先天性寰枕融合致颅底凹陷症合并寰枢椎脱位患者三种头颅固定方法的生物力学差异:有限元分析
Biomechanical differences of three cephalic fixation methods for patients with basilar invagination and atlantoaxial dislocation in the setting of congenital atlas occipitalization: a finite element analysis.
作者信息
Jian Qiang, Qin Shaw, Hou Zhe, Zhao Xingang, Wang Yinqian, Liang Cong, Chou Dean, Qian Xiuqing, Fan Tao
机构信息
Spine Center, Sanbo Brain Hospital, Capital Medical University, Beijing, 100093, China; Department of Neurological Surgery, The Och Spine Hospital at NewYork-Presbyterian, Columbia University, New York, 10034, NY.
Department of Neurological Surgery, The Och Spine Hospital at NewYork-Presbyterian, Columbia University, New York, 10034, NY.
出版信息
Spine J. 2025 Feb;25(2):389-400. doi: 10.1016/j.spinee.2024.08.023. Epub 2024 Sep 19.
BACKGROUND CONTEXT
In cases of basilar invagination-atlantoaxial dislocation (BI-AAD) complicated by atlas occipitalization (AOZ), the approach to cranial end fixation has consistently sparked debate, generally falling into two categories: C1-C2 fixation and occipitocervical fixation. Several authors believe that C1-C2 fixation carries a lower risk of fixation failure than occipitocervical fixation.
PURPOSE
To study the biomechanical differences among 3 different cranial end fixation methods for BI-AAD with AOZ.
STUDY DESIGN
This was a finite element analysis.
PATIENT SAMPLE
A 35-year-old female patient diagnosed with congenital BI-AAD and AOZ.
OUTCOME MEASURES
range of motion (ROM), peak von Mise stress (PVMS), cage micro-subsidence, cage micro-slippage.
METHOD
Four finite element models were constructed, including unstable group (BI-AAD with AOZ), C1 lateral mass screw group, occipital plate group, occipitocervical rod group. The flexion and extension (FE), lateral bending (LB) as well as axial rotation (AR) were simulated under a torque of 1.5 Nm. Parameters include C1-C2 ROM, PVMS on screw-rod construct, cage micro-subsidence, cage micro-slippage.
RESULTS
The ROM of the C1 lateral mass screw group was smaller than that of the other fixation groups in LB and AR, but not FE. Compared with the occipitocervical rod group, the ROM in LB and AR of the occipital plate group was higher, but not in FE. The PVMS of C1 lateral mass screw group was significantly higher than that of the other groups. The ROM and PVMS of the occipitocervical rod group were in between the other 2 groups. Regarding the screws at the cranial end, the PVMS of the 4-screw occipitocervical rod group was significantly lower than that of the other groups. In general, the cage micro-motion follows the ascending order: C1 lateral mass group < occipitocervical rod group < occipital plate group.
CONCLUSIONS
In cases of BI-AAD with AOZ, the C1 lateral mass screw group provided the least ROM and cage micro-motion, but the screw-rod PVMS was the largest. The advantage of occipital plate fixation lies in the lowest screw-rod PVMS, but the ROM and cage micro-motion is the highest. Four-screw fixation at the cranial end of occipitocervical rod group helps to reduce the PVMS and may prevent screw failure at the cranial end.
背景
在合并寰枕融合(AOZ)的颅底陷入-寰枢椎脱位(BI-AAD)病例中,颅端固定方法一直存在争议,大致分为两类:C1-C2固定和枕颈固定。一些作者认为C1-C2固定比枕颈固定的固定失败风险更低。
目的
研究3种不同颅端固定方法治疗合并AOZ的BI-AAD的生物力学差异。
研究设计
这是一项有限元分析。
患者样本
一名35岁女性患者,诊断为先天性BI-AAD和AOZ。
观察指标
活动范围(ROM)、最大等效应力峰值(PVMS)、椎间融合器微动下沉、椎间融合器微滑移。
方法
构建4个有限元模型,包括不稳定组(合并AOZ的BI-AAD)、C1侧块螺钉组、枕骨板组、枕颈棒组。在1.5 Nm的扭矩下模拟屈伸(FE)、侧弯(LB)以及轴向旋转(AR)。参数包括C1-C2的ROM、螺钉-棒结构上的PVMS、椎间融合器微动下沉、椎间融合器微滑移。
结果
C1侧块螺钉组在LB和AR时的ROM小于其他固定组,但在FE时并非如此。与枕颈棒组相比,枕骨板组在LB和AR时的ROM更高,但在FE时并非如此。C1侧块螺钉组的PVMS显著高于其他组。枕颈棒组的ROM和PVMS介于其他两组之间。关于颅端螺钉,四螺钉枕颈棒组的PVMS显著低于其他组。总体而言,椎间融合器微动情况按升序排列为:C1侧块组<枕颈棒组<枕骨板组。
结论
在合并AOZ的BI-AAD病例中,C1侧块螺钉组提供的ROM和椎间融合器微动最少,但螺钉-棒的PVMS最大。枕骨板固定的优势在于螺钉-棒的PVMS最低,但ROM和椎间融合器微动最大。枕颈棒组颅端的四螺钉固定有助于降低PVMS,并可能防止颅端螺钉失败。
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