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树脂加强型玻璃离子水门汀在托槽粘结中的应用 被引量:6

Effects of resin-reinforced glass ionomer cement on orthodontic bracket bonding
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摘要 目的探讨两种树脂加强型玻璃离子水门汀对托槽粘结强度的影响。方法收集离体人前磨牙60个,随机分成6组。第1组和第2组(对照组):35%磷酸酸蚀30 s,冲洗、吹干,涂粘结剂,采用光固化复合树脂粘结托槽。第3、4、5、6组:10%聚丙烯酸酸蚀30 s,冲洗,保持潮湿,第3组和第4组采用化学固化型的Fuji Ortho树脂加强型玻璃离子水门汀粘结托槽,第5组和第6组采用光固化型的Fuji Ortho LC树脂加强型玻璃离子水门汀粘结托槽。第1、3、5组进行抗剪强度测定,第24、、6组进行抗张强度测定,测试后观察断面形态。结果光固化复合树脂的抗剪强度高于其他2组,抗张强度各组间差异无显著性。各种材料的抗剪强度均高于抗张强度。在断面形态观察中,第1组与第3组、第5组差异有显著性,其余差异无显著性。结论两种树脂加强型玻璃离子水门汀的抗剪强度低于复合树脂,但能满足临床的需要。 Objective To study the tensile and shear bend strength of resin-reinforced glass ionomer cement(RGIC) on orthodontic brackets. Methods 60 human premolars were selected and divided into six groups by random. Group 1 and group 2(control) : The enamel was etched with 35 % phosphoric acid for 30 seconds, rinsed with deironized water and dried. Liquid primer of the Transbend XT was applied and the brackets were bonded with the light-curing composite resin. Group 3 and group 4: conditioned with 10% polyacrylic acid for 30 seconds, rinsed with deironized water and left moist. Power and liquid of Fuji Ortho were measured with an electronic balance and mixed, applying for brackets bending. Group 5 and group 6. conditioned with 10% polyacrylic acid for 30 seconds, rinsed with deironized water and left moist. The adhesive-filled Fuji Ortho LC (FOLC, GC Corporation) capsule was activated by manual squeezing and then triturated for 10 seconds at approximately 4 000 r/min, applying for brackets bending. The group 1, 3, 5 were tested for shear bend strength and the group 2, 4, 6 for tensile bend strength. The enamel surfaces were examined after debending. Results Except that the shear bend strength of group 1 was higher than these of group 3 and group 5, there was no significant difference between all the other groups. The shear bond strength was higher than the tensile bend strength for three materials. There was most adhesive remnant on the enamel tested in group 1 in the three odd groups and no significant difference between the three even groups. Conclusion The two RGIC can be used in orthodontics, though the shear bend strengths of them are significantly lower than those of composite resin.
作者 温秀杰 温德升 刘鲁川
机构地区 第三军医大学大坪医院野战外科研究所口腔科 第四军医大学口腔医院研究生队
出处 《口腔医学》 CAS 2005年第5期282-284,共3页 Stomatology
基金 重庆市科委科研基金资助项目(2001-54-21)
关键词 树脂加强型玻璃离子水门汀 复合树脂 托槽 粘结强度 resin-reinforced glass ionomer cement composite resin brackets tensile and shear bond strength
分类号 R783.1 [医药卫生—口腔医学]
  • 相关文献

参考文献10

  • 1Witshire WA. Shear bond strengths of glass ionomer for direct bonding in orthodontics [J]. Am J Orhtod Dentofac Orthop, 1994, 106(2):127- 130.
  • 2Rix D, Foley TF, Mamandras A. Comparison of bond strength of three adhesives: composite resin, hybrid GIC, and glass-filled GIC [J]. Am J Orthod Dentofacial Orthop, 2001, 119( 1 ): 36 - 42.
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  • 8张晓燕.氟保护漆在正畸防脱矿中的应用研究[J].口腔医学,2003,23(3):155-156. 被引量:9
  • 9刘湘涛,李诗佩,李继承,黄土木.新型氟缓释牙釉质黏结剂的防龋实验研究[J].口腔医学,2003,23(3):175-177. 被引量:7
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二级参考文献12

  • 1樊明文,台保军,凌均启,张漫,周明,袁冰垠,许仙枝.氟化食盐预防第一恒磨牙龋的追踪观察[J].口腔医学纵横,1994,10(1):10-12. 被引量:10
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  • 7Basdra EK, Huber, Komposch G. Fluoride released from orthodontic bonding agents alters the enamel surface and inhibits enamel demineralization in vitro[J] .Am J Orthod Dentofac Orthop, 1996, 109(5):466- 472.
  • 8Reynolds IR. A review of direct orthodontic bonding[J]. Br J Orthod,1975,2:171 - 178.
  • 9Seppa L. Effects of a sodium fluoride and a varnish with different fluoride concentration on enamel vemin eralization in vitro Scard [ J ]. J Dent Res, 1988,96:204 - 209.
  • 10Graf H, Galasse R. Morbodity prevalence and intraoral distribution of hypersensitive tecth[ J]. J Dent Res, 1977,56:162 - 165.

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口腔医学
2005年 第5期

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