Vertebroplasty: Cement Leakage into the Disc Increases the Risk of New Fracture of Adjacent Vertebral Body

Overview

Journal AJNR Am J Neuroradiol

Specialty Neurology

Date 2004 Feb 19

PMID 14970015

Citations 135

Authors

Edward P Lin

Sven Ekholm

Akio Hiwatashi

Per-Lennart Westesson

Affiliations

Soon will be listed here.

Abstract

Background And Purpose: Patients successfully treated with vertebroplasty often return with new pain caused by a new vertebral body fracture. The new fractures often are adjacent to the vertebral bodies that were initially treated. In our clinical work, we have observed that cement leakage into the disk increases the risk of new fracture of the adjacent vertebral body. This study analyzed the risk of new fractures of adjacent vertebral bodies in relationship to cement leakage into the disk.

Methods: This study was based on 38 patients with painful compression fractures treated with vertebroplasty. Patients who returned with new pain after initial successful vertebroplasty were evaluated by repeat MR imaging. We analyzed the incidence of new fractures of adjacent vertebral bodies in relationship to cement leakage into the disk that had occurred during the initial vertebroplasty.

Results: Fourteen patients developed new fractures during the follow-up period. In 10 patients, the new fractures were associated with cement leakage into the disk, whereas four patients had new fractures that were not associated with cement leakage into the disk. This difference was statistically significant (P =.018). A detailed analysis showed that 58% of vertebral bodies adjacent to a disk with cement leakage fractured during the follow-up period compared with 12% of vertebral bodies adjacent to a disk without cement leakage (P <.0005).

Conclusion: Leakage of cement into the disk during vertebroplasty increases the risk of a new fracture of adjacent vertebral bodies.

Citing Articles

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Static study and numerical simulation of the influence of cement distribution in the upper and lower adjacent vertebrae on sandwich vertebrae in osteoporotic patients: Finite element analysis.

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Construction of a nomogram to predict the probability of new vertebral compression fractures after vertebral augmentation of osteoporotic vertebral compression fractures: a retrospective study.

Gao Y, Zheng J, Yao K, Wang W, Tan G, Xin J Front Med (Lausanne). 2024; 11:1369984.

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Yoon S, Park H, Lee D, Lee D J Bone Metab. 2024; 31(1):56-62.

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