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下肢有限元模型的建立及损伤机制重建 被引量:7

Finite Element Modeling of Lower Limb and Exploration of Bone Injury Mechanism
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摘要 目的建立完整的下肢有限元模型,探讨碾压及撞击情况下下肢的损伤机制,并利用此模型对一例真实交通事故中损伤下肢进行有限元分析。方法基于交通事故受害者下肢完整的CT扫描图片,利用Mimics重建下肢长骨、髌骨、半月板、膝关节韧带以及软组织几何模型,利用结构化网格生成方法划分模型,并根据文献材料属性确定各部分的材料参数。通过长骨、大腿及小腿的三点弯曲模拟试验与文献试验结果对比验证模型的有效性。用轮胎模型分别以低、中、高的速度碾压大腿中段,及撞击大腿下段和股骨上段。通过碾压与撞击的模拟对比,得出下肢不同损伤的损伤机制,通过与真实交通事故中损伤下肢进行对比,分析验证该案例的损伤过程。结果建立了一例完整的下肢有限元模型,主要以六面体网格进行单元划分。验证实验中,模型的接触力峰值,最大弯矩值以及弯矩曲线与文献报道的试验数据吻合。在轮胎碾压情况下,长骨可形成节段性骨折,股骨的骨折形态与案例中的骨折形态一致。结论有限元模型及分析方法能应用于法医学损伤机制的分析与研究。 Objective A detailed FE(finite element) model of human lower limb was developed to explore the mechanism of injury suffering from rolling and impact,and to reconstruct a real case with the developed model.Methods Human lower limb consists of long bones,patella,menisci,knee ligaments and soft tissues.They were reconstructed by Mimics software on the basis of CT scans of a victim.The model was divided by structural grid approach,and the material properties of different parts were defined according to the literature data.The developed FE model was validated by three points bending tests of long bones,thigh and leg.Three different loading conditions including rolling and impact at low,medium and high speed were applied to explore the possible injury mechanism of a real case.Results A FE model of lower limb was developed,and it is mainly composed of hexahedral elements.The peak forces,maximum bending moments and history curves of the model in tests were agreed with the data in literatures.Under the running over condition,the segmental fracture pattern could be formed.Femur fracture pattern and mechanism were similar to the actual case of being run over by a wheel.Conclusion The study shows the method can be applied to explore possible mechanisms of lower limb fractures in forensic cases.The model can also help to determine the possible loading conditions.
作者 李正东 刘宁国 黄平 邵煜 黄伟华 万雷 邹冬华 陈忆九
机构地区 司法部司法鉴定科学技术研究所 上海市法医学重点实验室
出处 《中国司法鉴定》 2012年第6期37-42,共6页 Chinese Journal of Forensic Sciences
基金 国家十二五科技支撑计划项目(2012BAK16B02) 国家自然科学基金面上项目(81273338 81 102300) 上海市法医学重点实验室资助项目(12DZ2271500) 上海市自然科学基金资助项目(10ZR1431200) 科技部科研院所社会公益研究专项(GY1105)
关键词 法医病理学 下肢交通伤 有限元模型 损伤重建 forensic pathology lower limb traffic injury finite element model injury reconstruction
分类号 D919 [医药卫生—法医学]
  • 相关文献

参考文献38

  • 1Karger B,Teige K,Fuchs M. Was the pedestrian hit in an erect position before being run over[J].Forensic Science International,2001,(02):217-220.doi:10.1016/S0379-0738(00)00430-8.
  • 2Raul J S,Deck C,Willinger R. Finite-element models of the human head and their applications in forensic practice[J].International Journal of Legal Medicine,2008,(05):359-366.doi:10.1007/s00414-008-0248-0.
  • 3Untaroiu C,Darvish K,Crandall J. A finite element model of the lower limb for simulating pedestrian impacts[J].Stapp Car Crash J,2005,(49):157-181.
  • 4Kuwahara S,Hosokawa T,Okada K. Finite element analysis of pedestrian lower extremity injuries in car-topedestrian impacts[J].SAE Technical Paper,2007,(01):755.
  • 5Roth S,Vappou J,Raul J S. Child head injury criteria investigation through numerical simulation of real world trauma[J].Computer Methods and Programs in Biomedicine,2009,(01):32-45.doi:10.1016/j.cmpb.2008.08.001.
  • 6Raul J,Deck C,Meyer F. A finite element model investigation of gunshot injury[J].International Journal of Legal Medicine,2007,(02):143.
  • 7Untaroiu C D. A numerical investigation of mid-femoral injury tolerance in axial compression and bending loading[J].International Journal of Crashworthiness,2010,(01):83-92.
  • 8Schileo E,Taddei F,Cristofolini L. Subject-specific finite element models implementing a maximum principal strain criterion are able to estimate failure risk and fracture location on human femurs tested in vitro[J].Journal of Biomechanics,2008,(02):356-367.doi:10.1016/j.jbiomech.2007.09.009.
  • 9Iwamoto M,Miki K,Tanaka E. Ankle skeletal injury predictions using anisotropic inelastic constitutive model of cortical bone taking into account damage evolution[J].Stapp Car Crash J,2005,(49):133-156.
  • 10St Ubli H U,Schatzmann L,Brunner P. Mechanical tensile properties of the quadriceps tendon and patellar ligament in young adults[J].American Journal of Sports Medicine,1999,(01):27-34.

同被引文献100

  • 1许伟,杨济匡.研究颅脑交通伤的有限元模型的建立及验证[J].生物医学工程学杂志,2008,25(3):556-561. 被引量:10
  • 2杨济匡,方海峰.人体下肢有限元动力学分析模型的建立和验证[J].湖南大学学报(自然科学版),2005,32(5):31-36. 被引量:11
  • 3王芳,张建国,薛强,张澍.挥鞭样仿真全颈椎有限元模型的建立和验证[J].生物医学工程与临床,2008,12(1):13-16. 被引量:3
  • 4Ho J, Kleiven S. Can sulci protect the brain from traumatic injury? [J]. J Biomech,2009,42 (13):2074- 2080.
  • 5Zoghi-Moghadam M, Sadegh AM. Global/local head models to analyse cerebral blood vessel rupture lead- ing to ASDH and SAH[J]. Comput Methods BiomechBiomed Engin,2009,12( 1 ) : 1-12.
  • 6裴永生,吴丹丹,谢娟娟,等.人体头部侧面碰撞有限元分析的研究[c]//The9thInternationalForumofAu—tomotiveTrafficSafety(INFATS),2011:265—269.
  • 7Rowson S, Duma SM. Brain injury prediction: as- sessing the combined probability of concussion using linear and rotational head acceleration[J]. Ann Biomed Eng,2013,41 (5) :873-882.
  • 8Wright RM, Ramesh KT. An axonal strain injury criterion for traumatic brain injury[J]. Biomech Model Mechanobiol, 2012,11 ( 1-2 ) : 245-260.
  • 9Cloots ILl, van Dommelen JA, Kleiven S, et d. Multi-scale mechanics of traumatic brain injury: pre- dicting axonal strains from head loads[J]. Biomech Model Mechanobiol, 2013,12 ( 1 ) : 137-150.
  • 10Tchako A, Sadegh A. A cervical spine model to pre- dict injury scenarios and clinical instability[J]. Sports Biomech, 2009,8 ( 1 ) : 78-95.

引证文献7

二级引证文献9

中国司法鉴定
2012年 第6期

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