使用各种密度测试块对增强椎弓根螺钉的骨水泥体积和填充模式的生物力学影响。

The biomechanical impact of cement volume and filling pattern for augmented pedicle screws using various density testing blocks.

作者信息

Hsieh Ming-Kai, Chen Weng-Pin, Lee De-Mei, Li Yun-Da, Kao Fu-Cheng, Chiang Hao-Hsin, Tsai Tsung-Ting, Fu Tsai-Sheng, Lai Po-Liang, Tai Ching-Lung

机构信息

Department of Orthopaedic Surgery, Spine Section, Bone and Joint Research Center, Chang Gung Memorial Hospital and Chang Gung University College of Medicine, Taoyuan, Taiwan.

Department of Mechanical Engineering, National Taipei University of Technology, Taipei, Taiwan.

出版信息

Spine J. 2025 Jul;25(7):1542-1551. doi: 10.1016/j.spinee.2025.01.018. Epub 2025 Jan 31.

DOI:10.1016/j.spinee.2025.01.018

PMID:39894279

Abstract

BACKGROUND CONTEXT

Patients with osteoporosis experience a higher risk of pedicle screw loosening and failure, making PMMA bone cement augmentation a common recommendation to increase stability. However, there is ongoing debate about the ideal cement volume, filling pattern, and measurable increase in stability that cement provides.

PURPOSE

This aim of this study is to clarify the impact of cement volume and filling pattern on the stability of pedicle screws in synthetic bone blocks of varying density.

STUDY DESIGN

We examined the effects of different volumes of PMMA cement on screw stability by using synthetic bone blocks with densities of 7.5 pcf, 15 pcf, and 30 pcf to simulate human vertebral cancellous bone with osteoporosis, osteopenia, and normal bone density. Two filling patterns were compared: a tip cement cloud and a surrounding cement cloud.

METHODS

We tested solid screws, cannulated screws without side holes, and cannulated screws with 4 side holes. Cement volumes of 2 cc, 3 cc, and 4 cc were injected, and the pullout strength was measured using an Instron testing machine. The samples were categorized into the control (no cement) group, S group (solid screws with prefilling), C1 group (cannulated screws without side holes), and C5 group (cannulated screws with 4 side holes). Among these, the C1 group exhibited a cement cloud at the tip, while the S and C5 groups showed a surrounding cement cloud.

RESULTS

Adding an extra 1 cc of cement (from 2 cc to 3 cc, or 3 cc to 4 cc) significantly increased the pullout strength by 10% in 7.5 pcf bone, 47% in 15 pcf bone, and 34% in 30 pcf bone and doubling the cement volume resulted in even greater increases. Regardless of the injected volume, cement augmentation substantially increased the pullout strength in osteoporotic bone compared with noncemented screws in osteopenic bone. For a given cement volume, the anchorage power was greater for the surrounding cement cloud pattern than for the tip cement cloud pattern.

CONCLUSION

Although the addition of more cement increases the pullout strength, excessive augmentation in osteoporotic bone is unnecessary. The filling pattern is crucial; a larger contact area in the surrounding cement cloud enhances screw stability more effectively than the tip cement cloud does.

CLINICAL SIGNIFICANCE

While adding more cement increases pullout strength, excessive augmentation in osteoporotic bone is unnecessary. The filling pattern rather than the screw design is a crucial determinant of screw stability.

摘要

背景

骨质疏松症患者椎弓根螺钉松动和失效的风险更高，因此聚甲基丙烯酸甲酯（PMMA）骨水泥强化是提高稳定性的常用建议。然而，关于理想的骨水泥体积、填充方式以及骨水泥所提供的稳定性可测量增加量，仍存在争议。

目的

本研究旨在阐明骨水泥体积和填充方式对不同密度合成骨块中椎弓根螺钉稳定性的影响。

研究设计

我们使用密度分别为7.5磅/立方英尺、15磅/立方英尺和30磅/立方英尺的合成骨块来模拟患有骨质疏松症、骨质减少症和正常骨密度的人体椎体松质骨，研究不同体积的PMMA骨水泥对螺钉稳定性的影响。比较了两种填充方式：尖端骨水泥云团和周围骨水泥云团。

方法

我们测试了实心螺钉、无侧孔空心螺钉和有4个侧孔空心螺钉。注入2立方厘米、3立方厘米和4立方厘米的骨水泥，并用英斯特朗试验机测量拔出强度。样本分为对照组（无骨水泥）、S组（预填充实心螺钉）、C1组（无侧孔空心螺钉）和C5组（有4个侧孔空心螺钉）。其中，C1组在尖端呈现骨水泥云团，而S组和C5组呈现周围骨水泥云团。

结果

额外增加1立方厘米骨水泥（从2立方厘米增加到3立方厘米，或从3立方厘米增加到4立方厘米），在7.5磅/立方英尺的骨块中拔出强度显著增加10%，在15磅/立方英尺的骨块中增加47%，在30磅/立方英尺的骨块中增加34%，骨水泥体积翻倍会带来更大幅度的增加。无论注入的体积如何，与骨质减少骨中未使用骨水泥的螺钉相比，骨水泥强化显著提高了骨质疏松骨中的拔出强度。对于给定的骨水泥体积，周围骨水泥云团模式的锚固力大于尖端骨水泥云团模式。