一种预测椎弓根螺钉稳定性的新方法：螺钉周围区域骨密度

A Novel Method for the Prediction of the Pedicle Screw Stability: Regional Bone Mineral Density Around the Screw.

作者信息

Ishikawa Koji, Toyone Tomoaki, Shirahata Toshiyuki, Kudo Yoshifumi, Matsuoka Akira, Maruyama Hiroshi, Hayakawa Chikara, Tani Soji, Sekimizu Masaya, Tsuchiya Koki, Eguro Takeshi, Oshita Yusuke, Ozawa Tomoyuki, Nakao Yusuke, Sano Shigeo, Nagai Takashi, Kanzaki Koji, Inagaki Katsunori

机构信息

Department of Orthopaedic Surgery, Showa University School of Medicine.

Department of Orthopaedic and Spine Surgery, Sanraku Hospital, Tokyo.

出版信息

Clin Spine Surg. 2018 Nov;31(9):E473-E480. doi: 10.1097/BSD.0000000000000703.

DOI:10.1097/BSD.0000000000000703

PMID:30102636

Abstract

STUDY DESIGN

Prospective feasibility study on consecutive patients.

OBJECTIVE

The aim of this study was to investigate the ability of regional BMD around the pedicle screw to predict the screw fixation.

SUMMARY OF BACKGROUND DATA

Pedicle screw fixation is the gold standard technique for spinal fusion. Despite the advantage of biomechanical stability, screw loosening is a common complication. In previous studies, pullout strength and screw insertional torque were correlated, and most importantly, affected by bone mineral density (BMD). Although the density and structure of the vertebral body are not homogeneous, no study has yet evaluated the relationship between screw insertional torque and regional BMD around the pedicle screw in vivo.

METHODS

Consecutive 50 patients, scheduled for transpedicular fixation, were evaluated preoperatively for BMD measured by dual-energy absorptiometry (DXA) and quantitative computed tomography (QCT). Regional volumetric BMD around the pedicle screw (PS-vBMD) using the novel QCT technique was also evaluated. Among all patients, 190 screws (diameter, 7.5 to 8.5 mm; length, 40 to 45 mm, inserted from L1 to L5) were eligible for this study and were analyzed to identify factors contributing to insertional torque. The following factors were investigated: age, body mass index, laboratory data, pedicle diameter, screw diameter, screw length, and 5 types of bone mineral density measures [DXA: spine-areal BMD (aBMD), total hip-aBMD, femoral neck-aBMD, QCT: central-vBMD, PS-vBMD].

RESULTS

Insertional torque was significantly correlated with each BMD measurement and strongest with PS-vBMD (r=0.61, P<0.001). Multiple regression analysis showed PS-vBMD was most strongly correlated with screw insertional torque (stdβ=0.494; P<0.001). A model containing the following 5 predictors was significantly associated with screw insertional torque: age, pedicle diameter, screw diameter, screw length, and PS-vBMD.

CONCLUSIONS

The preoperative measurement of PS-vBMD was technically feasible and reliably predictive of screw insertional torque during transpedicular fixation in a clinical setting.

摘要

研究设计

对连续患者进行的前瞻性可行性研究。

目的

本研究旨在探讨椎弓根螺钉周围局部骨密度预测螺钉固定的能力。

背景数据总结

椎弓根螺钉固定是脊柱融合的金标准技术。尽管具有生物力学稳定性优势，但螺钉松动是常见并发症。在以往研究中，拔出强度与螺钉插入扭矩相关，且最重要的是受骨密度（BMD）影响。虽然椎体的密度和结构不均匀，但尚无研究在体内评估螺钉插入扭矩与椎弓根螺钉周围局部骨密度之间的关系。

方法

对连续50例计划行椎弓根固定的患者在术前进行双能吸收法（DXA）和定量计算机断层扫描（QCT）测量骨密度评估。还使用新型QCT技术评估椎弓根螺钉周围的局部体积骨密度（PS-vBMD）。在所有患者中，190枚螺钉（直径7.5至8.5毫米；长度40至45毫米，从L1至L5置入）符合本研究条件，并进行分析以确定影响插入扭矩的因素。研究了以下因素：年龄、体重指数、实验室数据、椎弓根直径、螺钉直径、螺钉长度以及5种骨密度测量指标[DXA：脊柱面积骨密度（aBMD）、全髋aBMD、股骨颈aBMD，QCT：中心vBMD、PS-vBMD]。

结果

插入扭矩与每种骨密度测量指标均显著相关，与PS-vBMD的相关性最强（r = 0.61，P < 0.001）。多元回归分析显示PS-vBMD与螺钉插入扭矩的相关性最强（标准β = 0.494；P < 0.001）。包含以下5个预测因子的模型与螺钉插入扭矩显著相关：年龄、椎弓根直径、螺钉直径、螺钉长度和PS-vBMD。

结论

术前测量PS-vBMD在技术上可行，且在临床环境中对椎弓根固定期间的螺钉插入扭矩具有可靠的预测性。

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一种预测椎弓根螺钉稳定性的新方法：螺钉周围区域骨密度

A Novel Method for the Prediction of the Pedicle Screw Stability: Regional Bone Mineral Density Around the Screw.

作者信息

机构信息

出版信息

STUDY DESIGN

OBJECTIVE

SUMMARY OF BACKGROUND DATA

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

背景数据总结

方法

结果

结论

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