期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

种植体深度和加载方向对下颌骨应力分布影响的三维有限元分析 被引量:1

Three Dimensional Finite Element Analysis of the Stress Distribution of Mandible with the Effects of Implant Depths and Force Directions
下载PDF
导出
摘要 目的分析下颌骨种植体种植深度和加载方向对周围骨组织的应力分布影响,为临床种植应用提供参考。方法CT扫描一位第一磨牙缺失的健康女性下颌骨,运用MIMICS图像重建其几何结构,ADINA建立下颌骨及种植体平齐0mm、高于1mm、低于-1mm骨界面三种有限元模型,分析比较该模型在垂直和颊舌向两种加载方式下周围骨组织内的应力分布。结果两种加载方式下三种模型相比,最大应力出现的部位没有明显变化,但数值发生了很大变化,以低于骨界面-1mm模型数值最大,高于骨界面1mm模型最小。颊舌向与垂直向加载相比,三种模型均呈现颊舌向数值明显高的态势。结论CT扫描最大限度地忠实于个性化的解剖结构,种植体种植深度和加载方向对骨组织内的应力分布有重要影响,本文结果将为临床种植技术提供一定的理论参考。 Object To analyze the stress distribution on the surrounding bones impacted by plant depths and force directions, which will provide references for the clinical plant applications. Methods After CT scaning the mandible of a healthy woman without the first molar, We used mimics software to reconstruct the mandible geometry model and used ADINA software to establish three three-dimensional finite element modelings, including 0 mm, more 1 mm( + 1 mm) and less 1 mm( - 1 mm) modelings than mandible in order to understand the stress distributions on surrounding bone-implant interface in the vertical loading and buccolingua loading. Results By comparing two loading styles the position of maximum stress is similar for three modelings but the values are very different among them. The maximum value was in the - 1 mm modeling and the minimum value oeeured in the 1 mm modeling. The stress values in three modelings were distinctly more greater along the buccolingua direction than those in the vertical direction. Conclusion Implant depth and loading direction significantly affect the stress distribution around the bone interface, which is bound to provide a theory reference for clinical applications.
作者 宋红芳 李倩 马乐 刘志成
机构地区 首都医科大学生物医学工程学院 北京协和医院口腔科 首都医科大学附属北京妇产医院
出处 《北京生物医学工程》 2009年第6期573-576,共4页 Beijing Biomedical Engineering
基金 国家自然科学基金项目(1080205) 北京市自然科学基金项目(3082010)资助
关键词 下颌骨 种植体 深度 加载方向 应力分布 mandible implant plant depth force direction stress distribution
分类号 R318.01 [医药卫生—生物医学工程]
  • 相关文献

参考文献4

二级参考文献15

  • 1巢永烈,梁星.种植义齿学.北京医科大学中国协和医科大学联合出版社,1999
  • 2Schroeder A, Sutter F, Buser D, et al. Orale Implantologie.Georg Thieme Verlag Stuttgart, New York, 1994
  • 3Br(a)nemark P-I,' Zarb GA, Albrektsson T. Gewebeintegrierter Zahnersatz. Berlin: Quintessenz Verlags-GmbH, 1985
  • 4Krekmanov L,Kahn M,Rangert B,et al.Tilting of posterior mandibular and maxillary implants for improved prosthesis suport.Int J Oral Maxillofac Implants,2000,15(3):405~414
  • 5Meijer HJA,Starmans FJM,Bosman F,et al.A comparison of three finite element models of edentulous mandible provided with implants.J Oral Rehabil,1993,20:147~57
  • 6Stegariod R,Kusakari H,Nishiyamas,et al.Influence of prosthesis material on stress distribution in bone and implant:a 3- dimensional finite element analysis.Int J Oral Maxillofac Implants,1998,13:781~790
  • 7Merouch KA,Watanable F ,Mentag PJ.Finite element rehabilitated with an osteointergrated partially edentulous mandible rehabilitated with an osteointergrated cylindrical implant.J Implant,1987,13(2):215
  • 8Korioth T W P,Hannam A G.Deformation of the human mandible during simulated tooth chenching.J Dent Res,1994,73(1):56~65
  • 9Stegaroiu R,Sato T,Kusakasi H.Influence of restorstion type on stress distribution in bone around implants:a three- dimensional finite element analysis.Int J Maxillofac Implants,1998,13(1):82~89
  • 10Lai H,Zhang F,Zhang B,et al.Influence of percentage of osseointergration on stress distribution around dental implants.Chin J Dent Res,1998 ,1(3):7~11

共引文献27

同被引文献9

  • 1苏佳灿,管华鹏,张春才,陈学强,王保华,吴建国,丁祖泉.冲击载荷作用下骨盆三维有限元分析及其生物力学意义[J].中国骨伤,2007,20(7):455-457. 被引量:15
  • 2Chen Y, Miao Y, Xu C, et al. Wound ballistics of the pig man- dibular angle: a preliminary finite element analysis and experi- mental study[J]. J Biomech, 2010,43(6) :1131 - 1137.
  • 3Silva NR, Nourian P, Coelho PG, et al. Impact fracture resist- ance of two titanium-abutment systems versus a single-piece ce- ramic implant[ J]. Clin Implant Dent Relat Res, 2011,13 (2) : 168 - 173.
  • 4Haider IT, Speirs AD, Frei I-I. Effect of boundary conditions, impact loading and hydraulic stiffening on femoral fracture strength[ J]. J Biomech, 2013,46 ( 13 ) :2115 - 2121.
  • 5Mustafy T, El-Rich M, Mesfar W, et al. Investigation of impact loading rate effects on the ligamentous cervical spinal load-parti- tioning using finite element model of functional spinal unit C2 - C3[J]. J Biomech, 2014,47(12) :2891 -2903.
  • 6Minary-Jolandan M, Yu MF. Nanomechanical heterogeneity in the gap and overlap regions of type I collagen fibrils with impli- cations for bone heterogeneity[J]. Biomacromolecules, 2009,10 (9) :2565 -2570.
  • 7Parr WC, Chamoli U, Jones A, et al. Finite element micro - modelling of a human ankle bone reveals the importance of the trabecular network to mechanical performance: new methods for the generationand comparison of 3D models [ J ]. J Biomech, 2013,46( 1 ) :200 -205.
  • 8卢熹,杨瑛.下颌骨-牙种植体有限元建模与瞬态分析[J].东南大学学报(自然科学版),2010,40(4):722-725. 被引量:6
  • 9李晓宇,左雯鑫,朱啸,唐亮.连续动态加载下单种植体周围骨组织应力的三维有限元分析[J].实用口腔医学杂志,2011,27(1):26-29. 被引量:12

引证文献1

二级引证文献4

北京生物医学工程
2009年 第6期

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