骨盆固定策略和多棒结构对长节段胸腰椎后路融合术近端交界区生物力学的影响：有限元分析。

Effects of pelvic fixation strategies and multi-rod constructs on biomechanics of the proximal junction in long thoracolumbar posterior instrumented fusions: a finite-element analysis.

机构信息

Engineering Center for Orthopedic Research Excellence (E-CORE), Departments of Bioengineering and Orthopaedic Surgery, University of Toledo, Toledo, OH, USA.

Department of Orthopaedics and Sports Medicine, University of Washington, Seattle, WA, USA.

出版信息

Spine Deform. 2024 Nov;12(6):1571-1582. doi: 10.1007/s43390-024-00932-w. Epub 2024 Aug 20.

DOI:10.1007/s43390-024-00932-w

PMID:39162957

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11499539/

Abstract

PURPOSE

To assess the effect of various pelvic fixation techniques and number of rods on biomechanics of the proximal junction of long thoracolumbar posterior instrumented fusions.

METHODS

A validated spinopelvic finite-element (FE) model was instrumented with L5-S1 ALIF and one of the following 9 posterior instrumentation configurations: (A) one traditional iliac screw bilaterally ("2 Iliac/2 Rods"); (B) T10 to S1 ("Sacral Only"); (C) unilateral traditional iliac screw ("1 Iliac/2 Rods"); (D) one traditional iliac screw bilaterally with one midline accessory rod ("2 Iliac/3 rods"); (E) S2AI screws connected directly to the midline rods ("2 S2AI/2 Rods"); and two traditional iliac screws bilaterally with two lateral accessory rods connected to the main rods at varying locations (F1: T10-11, F2: T11-12, F3: T12-L1, F4: L1-2) ("4 Iliac/4 Rods"). Range of motions (ROM) at T10-S1 and T9-T10 were recorded and compared between models. The T9-T10 intradiscal pressures and stresses of the T9-10 disc's annulus in addition to the von Mises stresses of the T9 and T10 vertebral bodies were recorded and compared.

RESULTS

For T10-S1 ROM, 4 iliac/4 rods had lowest ROM in flexion and extension, while 2 S2AI/2 rods showed lowest ROM in rotation. Constructs with 3 or 4 rods had lower stresses on the primary rods compared to 2-rod constructs. At the proximal adjacent disc (T9-10), 4 iliac/4 rods showed lowest ROM, lowest intradiscal pressures, and lowest annular stress in all directions (most pronounced in flexion-extension). Under flexion and extension, 4 iliac/4 rods also showed the lowest von Mises stresses on the T10 vertebral body but the highest stresses on the T9 vertebral body.

CONCLUSIONS

Dual iliac screws with 4 rods across the lumbosacral junction and extending to the thoracolumbar junction demonstrated the lowest T10-S1 ROM, the lowest adjacent segment disc (T9-T10) ROM, intradiscal pressures, and annular stresses, and the lowest UIV stresses, albeit with the highest UIV + 1 stresses. Additional studies are needed to confirm whether these biomechanical findings dictate clinical outcomes and effect rates of proximal junctional kyphosis and failure.

摘要

目的

评估各种骨盆固定技术和棒数量对长胸腰段后路固定融合的近侧连接的生物力学的影响。

方法

使用 L5-S1ALIF 对经过验证的脊柱骨盆有限元（FE）模型进行仪器化，并采用以下 9 种后路仪器化配置之一：（A）双侧传统髂螺钉（“2 个髂骨/2 个棒”）；（B）T10 至 S1（“仅骶骨”）；（C）单侧传统髂螺钉（“1 个髂骨/2 个棒”）；（D）双侧各有 1 个传统髂螺钉和 1 个中线辅助棒（“2 个髂骨/3 个棒”）；（E）S2AI 螺钉直接连接到中线棒（“2 S2AI/2 个棒”）；以及双侧各有 2 个传统髂螺钉和 2 个连接到主棒的外侧辅助棒（F1：T10-11、F2：T11-12、F3：T12-L1、F4：L1-2）（“4 个髂骨/4 个棒”）。记录 T10-S1 和 T9-T10 之间模型的运动范围（ROM），并进行比较。记录 T9-10 椎间盘内压力和 T9-10 椎间盘环的应力，以及 T9 和 T10 椎体的 von Mises 应力，并进行比较。

结果

对于 T10-S1ROM，4 个髂骨/4 个棒在屈伸时 ROM 最低，而 2 个 S2AI/2 个棒在旋转时 ROM 最低。与 2 棒结构相比，具有 3 或 4 根棒的结构的主棒上的应力较低。在近侧相邻椎间盘（T9-10）中，4 个髂骨/4 个棒在各个方向（屈伸时最明显）显示出最低的 ROM、最低的椎间盘内压力和最低的环向应力。在屈伸时，4 个髂骨/4 个棒在 T10 椎体上也显示出最低的 von Mises 应力，但在 T9 椎体上显示出最高的应力。

结论

双髂螺钉加 4 根棒横跨腰骶关节并延伸至胸腰椎关节，显示出最低的 T10-S1ROM、最低的相邻节段椎间盘（T9-T10）ROM、椎间盘内压力和环向应力，以及最低的 UIV 应力，尽管 UIV+1 上的应力最高。需要进一步的研究来证实这些生物力学发现是否决定了临床结果以及近端交界性后凸和失败的发生率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/801c/11499539/daf29cbd63e7/43390_2024_932_Fig2_HTML.jpg

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骨盆固定策略和多棒结构对长节段胸腰椎后路融合术近端交界区生物力学的影响：有限元分析。

Effects of pelvic fixation strategies and multi-rod constructs on biomechanics of the proximal junction in long thoracolumbar posterior instrumented fusions: a finite-element analysis.

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结论

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