Department of Orthopaedic Surgery, Leiden University Medical Center, Albinusdreef 2, PO Box 9600, 2300 RC Leiden, The Netherlands.
Radiology. 2013 Mar;266(3):862-70. doi: 10.1148/radiol.12120751. Epub 2012 Nov 30.
To perform clustered analysis of fracture-free probabilities of intact nontreated vertebrae after percutaneous vertebroplasty (PVP) in painful long-standing osteoporotic vertebral compression fractures (OVCFs) to determine risk factors for new vertebral fractures and estimate fracture-free probabilities of multiple intact nontreated vertebrae given their patient- and vertebra-specific covariate status.
Informed consent and institutional review board approval were obtained. A total of 115 patients who underwent PVP for 216 painful long-standing OVCFs were prospectively followed up to detect new OVCFs during the 1st postoperative year. A total of 1031 intact vertebrae were available for clustered analysis of fracture-free probabilities by using a Cox proportional hazard frailty model. A clustered analysis takes clustering or correlation of fracture-free survival probabilities of individual intact vertebrae within one patient into account to improve estimates of fracture-free probabilities and risk factors. Relevant patient- and vertebra-specific covariates were included. Volumetric analysis of intradiskal cement leakage was performed by using a receiver operating characteristic curve (ROC).
Three- and 12-month vertebral fracture-free probability was 97.0% and 94.5%, respectively. Strong patient-level risk factors included low bone mineral density (hazard ratio [HR], 0.53 per unit increase), high spinal deformity index (HR, 2.23 per five units increase), and low fracture age (HR, 0.52 per 2 months increase). Strong vertebra-specific risk factors were thoracolumbar localization (HR, 2.33), vicinity to the treated level (adjacent level HR, 3.53), and presence of intradiskal cement leakage (HR, 8.21). Fracture-free probabilities of individual vertebrae were clustered within a patient (ie, not independent) (P = .009). The predicted 1-year fracture-free probability of an individual vertebra could be as high as 99.8% or as low as 19.9% based on absence or presence of risk factors, respectively. Larger intradiskal cement leakage volumes were associated with a higher likelihood of occurrence of new adjacent OVCFs (area under the ROC curve, 0.70).
New vertebral fractures after PVP were clustered within patients and depended heavily on the presence or absence of both patient- and vertebra-specific risk factors. Intradiskal cement leakage was a pronounced augmentation-related risk factor, for which a volumetric association was found.
对经皮椎体成形术(PVP)治疗后疼痛性长期骨质疏松性椎体压缩骨折(OVCF)患者未骨折椎体的无骨折概率进行聚类分析,以确定新椎体骨折的危险因素,并根据患者和椎体的特定协变量状态估计多个未骨折非治疗椎体的无骨折概率。
本研究获得了知情同意和机构审查委员会的批准。前瞻性随访了 115 例因 216 例疼痛性长期 OVCF 而行 PVP 的患者,以在术后 1 年内检测新的 OVCF。共有 1031 个完整椎体可用于使用 Cox 比例风险脆弱模型进行无骨折概率的聚类分析。聚类分析考虑了单个患者内单个完整椎体无骨折生存概率的聚类或相关性,以提高无骨折概率和危险因素的估计值。纳入了相关的患者和椎体特异性协变量。通过接受者操作特征曲线(ROC)对椎间盘内水泥渗漏进行容积分析。
3 个月和 12 个月的椎体无骨折概率分别为 97.0%和 94.5%。强烈的患者水平危险因素包括低骨密度(风险比[HR],每单位增加 0.53)、高脊柱畸形指数(HR,每增加 5 个单位增加 2.23)和低骨折年龄(HR,每增加 2 个月增加 0.52)。强烈的椎体特异性危险因素为胸腰椎定位(HR,2.33)、靠近治疗水平(相邻水平 HR,3.53)和存在椎间盘内水泥渗漏(HR,8.21)。单个椎体的无骨折概率在患者内呈聚类分布(即非独立)(P=0.009)。根据危险因素的有无,单个椎体 1 年无骨折的预测概率可高达 99.8%或低至 19.9%。较大的椎间盘内水泥渗漏体积与新发生相邻 OVCF 的可能性增加相关(ROC 曲线下面积,0.70)。
PVP 后新的椎体骨折在患者内呈聚类分布,严重依赖于患者和椎体特异性危险因素的存在与否。椎间盘内水泥渗漏是一种明显的与增强相关的危险因素,并且发现了其与体积的关联。
