颅颈交界区三明治畸形情况下屈曲时十字韧带纵向束的过度劳损:有限元分析
Overstrain on the longitudinal band of the cruciform ligament during flexion in the setting of sandwich deformity at the craniovertebral junction: a finite element analysis.
作者信息
Hou Xiangyu, Tian Yinglun, Xu Nanfang, Li Hui, Yan Ming, Wang Shenglin, Li Weishi
机构信息
Department of Orthopaedics, Peking University Third Hospital, 49 North Garden Rd, Haidian District, Beijing, China; Engineering Research Center of Bone and Joint Precision Medicine, 49 North Garden Rd, Haidian District, Beijing, China; Beijing Key Laboratory of Spinal Disease Research, 49 North Garden Rd, Haidian District, Beijing, China.
Beijing Engineering and Technology Research Center for Medical Endoplants, Building 1, Yard 9, Chengwan Street, Haidian District, Beijing, China.
出版信息
Spine J. 2023 Nov;23(11):1721-1729. doi: 10.1016/j.spinee.2023.06.387. Epub 2023 Jun 28.
BACKGROUND CONTEXT
In the setting of "sandwich deformity" (concomitant C1 occipitalization and C2-3 nonsegmentation), the C1-2 joint becomes the only mobile joint in the craniovertebral junction. Atlantoaxial dislocation develops earlier with severer symptoms in sandwich deformity, which has been hypothesized to be due to the repetitive excessive tension in the ligaments between C1 and C2.
PURPOSE
To elucidate whether and how the major ligaments of the C1-2 joint are affected in sandwich deformity, and to find out the ligament most responsible for the earlier development and severer symptoms of atlantoaxial dislocation in sandwich deformity.
STUDY DESIGN
A finite element (FE) analysis study.
METHODS
A three-dimensional FE model from occiput to C5 was established using anatomical data from a thin-slice CT scan of a healthy volunteer. Sandwich deformity was simulated by eliminating any C0-1 and C2-3 segmental motion respectively. Flexion torque was applied, and the range of motion of each segment and the tension sustained by the major ligaments of C1-2 (including the transverse and longitudinal bands of the cruciform ligament, the alar ligaments, and the apical ligament) were analyzed.
RESULTS
Tension sustained by the longitudinal band of the cruciform ligament and the apical ligament during flexion is significantly larger in the FE model of sandwich deformity. In contrast, tension in the other ligaments is not significantly changed in the sandwich deformity model compared with the normal model.
CONCLUSIONS
Considering the importance of the longitudinal band of the cruciform ligament to the stability of the C1-2 joint, our findings implicate that the early onset, severe dislocation, and unique clinical manifestations of atlantoaxial dislocation in patients with sandwich deformity are mainly due to the enlarged force loaded on the longitudinal band of the cruciform ligament.
CLINICAL SIGNIFICANCE
The enlarged force loaded on the longitudinal band of the cruciform ligament can add to its laxity and thus reducing its ability to restrict the cranial migration of the odontoid process. This is in accordance with our clinical experience that dislocation of the atlantoaxial joint in patients with sandwich deformity is mainly craniocaudal, which means severer cranial neuropathy, Chiari deformity, and syringomyelia, and more difficult surgical treatment.
背景
在“三明治畸形”(伴有C1枕化和C2 - 3融合)的情况下,C1 - 2关节成为颅颈交界区唯一的活动关节。三明治畸形中寰枢椎脱位出现较早且症状较重,据推测这是由于C1和C2之间韧带反复承受过度张力所致。
目的
阐明三明治畸形中C1 - 2关节的主要韧带是否以及如何受到影响,并找出对三明治畸形中寰枢椎脱位较早发生和症状较重最具责任的韧带。
研究设计
有限元(FE)分析研究。
方法
使用一名健康志愿者的薄层CT扫描的解剖数据建立从枕骨到C5的三维有限元模型。通过分别消除任何C0 - 1和C2 - 3节段运动来模拟三明治畸形。施加屈曲扭矩,并分析每个节段的运动范围以及C1 - 2主要韧带(包括十字韧带的横带和纵带、翼状韧带和尖韧带)所承受的张力。
结果
在三明治畸形的有限元模型中,屈曲过程中十字韧带纵带和尖韧带所承受的张力明显更大。相比之下,与正常模型相比,三明治畸形模型中其他韧带的张力没有明显变化。
结论
考虑到十字韧带纵带对C1 - 2关节稳定性的重要性,我们的研究结果表明,三明治畸形患者寰枢椎脱位的早期发作、严重脱位和独特临床表现主要是由于十字韧带纵带上加载的力增大。
临床意义
十字韧带纵带上加载的力增大可增加其松弛度,从而降低其限制齿突颅侧移位的能力。这与我们的临床经验相符,即三明治畸形患者的寰枢关节脱位主要是头尾方向的,这意味着更严重的颅神经病变、Chiari畸形和脊髓空洞症,以及更困难的手术治疗。
Zotero 插件