首页|期刊导航|中国骨伤|按压和拔伸按压斜扳复合手法治疗腰椎间盘突出症的有限元分析

按压和拔伸按压斜扳复合手法治疗腰椎间盘突出症的有限元分析OA

Finite element analysis of a combined manipulation technique involving pressing,traction-pressing,and oblique-pulling for lumbar disc herniation

中文摘要英文摘要

目的:采用三维有限元方法建立腰椎模型,通过力学仿真分别模拟按压手法和拔伸按压斜扳复合手法,分析这两种手法的力学效应,对比并探讨其生物力学机制及力学效应差异.方法:选择1例典型腰椎间盘突出症(lumbar disc herniation,LDH)患者,在其腰椎CT影像数据的基础上构建L4-L5节段三维有限元模型,聚焦单一样本的深度分析,并通过网格收敛性分析及文献对照验证模型的可靠性.观察对腰椎行按压手法及拔伸按压斜扳手法过程中L4-L5节段各组织单元的应力应变分布,及椎间盘和神经根之间的相对位移距离.结果:成功构建了基于LDH患者影像数据的L4-L5三维有限元模型,并在此基础上开展两种手法的力学仿真分析.施加按压手法后,椎间盘前方应力最大,椎间盘突出位置的应力最小;椎间盘突出位置应变最大,前方较小,椎间盘整体出现向前的应变,但是在椎间盘前缘也出现向后的应变,其中纤维环0.097,髓核0.153;椎间盘整体出现向前的位移,X轴椎间盘发生向右位移5.531 mm,Y轴突出椎间盘向前位移3.707 mm,Z轴突出椎间盘向上位移2.031 mm.左侧神经根向前移动2.453 mm,右侧神经根则向后(Z轴向下)移动0.760 mm.施加拔伸按压斜扳复合手法后,与按压手法相似,可见在椎间盘前方应力最大,在椎间盘突出的位置应力最小;椎间盘应变,椎间盘后部应变最大,前方较小,椎间盘整体出现向右的应变,部分向前的应变,其中纤维环0.751,髓核0.587;椎间盘整体发生向前、向右的位移,X轴椎间盘整体向右侧位移8.594 mm,Y轴左侧向前移动5.409 mm,而右侧(健侧)则向后方移动,Z轴突出部位椎间盘向上位移2.735 mm.左侧神经根向前移动2.932 mm,右侧神经根则向后(Z轴向下)移动1.971 mm.结论:两种手法均可扩大椎间盘与神经根间隙,其中复合手法显示出更优的生物力学减压效应.本研究不仅验证了两种中医手法的生物力学机制,还为后续相关临床与力学研究提供了可重复、可拓展的三维有限元模型,具有一定的实际指导意义.

Objective To establish a lumbar spine model using the three-dimensional finite element method,simulate the pressing manipulation and the traction-pressing-oblique-pulling complex manipulation through mechanical simulation,to ana-lyze the mechanical effects of these two manipulations,and compare and discuss their biomechanical mechanisms and the dif-ferences in mechanical effects.Methods A typical lumbar disc herniation(LDH)patient was selected.Based on the patient's lumbar CT image data,a three-dimensional finite element model of the L4-L5 segment was constructed,focusing on in-depth analysis of a single sample.The reliability of the model was verified through mesh convergence analysis and comparison with literature.The stress and strain distribution in various tissue units of the L4-L5 segment,as well as the relative displacement distance between the intervertebral disc and the nerve roots,were observed during the application of the pressing manipulation and the traction-pressing-oblique-pulling manipulation.Results A three-dimensional finite element model of the L4-L5 segment based on imaging data from a patient with lumbar disc herniation was successfully constructed,and mechanical simulation analysis of the two manipulations was conducted.After applying the pressing manipulation,the stress was maximum at the an-terior part of the intervertebral disc and minimum at the herniated site;the strain was maximum at the herniated site and smaller anteriorly.The intervertebral disc exhibited overall forward strain,but backward strain also occurred at the anterior edge.The strain values were 0.097 for the annulus fibrosus and 0.153 for the nucleus pulposus.The intervertebral disc exhibited overall forward displacement:5.531 mm to the right on the X-axis,3.707 mm forward for the herniated disc on the Y-axis,and 2.031 mm upward for the herniated disc on the Z-axis.The left nerve root moved forward by 2.453 mm,while the right nerve root moved backward by 0.760 mm.After applying the traction-pressing-oblique-pulling complex manipulation,similar to the press-ing manipulation,the stress was maximum at the anterior part of the intervertebral disc and minimum at the herniated site.Re-garding disc strain,the posterior part exhibited the maximum strain,with smaller strain anteriorly.The intervertebral disc ex-hibited overall rightward strain and partial forward strain,with values of 0.751 for the annulus fibrosus and 0.587 for the nucle-us pulposus.The intervertebral disc exhibited overall forward and rightward displacement:8.594 mm to the right on the X-axis,5.409 mm forward for the left side on the Y-axis,while the right side(healthy side)moved backward,and 2.735 mm upward for the herniated part on the Z-axis.The left nerve root moved forward by 2.932 mm,while the right nerve root moved backward by 1.971 mm.Conclusion Both manipulations can enlarge the space between the intervertebral disc and the nerve roots,with the complex manipulation demonstrating superior biomechanical decompression effects.This study not only verifies the biome-chanical mechanisms of the two Traditional Chinese Medicine manipulations but also provides a reproducible and extensible three-dimensional finite element model for subsequent related clinical and mechanical research,possessing certain promotional value and practical guiding significance.

燕安迪;李帆冰;卢钰;李具宝

云南中医药大学,云南 昆明 650500云南中医药大学,云南 昆明 650500||云南省中医医院骨伤科,云南 昆明 650021云南中医药大学,云南 昆明 650500||云南省中医医院骨伤科,云南 昆明 650021云南中医药大学,云南 昆明 650500||云南省中医医院骨伤科,云南 昆明 650021||南方医科大学中西医结合医院骨伤科,广东 广州 510315

医药卫生

腰椎椎间盘移位有限元分析正骨手法生物力学

Lumbar vertebraeIntervertebral disc displacementFinite element analysisBone setting manipula-tionBiomechanics

《中国骨伤》 2026 (5)

445-451,7

国家自然科学基金(编号:8146073681860862)云南省科技厅科技计划项目(编号:202101AZ070001-178)云南省教育厅科学研究基金项目青年人才基础研究(编号:2024J0513)National Natural Science Foundation of China(No.81460736No.81860862)

10.12200/j.issn.1003-0034.20250130

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