journal Pub Date : 2018-12-01 DOI:10.1016/j.fdj.2018.05.005

Ahmed Z. Elhoshy , Kariem Abouelenein , Maha A. Elbaz

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引用次数: 5

Abstract

Objective

To investigate effect of 15% carbamide peroxide bleaching gel on color of Class V resin composite restoration.

Materials and methods

60 class V cavities were made in maxillary premolars Teeth were randomly divided into four groups of 15 specimens each (2 control and 2 experimental or bleached groups). Group A to be restored with light nanocomposite resin (Filtek Z350 XT) with no post-restoration bleaching procedure (control). Group B to be restored with light nanocomposite resin (Filtek Z350 XT, with post-restoration bleaching procedure (Experimental). Group C to be restored with microhybrid resin (Filtek 250 XT) with no post-restoration bleaching procedure (control). Group D to be restored with microhybrid resin (Filtek 250 XT), with post-restoration bleaching procedure (Experimental). The bleaching was made with 15% at home bleaching agent (Opalescence PF). Color, opacity and fluorescence were analyzed by taking digital photos for the specimens at baseline and 24 h after completion of the bleaching procedure. The color pattern was evaluated according to the CIE - L*, a* and b* color system. Bleaching according to the following equation (25) ΔE = [(ΔL) 2+(Δa) 2+(Δb) 2] 1/2 For optical analysis, the specimens were subjected to the color measurements on white and black patterns, considering only the L* coordinate, which was calculated according to the formula: Opacity = L*b/L*w, where L*b corresponds to the reading of the L* coordinate against a black background and L*w against a white background. This procedure was performed before after bleaching, and the difference in opacity between the two periods was calculated in percentage. While for fluorescence comparison, the Fluorescence parameter (FL) was calculated, at baseline and post bleaching procedure, as the difference in color (ΔE) depending on the inclusion or exclusion of the UV component according to the equation: FL = [(CIE L*100 – CIE L*0) 2 + (CIE a*100 – CIE a*0) 2 + (CIE b*100 – CIE b*0) 2] 1/2, where subscripts 100 and 0 denote the 100% UV-included and the UV-excluded conditions respectively. The recorded data for the tested materials' color, opacity and fluorescence were collected and statically analyzed with IBM^® SPSS^® statistical version 20 with the significance level set at P ≤ 0.05.

Results

There was no statistically significantly different between the two materials before as well as after bleaching.

Conclusion: the color change of the nanofilled and microhybride light activated composite after bleaching (home-bleaching) was not perceptible or significant.

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15%过氧化脲漂白凝胶对V类树脂复合修复体颜色的影响

目的探讨15%过氧化脲漂白凝胶对V类树脂复合修复体颜色的影响。材料与方法上颌前磨牙制作V类空腔60个，随机分为4组，每组15个(对照组2个，实验组或漂白组2个)。A组采用轻型纳米复合树脂(Filtek Z350 XT)修复，修复后不进行漂白处理(对照组)。B组采用轻型纳米复合树脂(Filtek Z350 XT)修复，修复后进行漂白处理(实验)。C组采用微杂交树脂(Filtek 250xt)修复，修复后不进行漂白处理(对照组)。D组采用微杂交树脂(Filtek 250xt)修复，修复后进行漂白处理(实验性)。用15%的国产漂白剂(乳白PF)进行漂白。在基线和漂白完成24 h后，通过数码照片对标本进行颜色、不透明度和荧光分析。根据CIE - L*， a*和b*颜色系统对颜色模式进行评价。根据式(25)ΔE = [(ΔL) 2+(Δa) 2+(Δb) 2] 1/2进行光学分析时，只考虑L*坐标，对黑白图案进行颜色测量，根据公式计算:不透明度= L*b/L*w，其中L*b对应于黑色背景下L*坐标的读数，L*w对应于白色背景下L*坐标的读数。该程序在漂白之前和之后进行，并以百分比计算两个时期之间的不透明度差异。而荧光比较，荧光参数(FL)计算，在基线和漂白后程序，作为颜色差异(ΔE)取决于包含或排除紫外线成分，根据公式:FL = [(CIE L*100 - CIE L*0) 2 + (CIE a*100 - CIE a*0) 2 + (CIE b*100 - CIE b*0) 2] 1/2，其中下标100和0分别表示100%的紫外线包含和紫外线排除条件。收集被测材料的颜色、不透明度和荧光的记录数据，使用IBM®SPSS®统计版20进行统计学分析，显著性水平设为P ≤ 0.05。结果两种材料在漂白前和漂白后无统计学差异。结论:纳米填充和微杂化光活化复合材料在漂白(家庭漂白)后的颜色变化不明显或不显著。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Future Dental Journal

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