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不同表面处理技术对粘结于纳米填充复合树脂上的正畸托槽生存概率的影响。

The effect of different surface preparation techniques on the survival probabilities of orthodontic brackets bonded to nanofill composite resin.

作者信息

Viwattanatipa Nita, Jermwiwatkul Walaitip, Chintavalakorn Rochaya, Nanthavanich Nuntinee

机构信息

Nita Viwattanatipa, Mahidol University, Bangkok, Thailand.

出版信息

J Orthod. 2010 Sep;37(3):162-73. doi: 10.1179/14653121043065.

DOI:10.1179/14653121043065
PMID:20805345
Abstract

OBJECTIVE

To analyze the survival probabilities of different surface preparation techniques for bonding brackets to nanofill composite resin.

DESIGN

In vitro, laboratory study.

SETTING

Mahidol University, Bangkok, Thailand.

MATERIALS AND METHODS

Thirty-five nanofill composite resin specimens/group were subjected to four surface preparation techniques as follows: (1) sandblast using aluminium oxide powder of 90 microm; (2) abrasion using diamond bur; (3) hydrofluoric acid etching for 2 min; and (4) 37% orthophosphoric acid etching for 30 s. Plastic conditioner was applied then brackets were bonded. Shear bond strength tests were carried out on a universal testing machine.

MAIN OUTCOME MEASURES

Shear bond strength (MPa) and debonding force (N) were analyzed using Weibull analysis.

RESULTS

The maximum stress and debonding force levels with a 95% probability of survival ranking from highest to lowest were: (1) sandblast group (4.2 MPa, 45.5 N); (2) diamond bur group (2.2 MPa, 25.3 N); (3) orthophosphoric group (1.9 MPa, 19.8 N); and (4) hydrofluoric group (0.8 MPa, 10.9 N). There was a significant difference in the adhesive remnant index scores between the surface preparation techniques (chi squared P<0.001).

CONCLUSION

Bonding orthodontic brackets to nanofill composite resin materials may result in lower bond strengths and special surface preparation techniques might be required to avoid increased numbers of bond failures. Surface treatment with sandblasting followed by plastic conditioner could increase the survival probability. The use of a diamond bur, orthophosphoric etching or hydrofluoric etching cannot be recommended.

摘要

目的

分析将托槽粘结到纳米填充复合树脂上的不同表面处理技术的生存概率。

设计

体外实验室研究。

地点

泰国曼谷玛希隆大学。

材料与方法

每组35个纳米填充复合树脂标本,采用以下四种表面处理技术:(1)用90微米的氧化铝粉末喷砂;(2)用金刚砂车针打磨;(3)氢氟酸蚀刻2分钟;(4)37%正磷酸蚀刻30秒。然后涂抹塑料调节剂,再粘结托槽。在万能试验机上进行剪切粘结强度测试。

主要观察指标

采用威布尔分析对剪切粘结强度(MPa)和脱粘力(N)进行分析。

结果

生存概率为95%时,最大应力和脱粘力水平从高到低依次为:(1)喷砂组(4.2 MPa,45.5 N);(2)金刚砂车针组(2.2 MPa,25.3 N);(3)正磷酸组(1.9 MPa,19.8 N);(4)氢氟酸组(0.8 MPa,10.9 N)。表面处理技术之间的粘结剂残留指数得分存在显著差异(卡方检验P<0.001)。

结论

将正畸托槽粘结到纳米填充复合树脂材料上可能导致粘结强度较低,可能需要特殊的表面处理技术以避免粘结失败数量增加。喷砂后再使用塑料调节剂进行表面处理可提高生存概率。不推荐使用金刚砂车针、正磷酸蚀刻或氢氟酸蚀刻。

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