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经皮椎间孔腰椎体间融合术中传统皮质骨入路与混合腰椎固定技术的生物力学研究:有限元分析。

Biomechanical investigation of the hybrid lumbar fixation technique with traditional and cortical bone trajectories in transforaminal lumbar interbody fusion: finite element analysis.

机构信息

Xinjiang Medical University, Urumqi, China.

Department of Spine Surgery, The First Affiliated Hospital of Xinjiang Medical University, Urumqi, China.

出版信息

J Orthop Surg Res. 2023 Jul 31;18(1):549. doi: 10.1186/s13018-023-04027-6.

DOI:10.1186/s13018-023-04027-6
PMID:37525283
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10388474/
Abstract

OBJECTIVE

To compare the biomechanical performance of the hybrid lumbar fixation technique with the traditional and cortical bone trajectory techniques using the finite element method.

METHODS

Four adult wet lumbar spine specimens were provided by the Department of Anatomy and Research of Xinjiang Medical University, and four L1-S1 lumbar spine with transforaminal lumbar interbody fusion (TLIF) models at L4-L5 segment and four different fixation techniques were established: bilateral traditional trajectory screw fixation (TT-TT), bilateral cortical bone trajectory screw fixation (CBT-CBT), hybrid CBT-TT (CBT screws at L4 and TT screws at L5) and TT-CBT (TT screws at L4 and CBT screws at L5). The range of motion (ROM) of the L4-L5 segment, von Mises stress of cage, internal fixation, and rod were compared in flexion, extension, left and right bending, and left and right rotation.

RESULTS

Compared with the TT-TT group, the TT-CBT group exhibited lower ROM of L4-L5 segment, especially in left-sided bending; the CBT-TT group had the lowest ROM of L4-L5 segment in flexion and extension among the four fixation methods. Compared with the CBT-CBT group, the peak cage stress in the TT-CBT group was reduced by 9.9%, 18.1%, 21.5%, 23.3%, and 26.1% in flexion, left bending, right bending, left rotation, and right rotation conditions, respectively, but not statistically significant (P > 0.05). The peak stress of the internal fixation system in the TT-CBT group was significantly lower than the other three fixation methods in all five conditions except for extension, with a statistically significant difference between the CBT-TT and TT-CBT groups in the left rotation condition (P = 0.017). In addition, compared with the CBT-CBT group, the peak stress of the rod in the CBT-TT group decreased by 34.8%, 32.1%, 28.2%, 29.3%, and 43.0% under the six working conditions of flexion, extension, left bending, left rotation, and right rotation, respectively, but not statistically significant (P > 0.05).

CONCLUSIONS

Compared with the TT-TT and CBT-CBT fixation methods in TLIF, the hybrid lumbar fixation CBT-TT and TT-CBT techniques increase the biomechanical stability of the internal fixation structure of the lumbar fusion segment to a certain extent and provide a corresponding theoretical basis for further development in the clinic.

摘要

目的

采用有限元法比较混合腰椎固定技术与传统和皮质骨轨迹技术的生物力学性能。

方法

由新疆医科大学解剖学教研室提供 4 具成人湿性腰椎标本,建立 4 具 L1-S1 腰椎伴经椎间孔腰椎体间融合术(TLIF)模型,在 L4-L5 节段,采用 4 种不同的固定技术:双侧传统轨迹螺钉固定(TT-TT)、双侧皮质骨轨迹螺钉固定(CBT-CBT)、混合 CBT-TT(CBT 螺钉在 L4,TT 螺钉在 L5)和 TT-CBT(TT 螺钉在 L4,CBT 螺钉在 L5)。比较屈伸、左右弯曲、左右旋转时 L4-L5 节段活动度(ROM)、 cage、内固定和棒的 von Mises 应力。

结果

与 TT-TT 组相比,TT-CBT 组在左侧弯曲时 L4-L5 节段的 ROM 较低,而 CBT-TT 组在 4 种固定方法中在屈伸时 L4-L5 节段的 ROM 最低。与 CBT-CBT 组相比,TT-CBT 组在屈伸、左弯、右弯、左旋转和右旋转条件下,cage 的峰值应力分别降低了 9.9%、18.1%、21.5%、23.3%和 26.1%,但差异无统计学意义(P>0.05)。除伸展外,TT-CBT 组内固定系统的峰值应力在其余 5 种情况下均明显低于其他 3 种固定方法,在左旋转情况下,CBT-TT 组与 TT-CBT 组之间差异有统计学意义(P=0.017)。此外,与 CBT-CBT 组相比,CBT-TT 组在屈伸、左弯、左旋转、右旋转 6 种工况下,棒的峰值应力分别降低了 34.8%、32.1%、28.2%、29.3%和 43.0%,但差异无统计学意义(P>0.05)。

结论

与 TLIF 中 TT-TT 和 CBT-CBT 固定方法相比,混合腰椎固定 CBT-TT 和 TT-CBT 技术在一定程度上增加了腰椎融合节段内固定结构的生物力学稳定性,为临床进一步发展提供了相应的理论依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/78f2fb774851/13018_2023_4027_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/4cc7ee14bae1/13018_2023_4027_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/4b0e5c6bb7ff/13018_2023_4027_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/396deed43d26/13018_2023_4027_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/5a5c8afb571a/13018_2023_4027_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/78f2fb774851/13018_2023_4027_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/4cc7ee14bae1/13018_2023_4027_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/5f2e3b68027b/13018_2023_4027_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/9535bab8ec51/13018_2023_4027_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/4b0e5c6bb7ff/13018_2023_4027_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/396deed43d26/13018_2023_4027_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/5a5c8afb571a/13018_2023_4027_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c56b/10388474/78f2fb774851/13018_2023_4027_Fig7_HTML.jpg

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