pH 值和诊室用漂白凝胶应用技术对过氧化氢渗透入牙髓腔的影响。
Effects of pH and Application Technique of In-office Bleaching Gels on Hydrogen Peroxide Penetration into the Pulp Chamber.
出版信息
Oper Dent. 2019 Nov/Dec;44(6):659-667. doi: 10.2341/18-148-L. Epub 2019 Apr 22.
OBJECTIVE
This study aimed to quantify the penetration of hydrogen peroxide (HP) into the pulp chamber in teeth submitted to in-office bleaching with varied pH and application techniques. The color change and pH of the in-office bleaching product during application was also evaluated.
METHODS AND MATERIALS
Ninety-six human premolars were used and randomly divided into 10 groups (n=9) according to the following combination of factors: pH of in-office bleaching agents (two neutral/alkaline pH: Opalescence Boost 38% and Whiteness HP Blue 35% and three acidic pH: Whiteness HP Maxx 35%, Lase Peroxide Sensy 35%, and Total Blanc Office 35%) and application modes (for 3 × 15 minutes [3×15] and 1 × 45 minutes [1×45]). An additional group of non-bleached teeth (control; n=6) was added. First, all teeth were sectioned 3 mm from the cementoenamel junction and the pulp tissue was removed. An acetate buffer was placed in the pulp chamber of all teeth. After bleaching, this solution was transferred to a glass tube in which HP was allowed to react with other components, resulting in a pink solution. The optical density of this pink solution was measured using ultraviolet-visible spectroscopy and converted into amount of HP. Color change before and 1 week after bleaching was evaluated using a digital spectrophotometer. A pH meter with a 6-mm circular and flat surface was used in contact with the enamel surface to quantify the pH of the bleaching gels during application. Data were analyzed using two-way analysis of variance and Tukey tests (α=0.05).
RESULTS
Overall, lower mean HP penetration values were observed for Opalescence Boost 38% and Whiteness HP Blue 35% compared with other bleaching gels (<0.05). Opalescence Boost 38% and Whiteness HP Blue 35% were not influenced by the application technique (>0.05). However, lower mean HP penetration values were observed for Whiteness HP Maxx 35%, Total Blanc Office 35%, and Lase Peroxide Sensy 35% when using the 3×15 application technique compared with the 1×45 technique (<0.05). Significant whitening was detected and no significant difference of color change was observed between groups (>0.54). The pH did not change during the 3×15 application technique; however, all acidic bleaching gels significantly decreased in pH when applied for 1×45 (<0.01).
CONCLUSIONS
The amount of HP that reaches the pulp chamber was lower when neutral/alkaline pH gels were used, independently of the application technique. When considering acidic pH gels, it is preferable to use the 3×15 application technique, mainly because longer application time (1×45) results in lower pH. No difference was observed between groups with regards to color change.
目的
本研究旨在定量评估不同 pH 值和应用技术的诊室漂白剂中过氧化氢(HP)在牙髓腔内的渗透情况。同时,还评估了诊室漂白产品在应用过程中的颜色变化和 pH 值。
方法和材料
共使用 96 颗人离体前磨牙,根据以下组合因素随机分为 10 组(n=9):诊室漂白剂的 pH 值(两种中性/碱性 pH 值:Opalescence Boost 38%和 Whiteness HP Blue 35%,以及三种酸性 pH 值:Whiteness HP Maxx 35%、Lase Peroxide Sensy 35%和 Total Blanc Office 35%)和应用模式(3×15 分钟[3×15]和 1×45 分钟[1×45])。此外,还增加了一组未经漂白的牙齿(对照组;n=6)。首先,所有牙齿从牙釉牙骨质交界处切下 3mm,去除牙髓组织。将醋酸盐缓冲液放入所有牙齿的牙髓腔内。漂白后,将该溶液转移到一个玻璃管中,在管内 HP 与其他成分发生反应,生成粉红色溶液。使用紫外-可见分光光度计测量该粉红色溶液的光密度,并将其转化为 HP 的量。使用数字分光光度计在漂白前和漂白后 1 周评估颜色变化。使用具有 6mm 圆形和平坦表面的 pH 计与牙釉质表面接触,以量化应用过程中漂白凝胶的 pH 值。使用双因素方差分析和 Tukey 检验(α=0.05)进行数据分析。
结果
总体而言,与其他漂白凝胶相比,Opalescence Boost 38%和 Whiteness HP Blue 35%的 HP 渗透平均值较低(<0.05)。Opalescence Boost 38%和 Whiteness HP Blue 35%的应用技术对其没有影响(>0.05)。然而,与 1×45 技术相比,Whiteness HP Maxx 35%、Total Blanc Office 35%和 Lase Peroxide Sensy 35%在使用 3×15 应用技术时 HP 渗透平均值较低(<0.05)。所有组均观察到明显的美白效果,且组间颜色变化无显著差异(>0.54)。3×15 应用技术过程中 pH 值未发生变化;然而,所有酸性漂白凝胶在应用 1×45 时 pH 值均显著降低(<0.01)。
结论
使用中性/碱性 pH 值凝胶时,到达牙髓腔的 HP 量较低,而与应用技术无关。考虑到酸性 pH 值凝胶,使用 3×15 应用技术更为可取,主要是因为更长的应用时间(1×45)会导致 pH 值降低。组间颜色变化无差异。
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