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J Orofac Orthop. 2022 May;83(3):157-171. doi: 10.1007/s00056-021-00306-1. Epub 2021 Jun 24.
3
In vitro evaluation of enamel surface roughness and morphology after orthodontic debonding: Traditional cleanup systems versus polymer bur.正畸去带后釉质表面粗糙度和形态的体外评估:传统清洁系统与聚合体车针。
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四种用于去除托槽脱粘后残留正畸粘合剂的方法的体外牙釉质表面粗糙度分析

In vitro enamel surface roughness analysis of 4 methods for removal of remaining orthodontic adhesive after bracket debonding.

作者信息

Thys Daniela Greenhalgh, Martins Fabiola Roberta Pizzolatti, Cardinal Lucas, Ribeiro Gerson Luiz Ulema

出版信息

Angle Orthod. 2023 Mar 1;93(2):213-221. doi: 10.2319/031722-227.1.

DOI:10.2319/031722-227.1
PMID:36548809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9933566/
Abstract

OBJECTIVES

To perform an in vitro qualitative and quantitative evaluation of the enamel surface (by scanning electronic microscopy [SEM] and measuring polishing time and roughness analysis, respectively) among four methods to remove remaining orthodontic adhesive after bracket debonding.

MATERIALS AND METHODS

Forty-one human premolars were randomly divided into four groups (n = 10) according to the adhesive remnant removal method and one tooth was used as control: Group 1 (G1): Enhance (Dentsply, Milford, USA); Group 2 (G2): Fiberglass (TDV, Pomerode, Brazil); Group 3 (G3): DU10CA-Ortho (Dian Fong Industrial, Shenzhen, China); Group 4 (G4): Sof-Lex Pop-On (3M ESPE, Seefeld, Germany). Roughness was measured before bonding and after complete removal of the remaining adhesive (Ra2). SEM analysis was performed on one sample of each group after adhesive removal and polishing. The time required for adhesive remnant removal and polishing was measured in all groups. Analysis of variance and Tukey post hoc for pairwise comparison was applied to compare polishing times among groups and analysis of covariance was used to compare Ra2 means.

RESULTS

Comparison between groups show that G4 presented the lowest Ra2 mean (0.43 μm)c followed by G3 (0.71 μm)ac, G1 (1.06 μm)ab, and G2 (1.21 μm)b - different letters, statistically different at P ≤ 0.05. In addition, Fiberglass was more time-consuming for adhesive remnant removal than other methods (P ≤ .05). SEM analysis showed that some enamel damage occurred for all methods.

CONCLUSIONS

All methods were able to remove the remaining adhesive and polish the enamel. The DU10CA-Ortho and Sof-Lex methods promoted better polishing of the enamel surface and exhibited a similar time-consuming process.

摘要

目的

通过扫描电子显微镜(SEM)以及分别测量抛光时间和粗糙度分析,对四种去除正畸托槽脱粘后残留粘合剂的方法进行牙釉质表面的体外定性和定量评估。

材料与方法

根据粘合剂残留去除方法,将41颗人类前磨牙随机分为四组(n = 10),并将一颗牙齿用作对照:第1组(G1):Enhance(美国登士柏公司,米尔福德);第2组(G2):玻璃纤维(巴西TDV公司,波梅罗迪);第3组(G3):DU10CA-Ortho(中国深圳点锋实业有限公司);第4组(G4):Sof-Lex Pop-On(德国3M ESPE公司,塞费尔德)。在粘结前和完全去除残留粘合剂后(Ra2)测量粗糙度。在每组去除粘合剂并抛光后,对一个样本进行SEM分析。测量所有组去除粘合剂残留和抛光所需的时间。采用方差分析和Tukey事后检验进行组间抛光时间的两两比较,并采用协方差分析比较Ra2均值。

结果

组间比较显示,G4组的Ra2均值最低(0.43μm),其次是G3组(0.71μm),G1组(1.06μm),G2组(1.21μm)——不同字母表示在P≤0.05时具有统计学差异。此外,与其他方法相比,玻璃纤维去除粘合剂残留更耗时(P≤0.05)。SEM分析表明,所有方法均会对牙釉质造成一定损伤。

结论

所有方法均能去除残留粘合剂并对牙釉质进行抛光。DU10CA-Ortho和Sof-Lex方法能更好地抛光牙釉质表面,且耗时相近。