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下腰椎L4/5与L5/S1节段Coflex动态固定的有限元模型试验设计 被引量:4

Finite element model testing on Coflex dynamic fixation for L4 /5 and L5 / S1 segment of lower lumbar
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摘要 目的模拟临床手术,探讨Coflex动态稳定装置在下腰椎L5/S1退变性疾病中应用的可行性。方法在第2代中国数字化人体"男性23号"数据集平台上,选取下腰椎骶骨数字模型,运用CAX相关软件建立下腰椎及Coflex应用于下腰椎的3组有限元模型(健康者下腰椎模型、Coflex固定L4/5节段模型及Coflex固定L5/S1节段模型);根据脊柱三柱加载理论和下腰椎生理运动,采用直立、前屈和后伸3种生理载荷分别进行计算、验证和对照分析。结果建立了健康者下腰椎骶骨有限元模型、Coflex固定L4/5节段有限元对照模型、以及Coflex固定L5/S1节段有限元试验模型。根据3组有限元模型对照试验的稳定性和相容性等各种生物力学指标,发现两种动态内固定方式的下腰椎具有相近的生物力学效果。结论本有限元模型对照试验的设计为研究下腰椎L5/S1节段Coflex动态固定手术提供了生物力学循证依据,对Coflex植入L5/S1节段这一新手术的临床应用具有指导意义。 Objective To simulate clinical operation and investigate feasibility of Coflex dynamic device for fixing L5/$1 segment of lower lumbar degenerative diseases. Methods The lower lumbar-sacral digital model was ex- tracted from platform of the second generation of Chinese Digitized Human "Male No. 23" data set, and three fi- nite element (FE) models ( the model of normal lower lumbar sacrum, L4/5 and L5/SI segment fixed with Coflex) were developed respectively using a series of CAX software. According to the spinal three-column load- ing theory and the lower lumbar physiological behaviors, FE model tests were analyzed, validated and compared under the physiological load of upright standing, anteflexion and extension. Results The FE models of normal lower lumbar sacrum ( Healthy), Coflex fixed-L4/5 segment ( L4/5), Coflex fixed-LS/S1 segment (I5/S1) were developed, respectively. Based on biomechanical indexes (stability and compatibility) of the controlled trial for the FE model, the two Coflex-fixed FE models showed similar biomechanical effects for fixing the lower lumbar. Conclusions The controlled trials of FE models provide biomechanical evidence for the fixation of lower lumbar L5/S1 segment by Coflex dynamic device, which is of significance for application of Coflex in fixing L5/S1 seg- ment in clinic.
作者 吴信雷 吴立军 郑蓉梅 王继松 徐华梓 周洋 吴爱悯 倪文飞
机构地区 温州医学院数字化医学研究所 温州医学院附属第二医院骨科
出处 《医用生物力学》 EI CAS CSCD 北大核心 2013年第5期477-483,共7页 Journal of Medical Biomechanics
基金 国家自然科学基金面上项目(30970702 81271663) 浙江省温州医学院科研发展专项(QTJ06012 602220643)
关键词 下腰痛 Coflex装置 动态固定 有限元分析 生物力学 Lower back pain Coflex device Dynamic fixation Finite element analysis Biomechanics
分类号 R318.01 [医药卫生—生物医学工程]
  • 相关文献

参考文献26

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二级参考文献116

共引文献62

同被引文献40

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  • 2Kong DS,Kim ES,Eoh W.One-year outcome evaluation after interspinous implantation for degenerative spinal stenosis with segmental instability[J].J Korean Med Sci,2007,22(2):330-335.
  • 3Park SC,Yoon SH,Hong YP,et al.Minimum 2-year follow-up result of degenerative spinal stenosis treated with interspinous u (coflex)[J].J Korean Neurosurg Soc,2009,46(4):292-299.
  • 4Cabraja M,Abbushi A,Woiciechowsky C,et al.The short-and mid-term effect of dynamic interspinous distraction in the treatment of recurrent lumbar facet joint pain[J].Eur Spine J,2009,18(11):1686-1694.
  • 5Tsai KJ,Murakami H,Lowery GL,et al.A biomechanical evaluation of an interspinous device(Coflex) used to stabilize the lumbar spine[J].J Surg Orthop Adv,2006,15(3):167-172.
  • 6Eif M,Schenke H.The interspinous U-indications,experiences and results[C].5th Annual Global Symposium on Motion Preservation Technology:Spine Arthroplasty Society,2005,5:73.
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  • 8Berkson MH,Nachemson A,Schultz AB.Mechanical properties of human lumbar spine motion segments-partⅡ:responses in compression and shear influence of grass morphology[J].J Biomech Engng,1979,101(1):53-57.
  • 9Byun DH,Shin DA,Kim JM,et al.Finite element analysis of the biomechanical effect of coflex(TM) on the lumbar spine[J].Korean Journal of Spine,2012,9(3):131-136.
  • 10徐丁,陈一衡,曾晗冰,池永龙,徐华梓.Coflex棘突间动态固定系统治疗腰椎间盘突出症的短期疗效评价[J].中华外科杂志,2009,47(18):1379-1382. 被引量:26

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医用生物力学
2013年 第5期

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