国际生物医学工程杂志
國際生物醫學工程雜誌
국제생물의학공정잡지
INTERNATIONAL JOURNAL OF BIOMEDICAL ENGINEERING
2008年
2期
70-73,封3
,共5页
郑琦%廖胜辉%石仕元%费骏%魏威%汪翼凡
鄭琦%廖勝輝%石仕元%費駿%魏威%汪翼凡
정기%료성휘%석사원%비준%위위%왕익범
完整骨盆%解剖型钢板%骶髂关节骨折%内固定%计算机辅助设计
完整骨盆%解剖型鋼闆%骶髂關節骨摺%內固定%計算機輔助設計
완정골분%해부형강판%저가관절골절%내고정%계산궤보조설계
Whole pelvis%Anatomic plates%Sacroiliac joint fracture%Internal fixation%Computer aided design
目的在高度仿真的完整骨盆三维有限元模型基础上,模拟使用新设计的解剖型钢板对骶髂关节骨折脱位进行固定,并与普通钢板的模拟固定进行对比,验证和分析新型钢板的性能.方法从CT精确重建髋骨和骶骨模型,采用专门的半自动流线型生物力学有限元网格划分器生成规则的体网格模型,并进一步建立骶髂关节的终板、软骨、关节接触面,和骨盆上的主要韧带组织及耻骨间盘.然后去掉一侧的骶髂关节韧带群模拟骨折脱位,使用新型的骶髂关节解剖型棒-板内固定系统进行固定模拟,同时使用普通钢板替代解剖型钢板建立对比模型,分别进行加载分析受力情况.结果通过使用新的解剖型钢板改进棒一板内固定系统,骶髂关节的最大相对位移值减小了约23%,骨盆主要传承负载区域的最大的应力值降低了约25%.结论新型的解剖型钢板有效地提高了骶髂关节棒-板内固定系统的力学性能,为骨盆骨折的治疗增加了一种更有效的新方法.
目的在高度倣真的完整骨盆三維有限元模型基礎上,模擬使用新設計的解剖型鋼闆對骶髂關節骨摺脫位進行固定,併與普通鋼闆的模擬固定進行對比,驗證和分析新型鋼闆的性能.方法從CT精確重建髖骨和骶骨模型,採用專門的半自動流線型生物力學有限元網格劃分器生成規則的體網格模型,併進一步建立骶髂關節的終闆、軟骨、關節接觸麵,和骨盆上的主要韌帶組織及恥骨間盤.然後去掉一側的骶髂關節韌帶群模擬骨摺脫位,使用新型的骶髂關節解剖型棒-闆內固定繫統進行固定模擬,同時使用普通鋼闆替代解剖型鋼闆建立對比模型,分彆進行加載分析受力情況.結果通過使用新的解剖型鋼闆改進棒一闆內固定繫統,骶髂關節的最大相對位移值減小瞭約23%,骨盆主要傳承負載區域的最大的應力值降低瞭約25%.結論新型的解剖型鋼闆有效地提高瞭骶髂關節棒-闆內固定繫統的力學性能,為骨盆骨摺的治療增加瞭一種更有效的新方法.
목적재고도방진적완정골분삼유유한원모형기출상,모의사용신설계적해부형강판대저가관절골절탈위진행고정,병여보통강판적모의고정진행대비,험증화분석신형강판적성능.방법종CT정학중건관골화저골모형,채용전문적반자동류선형생물역학유한원망격화분기생성규칙적체망격모형,병진일보건립저가관절적종판、연골、관절접촉면,화골분상적주요인대조직급치골간반.연후거도일측적저가관절인대군모의골절탈위,사용신형적저가관절해부형봉-판내고정계통진행고정모의,동시사용보통강판체대해부형강판건립대비모형,분별진행가재분석수력정황.결과통과사용신적해부형강판개진봉일판내고정계통,저가관절적최대상대위이치감소료약23%,골분주요전승부재구역적최대적응력치강저료약25%.결론신형적해부형강판유효지제고료저가관절봉-판내고정계통적역학성능,위골분골절적치료증가료일충경유효적신방법.
Objective Based on a geometrical and mechanical accurate 3D FE model of whole pelvis,this paper evaluatesthe biomechanical properties of a new sacroliliac bar-plate internal fixation system with anatomic plate,compared to normal rect plate.Methods Using accurate solid models of the sacral and hip bones from CT data,an ad hoc biomechanieal semi-automatic mesh generator was employed to generate regular FE mesh of the pevis model.Sacroiliac joint related end plates,cartilages,and contact surfaces,as well as several important ligaments and the interpubic disc were reeonstucted to consummate the whole model.One side of sacroiliac joint rellated ligaments was deleted to simulate the case of sacroiliac joint fracture.Then the new sacroliliac bar-plate internal fixation system with anatomic plate was integrated to fix the fracture,and acontrol model using normal rect plate was also generated.All models were simulated under salne loading conditions.Results Using the new sacroliliac bar-plate internal fixation system with anatomic plate,the maximal displayment of the sacroiliac joint decreased about23%and the maximal von Mises Stress of several main loading transfer regions decreased about25%.Conclusion The new anatomic plate improves biomechanical properties of the sacroliliac bar-plate interhal fixation system and is a potential new method applicable in clinical use for pelvis fracture.
