终板缺损对连续两节段前路颈椎间盘切除融合术中间椎体的生物力学影响：有限元分析。

Biomechanical effect of endplate defects on the intermediate vertebral bone in consecutive two-level anterior cervical discectomy and fusion: a finite element analysis.

机构信息

Guangzhou University of Chinese Medicine, Guangzhou, 510405, China.

Department of Spine Surgery, The Third Affiliated Hospital of Guangzhou University of Chinese Medicine, Guangzhou, 510378, China.

出版信息

BMC Musculoskelet Disord. 2023 May 22;24(1):407. doi: 10.1186/s12891-023-06453-3.

BACKGROUND

Intermediate vertebral collapse is a newly discovered complication of consecutive two-level anterior cervical discectomy and fusion (ACDF). There have been no analytical studies related to the effects of endplate defects on the biomechanics of the intermediate vertebral bone after ACDF. This study aimed to compare the effects of endplate defects on the intermediate vertebral bone biomechanics in the zero-profile (ZP) and cage-and-plate (CP) methods of consecutive 2-level ACDF and to determine whether collapse of the intermediate vertebra is more likely to occur using ZP.

METHODS

A three-dimensional finite element (FE) model of the intact cervical spine (C2-T1) was constructed and validated. The intact FE model was then modified to build ACDF models and imitate the situation of endplate injury, establishing two groups of models (ZP, IM-ZP and CP, IM-ZP). We simulated cervical motion, such as flexion, extension, lateral bending and axial rotation, and compared the range of motion (ROM), upper and lower endplate stress, fusion fixation device stress, C5 vertebral body stress, intervertebral disc internal pressure (intradiscal pressure, or IDP) and the ROM of adjacent segments in the models.

RESULTS

There was no significant difference between the IM-CP model and the CP model in the ROM of the surgical segment, upper and lower endplate stress, fusion fixation device stress, C5 vertebral body stress, IDP, or ROM of the adjacent segments. Compared with the CP model, the endplate stress of the ZP model is significantly higher in the flexion, extension, lateral bending and axial rotation conditions. Compared with the ZP model, endplate stress, screw stress, C5 vertebral stress and IDP in IM-ZP were significantly increased under flexion, extension, lateral bending and axial rotation conditions.

CONCLUSIONS

Compared to consecutive 2-level ACDF using CP, collapse of the intermediate vertebra is more likely to occur using ZP due to its mechanical characteristics. Intraoperative endplate defects of the anterior lower margin of the middle vertebra are a risk factor leading to collapse of the middle vertebra after consecutive 2-level ACDF using ZP.

背景

连续两节颈椎前路减压融合术（ACDF）后中间椎体塌陷是新发现的并发症。目前还没有关于终板缺损对 ACDF 后中间椎体骨生物力学影响的分析研究。本研究旨在比较零切迹（ZP）和笼板（CP）方法连续两节 ACDF 中终板缺损对中间椎体骨生物力学的影响，并确定使用 ZP 是否更有可能导致中间椎体塌陷。

方法

构建并验证了完整颈椎（C2-T1）的三维有限元（FE）模型。然后，对完整 FE 模型进行修改，建立 ACDF 模型并模拟终板损伤情况，建立两组模型（ZP、IM-ZP 和 CP、IM-ZP）。我们模拟了颈椎运动，如屈伸、侧屈和轴向旋转，并比较了模型的运动范围（ROM）、上下终板应力、融合固定装置应力、C5 椎体应力、椎间盘内压（椎间盘内压，或 IDP）和相邻节段的 ROM。

结果

IM-CP 模型与 CP 模型在手术节段 ROM、上下终板应力、融合固定装置应力、C5 椎体应力、IDP 或相邻节段 ROM 方面无显著差异。与 CP 模型相比，ZP 模型在屈伸、侧屈和轴向旋转条件下终板应力明显更高。与 ZP 模型相比，IM-ZP 模型在屈伸、侧屈和轴向旋转条件下终板应力、螺钉应力、C5 椎体应力和 IDP 明显增加。