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微型外固定器制作大鼠股骨萎缩型骨不连模型的实验研究 被引量:6

A rat model of femoral atrophic nonunion made with a miniature external fixator
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摘要 目的探讨以自行研究设计的微型外制定器建讧股骨萎缩型骨不连动物模型。方法以自行研究设计的外固定器为固定装置,选取24只健康雄性Lewis大鼠,随机分为2组:骨不连组和对照组,每组12只.于大鼠右侧股骨俄骨,在2个断端之间留1mm间隙,于股骨前外侧面近端放置一对自攻螺纹钉,同样方法,在远端放置另一对自攻螺纹钉。其中骨不连组去除骨髓和破坏骨膜,对照组不进行此操作.术后2、4、8周影像学观察股骨对位情况、外固定器的位置及截骨区的愈合情况。术后8周取材行组织学检查和生物力学检测。结果术后8周时X线片示:对照组骨断端已愈合,髓腔再通;骨不连组骨断端处无连续性骨痂通过,骨断端清晰可见。组织学检查显示:对照组有大量新骨形成,骨断端与正常骨无差异;骨不连组截骨区无骨性连接,截骨端未愈合。8周时生物力学检测显示:对照组的扭转刚度平均为(2.64±0.40)N·mm/deg,骨不连组为(0.21±0.20)N·mm/deg,差异有统计学意义(t=16.168,P=0.000)、结论 本实验研究为组织工程及细胞生物技术治疗萎缩型骨不连的研究提供了一种可靠的动物模型. Objective To design an animal model which can be used for researeh on bone atrophic nonunion. Methods A new external fixator was develnped as fixation device for the present experiment. Of the 24 male Levis rats that underwent femoral ostentomy at the right hind limb, 12 were randomly assigned to an atrophic nonunion group, in which cauterization of the periosleum and removal of the local bone marrow were performed, and 12 to a control group. Radiolngical examinations were conducted 2, 4 and 8 weeks postoperatively to observe femoral alignment, position of the external fixator, and healing at the osteotomy site. Histological and biomechanical observations were performed 8 weeks postoperatively. Results At 8 weeks postoperatively, radiological analyses showed a typical physiological healing in the control group, while the atrophic nonunion group was characterized by absence of continuous callus and clear fracture ends. Histological examinations revealed no bony union or healing at the osteotomy site in the atrophic nonunion group but massive new bone furnmtinn in the cnntrnl group. Biomeehanical tests showed the torsional strength of the osteotomized femur was significantly smaller in the nonunion group(0.21 ± 0.20 N · mm/deg) than in the contrnl group(2.64 ± 0.40 N · mm/deg) ( t = 16. 168, P = 0. 000) . Conclusion The animal model created in this experiment can be used for research on treatment of bone atrophic nonunion with tissue engi- neering and cyto-binlogical technology.
作者 赵震宇 邵林 刘建宇 杨大平 郝晨光 韩剑锋 赵洪梅 刘国锋
机构地区 哈尔滨医科大学附属第二医院骨外一科 哈尔滨医科大学附属第二医院整形外科 哈尔滨医科大学附属第三医院妇科
出处 《中华创伤骨科杂志》 CAS CSCD 2011年第3期261-264,共4页 Chinese Journal of Orthopaedic Trauma
基金 国家杰出青年科学基金资助项目(303250420) 黑龙江省青年科学基金项目(QC2009C38) 黑龙江省教育厅基金项目(11511171)
关键词 骨折 不愈合 外固定器 模型 动物 大鼠 Fractures, ununited External fixalors Models, animal Rats
分类号 R686 [医药卫生—骨科学]
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参考文献13

  • 1Drosse 1, Volkmer E, Seitz S, et al. Validation of a femoral critical size defect model for orthotropic evaluation of bone healing: a blomechanical, veterinary and tramna surgical perspective. Tissue Eng Part C Methods, 2008, 14: 79-88.
  • 2Kirker-Head C, Karageorgiou V, Hofmann S, et al. BMP-silk com- posite matrices heal critically sized femoral defects. Bone, 2007, 41: 247-255.
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  • 4Kaspar K, Matziolis G, Strube P, et al. A new animal model for bone atrophic nonunion: fixation by external fixator. J Orthop Res, 2008, 26: 1649-1655.
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  • 7Zhao Z, Yang D, Ma X, et al. Successful repair of a critical-sized bone defect in the rat femur with a newly developed external fixator. Tohoku J Exp Med, 2009, 219: 115-120.
  • 8Oetgen ME, Merrell GA, Troiano NW, et al. Development of a femoral non-union model in the mouse. Injury, 2008, 39: 1119-1126.
  • 9赵震宇,邵林,刘建宇,杨大平,郝晨光,赵洪梅,刘国锋.新型外固定器制作大鼠负重骨节段性骨缺损模型的实验研究[J].中华创伤骨科杂志,2010,12(12):1160-1163. 被引量:5
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二级参考文献12

  • 1王永刚,裴国献,张洪涛,张元平,王学明.兔股骨干缺损模型的制备及在组织工程骨实验中的应用[J].中华创伤骨科杂志,2005,7(10):971-974. 被引量:29
  • 2Reichert JC,Saifzadeh S,Wullschleger ME,et al.The challenge of establishing preclinical models for segmental bone defect reseerch.Biomaterials,2009,30:2149-2163.
  • 3Drosse I,Volkmer E,Seitz S,et al.Validation of a femoral critical size defect model for orthotropic evaluation of bone healing:a biomechanical,veterinary and trauma surgical perspective.Tissue Eng Part C Methods,2008,14:79-88.
  • 4Kirker-Head C,Karageorgiou V,Hofmann S,et al.BMP-silk composite matrices heal critically sized femoral defects.Bone,2007,41:247-255.
  • 5Jager M,Sager M,Lensing-Hohn S,et al.The critical size bony defect in a small animal for bone healing studies (Ⅱ):implant evolution and surgical technique on a rat's femur.Biomed Tech,2005,50:137-142.
  • 6Mark H,Bergholm J,Nilsson A,et al.An external fixation method and device to study fracture healing in rats.Acta Orthop Scand,2003,74:476-482.
  • 7Johnson KD,Frierson KE,Keller TS,et al.Porous ceramics as bone graft substitutes in long bone defects:a biomechanical,histological,and radiographic analysis.J Orthop Res,1996,14:351-369.
  • 8Kaspar K,Schell H,Toben D,et al.An easily reproducible and biomechanically standardized model to investigate bone healing in rats,using external fixation.Biomed Tech,2007,52:383-390.
  • 9Schoen M,Rotter R,Schattner S,et al.Introduction of a new interlocked intramedullary nailing device for stabilization of critically sized femoral defects in the rat:A combined biomechanical and animal experimental study.J Orthop Res,2008,26:184-189.
  • 10Willie B,Adkins K,Zheng X,et al.Mechanical characterization of external fixator stiffness for a rat femoral fracture model.J Orthop Res,2009,27:687-693.

共引文献4

同被引文献90

引证文献6

二级引证文献16

中华创伤骨科杂志
2011年 第3期

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