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玻璃纤维桩用于老年人残根残冠修复治疗中的体会 被引量:1

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摘要 目的探讨采用玻璃纤维桩对老年人残根残冠修复治疗中的临床效果。方法选择56例共计72颗患牙残根残冠的患者,根据患者的情况,选择美国产的高强度双重固化复合树脂桩核材料以及玻璃纤维复合树脂预成根管桩,再行全冠修复,经过6个月~2年临床疗效的追踪观察。结果67颗修复体完好,无修复体膜脱落,无继发根尖周炎症,成功率为93.06%,3颗并发根折,另外2颗分别为套冠修复体破裂跟牙龈缘明显出血、并肿胀。结论临床应用玻璃纤维桩对老年人残根残冠修复治疗的方法可取得良好的修复效果。
作者 王萍
出处 《中外医疗》 2010年第3期75-76,共2页 China & Foreign Medical Treatment
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  • 1韩蔚,欧阳翔英,王新知.牙冠延长术的疗效及影响因素分析[J].中华口腔医学杂志,2004,39(4):280-283. 被引量:85
  • 2汪涌,丁晓红,姚莉莉,黄忠锁,边华琴.牙冠延长术保存冠缺损达龈下患牙的疗效评价[J].上海口腔医学,2005,14(1):24-27. 被引量:23
  • 3[4]Eric Oakley.Formation of the Biologic Width Following Crown lengthening in Nonhuman Primates[J].Int J Periodontics Restorative Dent,1999,19:529-541
  • 4Hochman N, Zalking MJ. New all-ceramic indirect post-core system[J]. J Prosthet Dent, 1999,81(5):625-629.
  • 5Stewardson DA. No-metal post system[J]. Dent Update, 2001,128(9):326-336.
  • 6Love RM, Purton DG The effect of serrations on carbon fibre post-retention within the root canal, core retention, and post rigidity[J]. Int J prosthodont, 1996,9(5):488-488.
  • 7Fredriksson M, Astback J, Pamenius M, et al. A retrospective study of 236 patients with teeth restored by carbon fiber-reinforced epoxy resinposts[J]. J Prosthet Dent, 1998,80(2):151-157.
  • 8Sidoli GE, King DA, Setchell DJ. An in vitro evaluation of a carbon fiber-based post and core system[J]. J Prosthet Dent, 1997,78(1):5-9.
  • 9Boudrias P, Sakkal S, Petrova Y. Anatomical post design meets quartz fiber technology:rationale and case report[J]. Compend Contin Educ Dent, 2001,22(4):337-40,342,344 passim; quiz 350.
  • 10Fernandes AS, Shetty S, Coutinho I. Factors determining post selection: a literature review[J].J Prosthet Dent,2003 ,90(6):556-62.

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  • 1周懋莘;邵新瑛;赵维琴.双固化复合树脂冠核材料修复残根冠牙的临床应用[J]{H}中国实用医学研究杂志,2005(02):198-198.
  • 2Chung S,Yap A,Chandra S. Flexural strength of dental composite restoratives:Comparison of biaxial and threepoint bending test[J].J Biomed Mater Res B Appl Biomater,2004,(02):278-283.
  • 3Ferracane JL. Hygroscopic and hydrolytic effects in dental polymer networks[J].{H}DENTAL MATERIALS,2006,(03):211-222.
  • 4Ito S,Hashimoto M,Wadgaonkar B. Effects of resin hydrophilicity on water sorption and changes in modulus of elasticity[J].{H}BIOMATERIALS,2005,(33):6449-6459.
  • 5Matsumoto K,Sogabe S,Endo T. Synthesis and properties of methacrylate-based networked polymers having ionic liquid structures[J].{H}JOURNAL OF POLYMER SCIENCE PART A:POLYMER CHEMISTRY,2010,(20):4515-4521.
  • 6Bao LR,Yee AF,Lee CYC. Moisture absorption and hygrothermal aging in a bismaleimide resin[J].{H}POLYMER,2001,(17):7327-7333.
  • 7Sideridou I,Tserki V,Papanastasiou G. Study of water sorption,solubility and modulus of elasticity of light-cured dimethacrylate-based dental resins[J].{H}BIOMATERIALS,2003,(04):655-665.
  • 8Abe Y,Lambrechts P,Inoue S. Dynamic elastic modulus of 'packable'composites[J].{H}DENTAL MATERIALS,2001,(06):520-525.
  • 9Bonfante G,Kaizer OB,Pegoraro LF. Tensile bond strength of glass fiber posts luted with different cements[J].Braz Oral Res,2007,(02):159-164.
  • 10Musanje L,Ferracane JL. Effects of resin formulation and nanofiller surface treatment on the properties of experimental hybrid resin composite[J].{H}BIOMATERIALS,2004,(18):4065-4071.

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