铒激光用于金属和陶瓷托槽脱粘：关于牙髓腔内温度、扫描电子显微镜及能谱分析的体外研究

Er:YAG Laser for Metal and Ceramic Bracket Debonding: An In Vitro Study on Intrapulpal Temperature, SEM, and EDS Analysis.

作者信息

Grzech-Leśniak Kinga, Matys Jacek, Żmuda-Stawowiak Dorota, Mroczka Krzysztof, Dominiak Marzena, Brugnera Junior Aldo, Gruber Reinhard, Romanos Georgios E, Sculean Anton

机构信息

1 Department of Dental Surgery, Wroclaw Medical University , Wroclaw, Poland .

2 Private Dental Practice , Wschowa, Poland .

出版信息

Photomed Laser Surg. 2018 Nov;36(11):595-600. doi: 10.1089/pho.2017.4412. Epub 2018 Jun 15.

DOI:10.1089/pho.2017.4412

PMID:29905504

Abstract

OBJECTIVE

To evaluate the effects of bracket removal using an erbium laser on the pulp temperature and enamel surface.

BACKGROUND

Removal of orthodontic brackets with conventional debonding pliers may result in enamel cracks. To avoid damage to the enamel surface and effectively remove metal or ceramic brackets, different types of lasers, such as Nd:YAG, CO, TM:YAP, diode laser, or Er:YAG, have been introduced for debonding.

MATERIALS AND METHODS

A total of 55 brackets (n = 55; 20 metal and 35 ceramic ones) were bonded to 55 caries-free premolars extracted for orthodontic indications. Brackets were irradiated with Er:YAG laser (Morita, Irvine, CA) with a wavelength of 2940 nm at a power of 3.4 W, energy 170 mJ, frequency 20 Hz, pulse duration 300 μs, tip diameter 0.8 mm, air/fluid cooling 3 mL/s, and time of irradiation: 6 sec. Debonding was made by scanning (n = 15; 6 sec irradiation at distance of 2 mm from the bracket with an "S" shape movement) and circular (n = 15; 6 sec irradiation at distance of 1 mm from the bracket) motion technique in ceramic brackets or the circular motion technique in metal brackets (n = 15). The number of 10 nonirradiated teeth with ceramic (n = 5) or metal brackets (n = 5) was used as a control in SEM test and EDS analysis. The damage in tooth enamel surface and the calcium percentage were analyzed by means of scanning electron microscope (JEOL 6610LV, JEOL, Japan) and energy dispersive X-ray spectroscopy (EDS, Oxford, United Kingdom). Temperature changes in the pulp were measured by K-type thermocouple. Evaluation of the Adhesive Remnant Index (ARI) on the enamel surface of each tooth was examined after bracket debonding.

RESULTS

The scanning method has caused significantly lower temperature increase (mean: 0.83°C) compared with circular motion technique around the ceramic brackets (mean: 1.78°C; p = 0.0001) or the metal brackets (mean: 1.29°C; p = 0.015). ARI score showed no differences between the study groups (p = 0.57). SEM analysis revealed no cracks on enamel surface after laser-assisted debonding in comparison with the control samples where cracks were found. EDS showed a higher mean percentage of the calcium (30.7-85.8%) for all test groups compared with control samples (mean: 7%; p = 0.0002). The amount of the calcium elements was higher for metal brackets in comparison with ceramic ones (p = 0.0002).

CONCLUSIONS

Er:YAG laser-assisted debonding causes a minor increase in the pulp temperature and reduced the risk of enamel damage compared with conventional bracket removal.

摘要

目的

评估使用铒激光去除托槽对牙髓温度和牙釉质表面的影响。

背景

使用传统的去粘结钳去除正畸托槽可能会导致牙釉质裂纹。为避免损伤牙釉质表面并有效去除金属或陶瓷托槽，已引入不同类型的激光，如钕钇铝石榴石激光、二氧化碳激光、掺钛蓝宝石激光、二极管激光或铒激光用于去粘结。

材料与方法

总共55个托槽（n = 55；20个金属托槽和35个陶瓷托槽）粘结到55颗因正畸指征而拔除的无龋前磨牙上。使用波长为2940 nm、功率为3.4 W、能量为170 mJ、频率为20 Hz、脉冲持续时间为300 μs、尖端直径为0.8 mm、空气/液体冷却速度为3 mL/s且照射时间为6秒的铒激光（日本森田公司，加利福尼亚州欧文市）照射托槽。通过扫描（n = 15；以“S”形运动在距离托槽2 mm处照射6秒）和圆周运动（n = 15；在距离托槽1 mm处照射6秒）技术去除陶瓷托槽，或通过圆周运动技术去除金属托槽（n = 15）。在扫描电子显微镜（SEM）测试和能谱分析（EDS）中，将10颗未照射的带有陶瓷（n = 5）或金属托槽（n = 5）的牙齿数量用作对照。通过扫描电子显微镜（日本电子株式会社6610LV型，日本电子株式会社，日本）和能量色散X射线光谱仪（EDS，英国牛津）分析牙釉质表面的损伤和钙百分比。用K型热电偶测量牙髓中的温度变化。在托槽去除后，检查每颗牙齿牙釉质表面的粘结剂残留指数（ARI）。

结果

与围绕陶瓷托槽（平均：1.78°C；p = 0.0001）或金属托槽（平均：1.29°C；p = 0.015）的圆周运动技术相比，扫描方法导致的温度升高明显更低（平均：0.83°C）。ARI评分在各研究组之间没有差异（p = 0.57）。SEM分析显示，与发现有裂纹的对照样本相比，激光辅助去粘结后牙釉质表面没有裂纹。EDS显示，所有测试组的钙平均百分比（30.7 - 85.8%）高于对照样本（平均：7%；p = 0.0002）。与陶瓷托槽相比，金属托槽中的钙元素含量更高（p = 0.0002）。