逐步去除所有功能结构后胸段脊柱运动节段灵活性的体外分析。

In vitro analysis of thoracic spinal motion segment flexibility during stepwise reduction of all functional structures.

机构信息

Trauma Research Centre Ulm, Institute of Orthopaedic Research and Biomechanics, Ulm University, Ulm, Germany.

LaBS, Department of Chemistry, Material and Chemical Engineering, Politecnico di Milano, Milan, Italy.

出版信息

Eur Spine J. 2020 Jan;29(1):179-185. doi: 10.1007/s00586-019-06196-7. Epub 2019 Oct 29.

DOI:10.1007/s00586-019-06196-7

PMID:31664565

Abstract

PURPOSE

The aim of this study was to quantify the stabilizing effect of the passive structures in thoracic spinal motion segments by stepwise resections. These data can be used to calibrate finite element models of the thoracic spine, which are needed to explore novel surgical treatments of spinal deformities, fractures, and tumours.

METHOD

Six human thoracic spinal motion segments from three segmental levels (T2-T3, T6-T7, and T10-T11) were loaded with pure moments of 1 and 2.5 Nm in flexion/extension, lateral bending, and axial rotation. After each loading step, the ligaments, facet capsules, and the nucleus pulposus were stepwise resected from posterior to anterior direction, while the segmental relative motions were measured using an optical motion tracking system.

RESULTS

Significant increases (p < 0.05) in the range of motion were detected after resecting the anterior spinal structures depending on loading magnitude, motion direction, and segmental level. The highest relative increases in the range of motion were observed after nucleotomy in all motion directions. The vertebral arch mostly stabilized the thoracic spinal motion segments in flexion and extension, while the facet joint capsules mainly affected the segmental stability in axial rotation. Coupled motions were not observed.

CONCLUSIONS

The anulus fibrosus defines the motion characteristics qualitatively, while the ligaments and the presence of the nucleus pulposus restrict the mobility of a thoracic spinal motion segment solely in a quantitative manner. The posterior ligaments do not predominantly serve for primary stability but for the prevention of hyperflexion. These slides can be retrieved under Electronic Supplementary Material.

摘要

目的

本研究旨在通过逐步切除来量化胸段脊柱运动节段中被动结构的稳定作用。这些数据可用于校准胸段脊柱的有限元模型，这是探索脊柱畸形、骨折和肿瘤新手术治疗方法所必需的。

方法

从三个节段水平（T2-T3、T6-T7 和 T10-T11）加载 6 个人类胸段脊柱运动节段，使其在屈伸、侧屈和轴向旋转方向受到 1 和 2.5Nm 的纯力矩。在每次加载步骤后，从前向后逐步切除韧带、关节囊和髓核，同时使用光学运动跟踪系统测量节段相对运动。

结果

根据加载大小、运动方向和节段水平，在前柱结构切除后，运动范围明显增加（p<0.05）。在所有运动方向上，髓核切除后运动范围的相对增加最大。椎弓根主要在屈伸方向稳定胸段脊柱运动节段，而关节囊主要影响轴向旋转的节段稳定性。未观察到耦合运动。

结论

纤维环定性地定义了运动特征，而韧带和髓核的存在仅以定量的方式限制了胸段脊柱运动节段的活动性。后韧带主要不是为了提供原发性稳定性，而是为了防止过度伸展。这些幻灯片可以在电子补充材料中检索到。

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逐步去除所有功能结构后胸段脊柱运动节段灵活性的体外分析。

In vitro analysis of thoracic spinal motion segment flexibility during stepwise reduction of all functional structures.

机构信息

出版信息

PURPOSE

METHOD

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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