医学与法学
醫學與法學
의학여법학
Medicine and Jurisprudence
2015年
2期
82-84
,共3页
张敏%仇永贵%邵煜%田浩%黄婷婷
張敏%仇永貴%邵煜%田浩%黃婷婷
장민%구영귀%소욱%전호%황정정
CT图像%腰椎%三维有限元%致伤方式
CT圖像%腰椎%三維有限元%緻傷方式
CT도상%요추%삼유유한원%치상방식
CT image%lumbar spine%three-dimensional finite element%injury way
目的::通过对比建立正常人和患者的腰椎三维有限元模型,并探讨建模在鉴定致伤方式中的意义。方法:利用64排螺旋CT扫描技术及Dicom医学图像方法将正常人及患者实验腰椎图像导入Mimics软件后进行处理,再导入Ansys有限元分析软件进行体网格划分,再将体网格转入Mimics,根据CT值赋值后生成三维有限元模型,并给予外力将正常者模型构建成与患者相接近的模型;采用6Nm的力矩分别加载于构建后的正常者模型与患者模型表面各节点上。结果:构建了腰1椎体爆裂性骨折有限元模型,其模型计算结果与真实腰1爆裂性骨折模型结果接近。结论:本研究方法适用于腰椎致伤方式的鉴定。
目的::通過對比建立正常人和患者的腰椎三維有限元模型,併探討建模在鑒定緻傷方式中的意義。方法:利用64排螺鏇CT掃描技術及Dicom醫學圖像方法將正常人及患者實驗腰椎圖像導入Mimics軟件後進行處理,再導入Ansys有限元分析軟件進行體網格劃分,再將體網格轉入Mimics,根據CT值賦值後生成三維有限元模型,併給予外力將正常者模型構建成與患者相接近的模型;採用6Nm的力矩分彆加載于構建後的正常者模型與患者模型錶麵各節點上。結果:構建瞭腰1椎體爆裂性骨摺有限元模型,其模型計算結果與真實腰1爆裂性骨摺模型結果接近。結論:本研究方法適用于腰椎緻傷方式的鑒定。
목적::통과대비건립정상인화환자적요추삼유유한원모형,병탐토건모재감정치상방식중적의의。방법:이용64배라선CT소묘기술급Dicom의학도상방법장정상인급환자실험요추도상도입Mimics연건후진행처리,재도입Ansys유한원분석연건진행체망격화분,재장체망격전입Mimics,근거CT치부치후생성삼유유한원모형,병급여외력장정상자모형구건성여환자상접근적모형;채용6Nm적력구분별가재우구건후적정상자모형여환자모형표면각절점상。결과:구건료요1추체폭렬성골절유한원모형,기모형계산결과여진실요1폭렬성골절모형결과접근。결론:본연구방법괄용우요추치상방식적감정。
Objective: to establish three-dimensional lumbar spine finite element model for normal people and patients by comparing, and discuss the significance of modeling in the identification of injuries. Methods:importing normal people and patients' experimental lumbar image into Mimics software for processing by using 64 row spiral CT scan technology experiment method and Dicom medical image, importing Ansys finite element anal-ysis software for meshing, moving the volume mesh into Mimics, creating three-dimensional finite element model according to the CT value, and building normal model into one close to the patient's by giving force to it; loading respectively on each surface node of the normal people model and patient's model by using 6 nm torque. Results:to build the waist 1 vertebral burst fracture finite element model, the model calculation results and the real waist result are close to 1 blowout fracture model. Conclusion: this study method is suitable for the identification of lumbar spine injury way.
