机构地区:[1]滨州医学院附属医院脊柱外科,山东省滨州市256603
出 处:《中国组织工程研究》2024年第6期939-944,共6页Chinese Journal of Tissue Engineering Research
基 金:国家重点研发计划资助项目(2017YFC0114002),子项目负责人:孙兆忠;山东省自然科学基金资助项目(2R2017LH021),项目负责人:孙兆忠;滨州医学院“临床+X”项目(BY2021LCX17),项目负责人:孙兆忠;滨州医学院科技计划项目(BY2018KJ03),项目负责人:刘鑫。
摘 要:背景:单孔分体内镜技术已广泛应用于治疗腰椎退行性变疾病,但国内外尚无该技术在治疗上腰椎椎间盘突出症中安全性分析的相关文献。目的:通过腰椎CT三维重建技术,观测上腰椎神经根、椎间隙、骨性标志点的毗邻关系,为单孔分体内镜临床手术提供依据。方法:26例上腰椎椎间盘突出症患者行腰椎CT扫描,导入Mimics 17.0软件,测量L_(1/2)-L_(3/4)节段相关影像学参数:(1)测量垂直距离:在冠状位,上关节突冠状位关节面内侧缘和上终板交点(N)至上关节突尖部(S)距离(a);在冠状位,N所在矢状位和下终板交点(M)至下关节突尖部(X)距离(b);(2)测量水平距离:N至N所在横断面和出口神经根下缘交点(N_(2))距离(c);N至N所在横断面和神经组织交点(N_(1))距离(d);N_(1)至N_(2)距离(e);M至M所在横断面和神经组织外侧缘交点(M_(1))距离(f);M至M所在横断面和出口神经根交点(M_(2))距离(g);M_(1)至M_(2)距离(h);M_(2)至N_(1)距离(i);上关节突矢状位关节面后缘(R)至M_(2)距离(j)。结果与结论:(1)随着节段的降低,a、b距离逐渐增大,j距离逐渐减小,L_(1/2)节段和L_(2/3)节段之间差异无显著性意义(P>0.05);(2)随着节段降低,d距离先减小后增大,f距离逐渐减小,c、e、g、h、i距离逐渐增大,L_(2/3)节段和L_(3/4)节段之间差异无显著性意义(P>0.05);(3)i距离为自然状态无牵拉神经根情况下的最短距离,M_(1)、M_(2)、N_(1)、N_(2)四点之间即为安全区面积,通过S、X分别向下、向上咬除骨质到上下终板,暴露椎间隙,向外开窗g距离到M_(2),可避免损伤出口神经根;(4)综上所述,上腰椎具有独特的解剖学特点,通过对神经根、硬脊膜、椎间隙进行相关测量,所得参数可为单孔分体内镜临床手术提供参考依据,使手术更加精准、安全。BACKGROUND:One-hole split endoscope technique has been widely used in the treatment of lumbar degenerative diseases,but there is no relevant literature on the safety analysis of this technique in the treatment of upper lumbar disc herniation.OBJECTIVE:To observe the position relationship of nerve roots,intervertebral space and bone landmarks in the upper lumbar spine by three-dimensional lumbar CT reconstruction technology,and to provide a basis for the clinical operation of one-hole split endoscope surgery.METHODS:Twenty-six patients with upper lumbar disc herniation underwent a lumbar CT scan.Mimics 17.0 software was imported to measure the related imaging parameters of L_(1/2) to L_(3/4) segments:(1)Measurement of vertical distance:In coronal view,the distance(a)from the intersection point of the medial facet of the superior articular process and the superior endplate(N)to the apex of the articular process(S);in the coronal view,the distance(b)from the sagittal intersection(M)of N and the inferior endplate to the apex of the inferior articular process(X).(2)Measured horizontal distance:the distance(c)between the cross-section of N and the lower edge of the outlet nerve root(N_(2));distance(d)between the cross-section of N and the intersection point of neural tissue(N_(1));N_(1) to N_(2) distance(e);distance(f)between the cross-section of M and the lateral edge of the nerve tissue(M_(1));M to M cross-section and exit nerve root intersection(M_(2))distance(g);distance(h)from M_(1) to M_(2);distance(i)from M_(2) to N_(1);distance(j)from the posterior edge of the articular surface(R)to M_(2) in sagittal view of the superior articular process.RESULTS AND CONCLUSION:(1)With the decrease of the segment,the distances a and b gradually increased,and the distance j gradually decreased.There was no significant difference between L_(1/2) and L_(2/3) segments(P>0.05).(2)With the decrease of the segment,distance d first decreased and then increased;distance f gradually decreased;distances c,e,g,h and i gradually increased;a
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