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渗漏的骨水泥与相邻椎体终板接触在生物力学上会增加椎体骨水泥强化术后相邻椎体骨折的风险。

Contact between leaked cement and adjacent vertebral endplate induces a greater risk of adjacent vertebral fracture with vertebral bone cement augmentation biomechanically.

作者信息

Xie Shiming, Cui Liqiang, Wang Chenglong, Liu Hongjun, Ye Yu, Gong Shuangquan, Li Jingchi

机构信息

Department of Spine surgery, Mianyang Orthopedic Hospital, Mianyang 621052, Sichuan Province, PR China.

Department of Orthopedics, Luzhou Key Laboratory of Orthopedic Disorders, The Affiliated Traditional Chinese Medicine Hospital, Southwest Medical University, Luzhou 646000, Sichuan Province, PR China.

出版信息

Spine J. 2025 Feb;25(2):324-336. doi: 10.1016/j.spinee.2024.09.021. Epub 2024 Sep 28.

DOI:10.1016/j.spinee.2024.09.021
PMID:39343240
Abstract

BACKGROUND CONTEXT

Adjacent vertebral fracture (AVF) is a frequently observed complication after percutaneous vertebroplasty in patients with osteoporotic vertebral compressive fracture (OVCF). Studies have demonstrated that intervertebral cement leakage (ICL) can increase the incidence of AVF, but others have reached opposite conclusions. The stress concentration initially increases the risk of AVF, and dispersive concentrated stress is the main biomechanical function of the intervertebral disc (IVD).

PURPOSE

This study was designed to validate the hypothesis that direct contact between the leaked cement and adjacent bony endplate (BEP) can inhibit this biomechanical function, trigger adjacent vertebral stress concentration and increase the risk of AVF.

STUDY DESIGN

A retrospective study and corresponding numerical mechanical simulations.

PATIENT SAMPLE

Clinical data from 97 OVCF patients treated by bone cement augmentation operations were reviewed in this study.

OUTCOME MEASURES

Clinical assessments involved measuring ICL and cement-BEP contact status in patients with and without AVF. Numerical simulations were conducted to compute stress values in adjacent vertebral body's BEP and cancellous bone under various body positions.

MATERIALS AND METHODS

Radiographic and demographic data of 97 OVCF patients (with an average follow-up period of 11.5 months) treated using bone cement augmentation operation were reviewed in the present study. The patients were divided into 2 groups: those with AVF and those without AVF. Bone cement leakage status was judged via 2 different methods: with or without IVD cement leakage and with and without adjacent vertebral endplate contact. The data from patients with and without AVF were compared, and the independent risk factors were identified through regression analysis. Patients without IVD cement leakage, with IVD cement leakage but without adjacent vertebral endplate cement contact, and with direct adjacent vertebral endplate cement contact were simulated using a previously constructed and validated lumbar finite element model, and the biomechanical indicators related to the AVF were computed and recorded in these surgical models.

RESULTS

Radiographic analysis revealed that the incidence of AVF was numerically higher, but was not significantly higher in patients with IVD cement leakage. In contrast, patients with direct adjacent vertebral endplate cement contact had a significantly greater incidence of AVF, which has also been proven to be an independent risk factor for AVF. In addition, numerical mechanical simulations revealed an obvious stress concentration tendency (the higher maximum equivalent stress value) in the adjacent vertebral body in the model with endplate cement contact.

CONCLUSIONS

Direct adjacent vertebral endplate cement contact induces a greater risk of AVF through deterioration of the local biomechanical environment. Cement injection, therefore, should be terminated when IVD cement leakage occurs to reduce adjacent vertebral endplate cement contact and reduce the resulting risk of AVF biomechanics.

摘要

背景

相邻椎体骨折(AVF)是骨质疏松性椎体压缩骨折(OVCF)患者经皮椎体成形术后常见的并发症。研究表明,椎间盘水泥渗漏(ICL)会增加AVF的发生率,但也有研究得出了相反的结论。应力集中最初会增加AVF的风险,而分散集中应力是椎间盘(IVD)的主要生物力学功能。

目的

本研究旨在验证以下假设:渗漏的骨水泥与相邻骨终板(BEP)直接接触会抑制这种生物力学功能,引发相邻椎体应力集中并增加AVF的风险。

研究设计

一项回顾性研究及相应的数值力学模拟。

患者样本

本研究回顾了97例接受骨水泥强化手术治疗的OVCF患者的临床资料。

观察指标

临床评估包括测量有无AVF患者的ICL及骨水泥与BEP的接触情况。进行数值模拟以计算不同体位下相邻椎体BEP和松质骨的应力值。

材料与方法

本研究回顾了97例接受骨水泥强化手术治疗的OVCF患者(平均随访期11.5个月)的影像学和人口统计学数据。患者分为两组:有AVF组和无AVF组。通过两种不同方法判断骨水泥渗漏情况:有无IVD骨水泥渗漏以及有无相邻椎体终板接触。比较有AVF和无AVF患者的数据,并通过回归分析确定独立危险因素。使用先前构建并验证的腰椎有限元模型对无IVD骨水泥渗漏、有IVD骨水泥渗漏但无相邻椎体终板骨水泥接触以及有直接相邻椎体终板骨水泥接触的患者进行模拟,并计算并记录这些手术模型中与AVF相关的生物力学指标。

结果

影像学分析显示,IVD骨水泥渗漏患者的AVF发生率在数值上较高,但无显著差异。相比之下,有直接相邻椎体终板骨水泥接触的患者AVF发生率显著更高,这也被证明是AVF的独立危险因素。此外,数值力学模拟显示,在有终板骨水泥接触的模型中,相邻椎体存在明显的应力集中趋势(最大等效应力值更高)。

结论

直接相邻椎体终板骨水泥接触通过局部生物力学环境恶化导致更大的AVF风险。因此,当发生IVD骨水泥渗漏时应停止注射骨水泥,以减少相邻椎体终板骨水泥接触并降低由此产生的AVF生物力学风险。

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