Magnetic Resonance Imaging Defferentiation of Compression Spine Fractures or Vertebral Lesions Caused by Osteoporosis or Tumor

Abstract

Study Design This study reviewed the magnetic resonance imaging characteristics of atraumatic compression fracturas or vertebral lesions caused by osteoporosis or tumor. Objectives The purpose of this study was to evaluate the magnetic resonance imaging characteristies that will allow differentiation of compression fractures or vertebral lesions due to osteoporosis or tumor. Summary of backgound Data Previous reports have identified several magnetic resonance imaging charactaristics of benign and malignant compression fractures. However, diagnosis has been confirmed primarily by clinical follow-up and not pathologic biopsy specimen. Methods Thirty-four cases of atraumatic compression fractures or vertebral lesions that had undergone magnetic resonance imaging evaluation followed by biopsy were retrospectively reviewed. Conventional magnetic resonance imaging with T₁ and T₂ weighted images were obtained in all cases and gadolinium was used in 21 cases. Each case was evaluated for magnetic resonance imaging characteristics of the compression fractures or vertabral lesions that included decreased T₁ and increased T₂ siganl, marrow preservation on the T₁ image, gadolinium lesion enhancement, multiple level involvement, associated soft tissue mass, posterior vertebral expansion, and pedicle involvement. Results Eighteen of the compression fractures or vertebral lesions were confirmed as tumor and 16 were confirmed as osteoporosis by biopsy. Decreased T₁-weighted and increased T₂-weighted signals are sensitive but not specific for tumor involvement. Normal marrow preservatin of the compressed vertebral body on T₁ imaging is consistent with an osteoporotic fracture or lesion. Gadolinium enhancement, multiple level involvement, and posterior vertebral expansion are not useful for differentiation of osteoporatic from tumor fractures or lesions. pedicle involvement or an associated soft tissue mass are specific for a tumor compression fracture or vertebral lesion. Conclusion There are characteristic magnetic resonance imaging findings of compression fractures or vertebral lesions that allow sensitive and specific differentiation of osteoporosis from tumor.