中华骨科杂志
中華骨科雜誌
중화골과잡지
CHINESE JOURNAL OF ORTHOPAEDICS
2011年
5期
424-430
,共7页
腰椎%骨螺丝%活动范围,关节%人体测量术
腰椎%骨螺絲%活動範圍,關節%人體測量術
요추%골라사%활동범위,관절%인체측량술
Lumbar vertebrae%Bone screws%Range of motion,articular%Anthropometry
目的 研究正常受试者在生理载荷下活动时腰椎椎弓根螺钉入钉点的运动范围.方法 招募45~60岁健康志愿者11名,采用双X线透视影像系统(dual fluoroscopic imaging system,DFIS)和MRI相结合技术,在计算机辅助下,从受试者腰椎MRI获取每一节段腰椎三维重建模型,匹配到由DFIS捕获的不同活动体位时腰椎双斜位X线透视图像上,真实重现生理载荷下腰椎椎体间三维运动状态.通过测定模拟椎弓根螺钉入钉点的三维坐标系变化,最终获得生理载荷下腰椎相邻椎弓根在体运动学数据.结果 从仰卧到站立位,腰椎椎弓根入钉点的运动范围:位移主要沿矢状轴和垂直轴移动,其中L2,3位移最大,在矢状轴为(2.44±1.43)mm,在垂直轴为(2.35±1.52)mm;旋转主要围绕冠状轴.腰椎屈伸位椎弓根入钉点的运动范围:在位移方面,L2~L4节段主要沿矢状轴和垂直轴移动,L4,5节段在冠状轴和垂直轴上的移动度相似;旋转方面,L2~L4节段主要绕冠状轴旋转,L4,5节段主要绕冠状轴和垂直轴旋转.腰椎左、右侧屈位椎弓根入钉点的运动范围:在位移方面,L2,3和L3,4主要沿冠状轴位移,L4,5在三个轴的位移近似;在旋转方面,L,3主要绕矢状轴旋转,L3,4主要绕矢状轴和垂直轴旋转,L4,5绕三个轴的旋转度近似.腰椎左、右旋转位椎弓根入钉点的运动范围:在位移方面,L2,3、L3,4和L4,5节段在三个轴方向的位移近似;在旋转方面,L2,3、L3,4和L4,5三个节段主要绕垂直轴旋转.结论 不同节段、不同体位时腰椎椎弓根螺钉入钉点的运动范围也不同,其中L4,5节段的特点是以部分旋转来代替位移.
目的 研究正常受試者在生理載荷下活動時腰椎椎弓根螺釘入釘點的運動範圍.方法 招募45~60歲健康誌願者11名,採用雙X線透視影像繫統(dual fluoroscopic imaging system,DFIS)和MRI相結閤技術,在計算機輔助下,從受試者腰椎MRI穫取每一節段腰椎三維重建模型,匹配到由DFIS捕穫的不同活動體位時腰椎雙斜位X線透視圖像上,真實重現生理載荷下腰椎椎體間三維運動狀態.通過測定模擬椎弓根螺釘入釘點的三維坐標繫變化,最終穫得生理載荷下腰椎相鄰椎弓根在體運動學數據.結果 從仰臥到站立位,腰椎椎弓根入釘點的運動範圍:位移主要沿矢狀軸和垂直軸移動,其中L2,3位移最大,在矢狀軸為(2.44±1.43)mm,在垂直軸為(2.35±1.52)mm;鏇轉主要圍繞冠狀軸.腰椎屈伸位椎弓根入釘點的運動範圍:在位移方麵,L2~L4節段主要沿矢狀軸和垂直軸移動,L4,5節段在冠狀軸和垂直軸上的移動度相似;鏇轉方麵,L2~L4節段主要繞冠狀軸鏇轉,L4,5節段主要繞冠狀軸和垂直軸鏇轉.腰椎左、右側屈位椎弓根入釘點的運動範圍:在位移方麵,L2,3和L3,4主要沿冠狀軸位移,L4,5在三箇軸的位移近似;在鏇轉方麵,L,3主要繞矢狀軸鏇轉,L3,4主要繞矢狀軸和垂直軸鏇轉,L4,5繞三箇軸的鏇轉度近似.腰椎左、右鏇轉位椎弓根入釘點的運動範圍:在位移方麵,L2,3、L3,4和L4,5節段在三箇軸方嚮的位移近似;在鏇轉方麵,L2,3、L3,4和L4,5三箇節段主要繞垂直軸鏇轉.結論 不同節段、不同體位時腰椎椎弓根螺釘入釘點的運動範圍也不同,其中L4,5節段的特點是以部分鏇轉來代替位移.
목적 연구정상수시자재생리재하하활동시요추추궁근라정입정점적운동범위.방법 초모45~60세건강지원자11명,채용쌍X선투시영상계통(dual fluoroscopic imaging system,DFIS)화MRI상결합기술,재계산궤보조하,종수시자요추MRI획취매일절단요추삼유중건모형,필배도유DFIS포획적불동활동체위시요추쌍사위X선투시도상상,진실중현생리재하하요추추체간삼유운동상태.통과측정모의추궁근라정입정점적삼유좌표계변화,최종획득생리재하하요추상린추궁근재체운동학수거.결과 종앙와도참립위,요추추궁근입정점적운동범위:위이주요연시상축화수직축이동,기중L2,3위이최대,재시상축위(2.44±1.43)mm,재수직축위(2.35±1.52)mm;선전주요위요관상축.요추굴신위추궁근입정점적운동범위:재위이방면,L2~L4절단주요연시상축화수직축이동,L4,5절단재관상축화수직축상적이동도상사;선전방면,L2~L4절단주요요관상축선전,L4,5절단주요요관상축화수직축선전.요추좌、우측굴위추궁근입정점적운동범위:재위이방면,L2,3화L3,4주요연관상축위이,L4,5재삼개축적위이근사;재선전방면,L,3주요요시상축선전,L3,4주요요시상축화수직축선전,L4,5요삼개축적선전도근사.요추좌、우선전위추궁근입정점적운동범위:재위이방면,L2,3、L3,4화L4,5절단재삼개축방향적위이근사;재선전방면,L2,3、L3,4화L4,5삼개절단주요요수직축선전.결론 불동절단、불동체위시요추추궁근라정입정점적운동범위야불동,기중L4,5절단적특점시이부분선전래대체위이.
Objective To measure the range of motion (ROM) of the lumbar pedicle screw entrance point (LPSEP) in vivo during unrestricted motion under physiological weight bearing.Methods Eleven healthy volunteers aged 45-60 years underwent MRI scans in a supine position.Three-dimensional (3D) models of L2-5 were constructed.Next,each volunteer was asked to stand and was positioned in the following sequence:standing,45° flexion,maximal extension,maximal left-right twisting,while two orthogonal fluoroscopic images were taken simultaneously at each position.The MRI models were matched to the osseous outlines of the images from the two orthogonal views to determine the position of the vertebrae in 3D at each position.Coordinate systems were established to study the ROM of the LPSEP.Results The predominant translations were along anteroposterior and craniocaudal axis from supine to standing position (average,2.44mm and 2.35 mm).Rotation of the LPSEP occurred mainly around the mediolateral axis(average,3.91 °).During flexion-extension movements of the trunk,the predominant translation were along anteroposterior and craniocaudal axis and rotation were around mediolateral axis.During lateral bending and twisting,ROM of LPSEP did not rotate or translate in one dominant direction.Instead,the resulting motion represented a combination of rotation and translation in different directions.There was no significantly difference in translation and rotation between the three axis in L4,5segment (P>0.05).Conclusion The kinematic behaviors of the LPSEP of the upper lumbar spine (L2,3 and L3,4) are similar which are different from that of the lower lumbar spine (L4,5).
