潍坊医学院学报
濰坊醫學院學報
유방의학원학보
JOURNAL OF WEIFANG MEDICAL COLLEGE
2014年
4期
285-287
,共3页
陈乃旺%徐兆万%伦登兴%潘洪发
陳迺旺%徐兆萬%倫登興%潘洪髮
진내왕%서조만%륜등흥%반홍발
有限元%腰椎%椎弓根螺钉%壁侧置钉%应力
有限元%腰椎%椎弓根螺釘%壁側置釘%應力
유한원%요추%추궁근라정%벽측치정%응력
Finite element%Lumbar%Pedicle screw%Side wall nails%Stress
目的:建立L4,L5三维有限元模型,并分别行椎弓根常规置钉及壁侧置钉两种内固定方式,用三维有限元法分析固定后椎体及螺钉的应力分布特点。方法选取正常成年人L3~L5节段的多层螺旋CT扫描的薄层原始数据(DICOM格式),利用Mimic等软件建立人正常L4,L5三维有限元模型,并建立L4,L5椎弓根螺钉内固定模型。并于L4上表面施加500N预载荷,再施加8N· m的力矩模拟腰椎垂直压应力、前屈、旋转等生理活动,观察不同情况下两种模型中椎体螺钉应力分布情况。结果由应力分布图可知,在各种载荷下,两种模型的螺钉应力从钉尖至钉棒连接处逐渐减少,螺钉根部附近应力最小。3种载荷之间比较,垂直压缩时螺钉应力最大。椎弓根壁侧置钉内固定方式较常规置钉内固定方式的螺钉应力明显减小。结论模拟两种内固定方式正常生理活动时,椎弓根常规置螺钉内固定模型中椎弓根螺钉的应力主要集中在与椎体交界界面处,而椎弓根壁侧置螺钉内固定模型中螺钉的应力基本分散在钉体上,一部分应力分布在椎弓根皮质上,增加了椎弓根螺钉的抗拔出力,从而增加固定的可靠性,减少发生内固定螺钉断裂等风险。
目的:建立L4,L5三維有限元模型,併分彆行椎弓根常規置釘及壁側置釘兩種內固定方式,用三維有限元法分析固定後椎體及螺釘的應力分佈特點。方法選取正常成年人L3~L5節段的多層螺鏇CT掃描的薄層原始數據(DICOM格式),利用Mimic等軟件建立人正常L4,L5三維有限元模型,併建立L4,L5椎弓根螺釘內固定模型。併于L4上錶麵施加500N預載荷,再施加8N· m的力矩模擬腰椎垂直壓應力、前屈、鏇轉等生理活動,觀察不同情況下兩種模型中椎體螺釘應力分佈情況。結果由應力分佈圖可知,在各種載荷下,兩種模型的螺釘應力從釘尖至釘棒連接處逐漸減少,螺釘根部附近應力最小。3種載荷之間比較,垂直壓縮時螺釘應力最大。椎弓根壁側置釘內固定方式較常規置釘內固定方式的螺釘應力明顯減小。結論模擬兩種內固定方式正常生理活動時,椎弓根常規置螺釘內固定模型中椎弓根螺釘的應力主要集中在與椎體交界界麵處,而椎弓根壁側置螺釘內固定模型中螺釘的應力基本分散在釘體上,一部分應力分佈在椎弓根皮質上,增加瞭椎弓根螺釘的抗拔齣力,從而增加固定的可靠性,減少髮生內固定螺釘斷裂等風險。
목적:건립L4,L5삼유유한원모형,병분별행추궁근상규치정급벽측치정량충내고정방식,용삼유유한원법분석고정후추체급라정적응력분포특점。방법선취정상성년인L3~L5절단적다층라선CT소묘적박층원시수거(DICOM격식),이용Mimic등연건건립인정상L4,L5삼유유한원모형,병건립L4,L5추궁근라정내고정모형。병우L4상표면시가500N예재하,재시가8N· m적력구모의요추수직압응력、전굴、선전등생리활동,관찰불동정황하량충모형중추체라정응력분포정황。결과유응력분포도가지,재각충재하하,량충모형적라정응력종정첨지정봉련접처축점감소,라정근부부근응력최소。3충재하지간비교,수직압축시라정응력최대。추궁근벽측치정내고정방식교상규치정내고정방식적라정응력명현감소。결론모의량충내고정방식정상생리활동시,추궁근상규치라정내고정모형중추궁근라정적응력주요집중재여추체교계계면처,이추궁근벽측치라정내고정모형중라정적응력기본분산재정체상,일부분응력분포재추궁근피질상,증가료추궁근라정적항발출력,종이증가고정적가고성,감소발생내고정라정단렬등풍험。
Objective To establish L 4 ,L5 dimensional finite element model ,and two kinds of L 4 ,L5 pedicle screw placement were performed ,and to analysis the stress distribution characteristics of vertebral body and screw with three dimensional finite element method .Methods A normal adult L 3 ~L5 segment of multislice CT scans the thin layer of raw data(DICOM format) were chosen.Using software such as the Mimic people,normal L4,L5,three-dimensional fi-nite element model was set up ,and the model of the L 4 ,L5 pedicle screw internal fixation was established .500 N was ap-plied on the surface of L 4 ,and plus 8N· m to simulate torque lumbar vertical compressive stress ,bending forward and ro-tating,such as physical activity Different situations two vertebral bolt stress distribution in the model were observed .Re-sults From the stress distribution under various loads ,screws gradually reduced the stress of the two models to the nail from the nail tip rod joints,and screws near the roots shared a minimum of stress .Compared among the three loads,the vertical compressive stress screws was maximum .Compared with the conventional set screw stress of pedicle screw fixa-tion methods side-wall nail fixation significantly reduced .Conclusion Two simulated within the normal physiological ac-tivity after fixation,the pedicle screw fixation device model conventional pedicle screw with the vertebrae in the stress is prone to the junction interface .Stress fixed model pedicle screw side-wall screws scattered on basic staples body part stress distribution on the pedicle cortex ,increased resistance to pull-out strength of pedicle screws ,thereby increasing the reliability of fixed and reducing the risk of fracture fixation screws .