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酸蚀对三氧化物聚合体和生物玻璃在分叉穿孔中固位力的影响:一项体外对比研究。

The effect of acidity on dislodgment resistance of mineral trioxide aggregate and bioaggregate in furcation perforations: an in vitro comparative study.

机构信息

Endodontic Department, Ain Shams University, Egypt, Cairo.

出版信息

J Endod. 2012 Feb;38(2):245-9. doi: 10.1016/j.joen.2011.09.013. Epub 2011 Oct 27.

DOI:10.1016/j.joen.2011.09.013
PMID:22244646
Abstract

INTRODUCTION

The aim of this study was to compare the effect of acidic environment on the dislodgement resistance of mineral trioxide aggregate (MTA) and Bioaggregate (Innovative BioCeramix, Vancouver, Canada) when used as perforation repair materials.

METHODS

Eighty, human, mandibular molars were used. Perforations were made in the furcation of each molar and enlarged to #4 Pesso drills. After perforation repair, specimens of each material were randomly divided into 4 groups (n = 10) according to storage media and time: group A: phosphate-buffered saline (PBS) (pH = 7.4) for 4 days, group B: acetic acid (pH = 5.4) for 4 days, group C: PBS for 34 days, and group D: acetic acid (pH = 5.4) for 4 days followed by exposure to PBS for 30 days. Dislodgment resistance was then measured using a universal testing machine, and then the specimens were vertically split to examine the perforated dentin wall using scanning electron microscopy.

RESULTS

MTA resisted dislodgement more efficiently than BA after 4 days in PBS (P < .05). The dislodgment resistance of MTA was significantly reduced (P < .05) after exposure to acetic acid, whereas BA was not affected (P > .05). There was an increase in the dislodgment resistance with the increase in the storage time to 34 days (P < .01). After 34 days, there was a statistically significant difference among groups; the MTA D group had significantly the highest bond strength, and the BA D group D had the lowest (P < .05).

CONCLUSIONS

MTA is more influenced by acidic pH than BA. Storage for 30 days in PBS can reverse the affected bond of MTA by the acidic environment.

摘要

简介

本研究旨在比较在酸性环境下,作为穿孔修复材料时,矿物三氧化物聚合体(MTA)和生物聚合体(加拿大温哥华的 Innovative BioCeramix)的抗脱位性能。

方法

使用 80 个人类下颌磨牙。在每个磨牙的分叉处制作穿孔,并扩大至#4 Pesso 钻头。穿孔修复后,根据储存介质和时间将每种材料的标本随机分为 4 组(n = 10):组 A:磷酸盐缓冲盐水(PBS)(pH = 7.4)4 天,组 B:醋酸(pH = 5.4)4 天,组 C:PBS 34 天,组 D:醋酸(pH = 5.4)4 天,然后暴露于 PBS 30 天。然后使用万能试验机测量抗脱位强度,然后将标本垂直劈开,使用扫描电子显微镜检查穿孔牙本质壁。

结果

在 PBS 中 4 天后,MTA 比 BA 更能抵抗脱位(P <.05)。暴露于醋酸后,MTA 的抗脱位强度显著降低(P <.05),而 BA 不受影响(P >.05)。随着储存时间延长至 34 天,抗脱位强度增加(P <.01)。34 天后,各组之间存在统计学差异;MTA D 组的粘结强度最高,BA D 组的粘结强度最低(P <.05)。

结论

MTA 比 BA 更容易受到酸性 pH 的影响。在 PBS 中储存 30 天可以逆转酸性环境对 MTA 粘结的影响。

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