期刊文献+

后磨牙模拟根管模型制备与研究(英文)

Preparation of model of simulated retromolar root canal
原文传递
导出
摘要 目的:制备后磨牙模拟根管模型。方法:依照预实验中测试的牙本质和树脂根管模型材料的布氏硬度值(牙本质HB72,树脂块HB54)选取纯铜质铜管为材料(纯铜HB58)同时利用预实验中确认的后磨牙模拟根管模型弯曲角度的范围(70°-60°)并参照树脂根管模型相关数据,设计不同弯曲角度(70°,64°,60°)的纯铜质根管模型,将20套镍钛根管锉随机分为4组,其中3组根管锉分别预备相应角度的10个纯铜质后磨牙根管模型,另一组在临床预备10个后磨牙根管作为对照组。所有镍钛根管锉均在疲劳寿命测试装置中测试疲劳寿命。结果:选用根管长度为16mm±1mm,弯曲半径为5mm,内径为0.70mm的纯铜质铜管制作后磨牙根管模型。其中在弯曲角度为70°的后磨牙根管模型中有33%(2/6)近似临床;在弯曲角度为64°的后磨牙根管模型中有67%(4/6)近似临床;在弯曲角度为60°的后磨牙根管模型中有33%(2/6)近似临床。结论:弯曲角度为64°的纯铜制后磨牙模拟根管模型更接近于临床实际,可为体外研究镍钛根管锉各项指标提供一个较为理想的模型。 Objcetive:To set up a model of simulated retromolar root canal.Methods:According to the Brinell hardness values of dentin and resin obtained from the preliminary experiments,(HB72,HB54),the pure copper with a Brinell hardness value HB58 was chosen as the material of the model.Three different angles of artificial root canals were designed,with the parameters of those of resin canal models:the length was 16 mm and the radius of curvature was 5 mm,and the inner diameter was 0.7 mm.Twenty sets of ProTaper Nickel-Titanium rotary-instruments were randomly divided into four groups with 5 sets each.Group A prepared 50 pure copper artificial root canals with an angle of curvature of 70 degrees,Group B 64 degrees and Group C 60 degrees.Group D prepared 50 retromolars.After preparation,Fatigue tests of all files were carried out in a bench device.Results:The similarity rate of Group A,B,C and Group D were 33%,67%,33% respectively.Conclusion:The pure copper artificial root canal with an angle of curvature of 64 degrees was an ideal model for the research of Nickel-Titanium rotary-instruments in vitro.
出处 《现代生物医学进展》 CAS 2011年第7期1270-1272,共3页 Progress in Modern Biomedicine
关键词 镍钛根管锉 模拟根管 根管预备 模型 Root canal instruments Nickel-Titanium files Simulation root canal Root canal preparation Model
  • 相关文献

参考文献1

二级参考文献22

  • 1彭彬,沈雅,樊明文.牙体牙髓临床治疗 Ⅳ.镍钛合金根管器械折断的临床特点及防治[J].中华口腔医学杂志,2006,41(5):309-312. 被引量:27
  • 2Blum JY, Maehtou P, Micallef JP . Location of contact areas on rotary Profile instruments in relationship to the forces developed during mechanical preparation on extracted teeth[J]. Int Endod J, 1999,32(2):108-141.
  • 3Sattapan B, Nero GJ, PMamara JEA, et al. Defects in rotary nickel--titanium files after clinical use [J]. J Endod,2000,26(3): 161-165.
  • 4Shen Y, Coil GM, McLean AG, et al. Defects in nickel-titanium instruments after clinical use. Part 5: single use from endodontic specialty practices[J]. J Endod,2009,35(10):1363-1367.
  • 5Alapati SB, Branfley WA, Svec TA, et al. SEM observations of nickel-titanium rotary endedontic instruments that fracture during clinical use[J]. J Endod,2005,31(1):40-43.
  • 6Peters OA, Peters CI, Schonenberger K, et al . ProTaper rotary root canal preparation: assessment of torque and force in relation to canal anatomv[J]. Int Endod J, 2003,36(2): 93-99.
  • 7Inan U, Aydin C, Tunca YM. et al. Cyclic fatigue of ProTaper rotary nickel-titanium instruments in artificial canals with 2 different radii of curvature [J]. Oral Surg Oral Med Oral Pathol Oral Radiol Endod ,2007,104(6): 837-840.
  • 8Gambarini G. Cyclic fatigue of nickel-titanium rotary instruments after clinical use with low and high-torque endodontie motors[J].J Endod,2001,27(12):772-774.
  • 9Ullmann C J, Peters OA. Effect of cyclic fatigue on static fracture loads in ProTaper nickel titanium rotary, instruments[J]. J Endod, 2005,31 (3): 183 - 186.
  • 10Fife D, Gambarini G, Britto LR. Cyclic fatigue testing of ProTapcr NiTi rotary instruments after clinical use [J].Oral Surg Oral Med Oral Pathd Oral Radiol Endod , 2004, 97(2):251-256.

共引文献7

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部