• BACKGROUND
    • Percutaneous vertebroplasty (PVP) has been widely used to treat vertebral pathological fractures in recent decades, and the modified PVP instrument is very suitable for percutaneous biopsy of diseases promoting vertebral bone destruction. The purpose of this study was to evaluate the relevance of the clinical application of the modified PVP instrument in computed tomography-guided (CT-guided) biopsies of the vertebral body.
  • METHODS
    • Retrospective analysis of clinical data obtained by percutaneous biopsy using a modified PVP outer shell of a bone filler device (OSBF) from 161 patients presenting vertebral body destruction was conducted. The rate of correctly performed biopsy diagnosis was evaluated from three aspects: imaging performance, histological type, and vertebral segment.
  • RESULTS
    • The results of 149 biopsy cases were consistent with the final clinical diagnosis. From those cases, 92 were diagnosed as vertebral body metastasis, 45 cases presented primary spinal tumors and tumor-like changes, 7 cases presented vertebral body infections, and 5 cases displayed normal bones or fractures. From the remaining 12 patients, whose biopsy results were inconsistent with the final clinical diagnosis, 4 presented vertebral metastases, 4 displayed primary vertebral tumors, and 4 presented vertebral infections. The diagnostic rate of the modified PVP OSBF biopsy was 92.5%. The rate of correct biopsy diagnosis for vertebral metastases was 95.8%. The rate of correct diagnosis of primary vertebral tumors and tumor-like biopsy was 91.8%, and the rate of correct diagnosis for vertebral infectious diseases was 63.6%.
  • CONCLUSION
    • The modified PVP OSBF allows obtaining more lesion tissue, in multiple directions and multiple angles, during the biopsy of vertebral bones presenting destructive lesions. The technique displays appropriate safety and high diagnostic accuracy and presents a desirable reference value for the preoperative diagnosis of diseases that yield vertebral bone destruction, especially for vertebral tumor lesions.