Litcius/Paper detail

A novel and convenient method to evaluate bone cement distribution following percutaneous vertebral augmentation

Jin Liu, Jing Tang, Hao Liu, Zuchao Gu, Yu Zhang, Shenghui Yu

2020Scientific Reports24 citationsDOIOpen Access PDF

Abstract

A convenient method to evaluate bone cement distribution following vertebral augmentation is lacking, and therefore so is our understanding of the optimal distribution. To address these questions, we conducted a retrospective study using data from patients with a single-segment vertebral fracture who were treated with vertebral augmentation at our two hospitals. Five evaluation methods based on X-ray film were compared to determine the best evaluation method and the optimal cement distribution. Of the 263 patients included, 49 (18.63%) experienced re-collapse of treated vertebrae and 119 (45.25%) experienced new fractures during follow-up. A 12-score evaluation method (kappa value = 0.652) showed the largest area under the receiver operating characteristic curve for predicting new fractures (0.591) or re-collapse (0.933). In linear regression with the 12-score method, the bone cement distribution showed a negative correlation with the re-collapse of treated vertebra, but it showed a weak correlation with new fracture. The two prediction curves intersected at a score of 10. We conclude that an X-ray-based method for evaluation of bone cement distribution can be convenient and practical, and it can reliably predict risk of new fracture and re-collapse. The 12-score method showed the strongest predictive power, with a score of 10 suggesting optimal bone cement distribution.

Topics & Concepts

CementReceiver operating characteristicVertebraBone cementMedicineFracture (geology)PercutaneousKappaOsteoporosisDistribution (mathematics)DentistryOrthodonticsSurgeryMathematicsMaterials scienceInternal medicineComposite materialGeometryMathematical analysisSpinal Fractures and Fixation TechniquesSpine and Intervertebral Disc PathologyHip and Femur Fractures