金属及美观托槽网在脱粘前后的扫描电子显微镜分析。

Scanning electron microscopy analysis of metallic and aesthetic bracket meshes before and after debonding.

作者信息

Rodríguez-Chávez Jacqueline Adelina, Flores-Ruiz Hugo Marcelo, Flores-Ledesma Abigailt, García-Pérez Alvaro, Bazán-Diaz Lourdes

机构信息

Institute of Dental Research, Department of Integral Dental Clinics, University Center for Health Sciences, University of Guadalajara, Guadalajara, Mexico.

Department of Natural and Exact Sciences, CUValles, University of Guadalajara, Ameca, Mexico.

出版信息

Korean J Orthod. 2025 Jan 25;55(1):15-25. doi: 10.4041/kjod24.073. Epub 2024 Oct 11.

DOI:10.4041/kjod24.073

PMID:39849963

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11788184/

Abstract

OBJECTIVE

To study the influence of bracket base meshes on shear bond strength and observe them using a scanning electron microscopy (SEM) before and after debonding.

METHODS

Ninety brackets were divided into nine groups of 10 samples each: G1-Alexander, G2-Mini Sprint Brackets, G3-In-Ovation R CCO, G4-Gemini SL Self-Ligating Bracket, G5-Classic mini 2G Stylus, G6-Gemini Metal Brackets, G7-Clarity Advanced, G8-Crystall-Ize, and G9-Ceramic Series Flexx 2G. Groups G1 to G6 and G7 to G9 consisted of metallic and aesthetic brackets, respectively. Initial photographs of all brackets were taken through SEM at 25X magnification. The brackets were then bonded to premolars using Transbond XT, and a shear bond strength test was conducted after 24 hours using an Instron machine at 1 mm/min. After debonding, the bracket meshes were observed using SEM.

RESULTS

Before bonding, 72.22% of brackets didn't present mesh defects, while 27.77% did. SEM analysis revealed that G4 and G5 presented defects in 100%, G7 in 40%, and G8 in 10%. The average shear bond strength of 9.67 ± 2.84 MPa and 11.21 ± 4.99 MPa were obtained for both metallic and aesthetic brackets, respectively. A Pairwise-Wilcoxon test with Benjamini-Hochberg correction was conducted to determine specific statistical differences between the groups, revealing significant differences based on bracket type and shear bond strength ( < 0.009).

CONCLUSIONS

This study suggested that the shape of bracket meshes influenced shear bond strength.

摘要

目的

研究托槽基底网格对剪切粘结强度的影响，并在脱粘前后使用扫描电子显微镜（SEM）进行观察。

方法

将90个托槽分为9组，每组10个样本：G1-亚历山大托槽，G2-迷你 Sprint 托槽，G3-In-Ovation R CCO 托槽，G4-双子星 SL 自结扎托槽，G5-经典迷你 2G 笔式托槽，G6-双子星金属托槽，G7-Clarity Advanced 托槽，G8-Crystall-Ize 托槽，以及 G9-陶瓷系列 Flexx 2G 托槽。G1至G6组和G7至G9组分别由金属托槽和美观托槽组成。所有托槽的初始照片通过SEM以25倍放大倍数拍摄。然后使用Transbond XT将托槽粘结到前磨牙上，并在24小时后使用英斯特朗材料试验机以1mm/min的速度进行剪切粘结强度测试。脱粘后，使用SEM观察托槽网格。

结果

粘结前，72.22%的托槽没有网格缺陷，而27.77%的托槽有。SEM分析显示，G4和G5组的托槽100%存在缺陷，G7组为40%，G8组为10%。金属托槽和美观托槽的平均剪切粘结强度分别为9.67±2.84MPa和11.21±4.99MPa。进行了带有Benjamini-Hochberg校正的成对威尔科克森检验，以确定各组之间的具体统计差异，结果显示基于托槽类型和剪切粘结强度存在显著差异（<0.009）。

结论

本研究表明托槽网格的形状会影响剪切粘结强度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/975e/11788184/8a20a82c02b6/kjod-55-1-15-f1.jpg

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金属及美观托槽网在脱粘前后的扫描电子显微镜分析。

Scanning electron microscopy analysis of metallic and aesthetic bracket meshes before and after debonding.

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