Meyers S P, Wiener S N
University of Pittsburgh School of Medicine, Department of Radiology, Pennsylvania 15213.
Skeletal Radiol. 1991;20(7):499-507. doi: 10.1007/BF00194246.
The MRI characteristics of fractures have been described on the basis of spin echo (SE) images emphasizing T1 and T2 contrast. These previous studies were carried out for injuries in which radiographic proof was often lacking. In comparison with SE images, short tau inversion recovery (STIR) images have been shown to provide superior contrast between normal and abnormal marrow. To determine the MRI characteristics of fracture using STIR pulse sequences, we reviewed 28 patients who had radiographic evidence of fracture and were examined with T1-weighted SE and STIR sequences. MRI marrow signal abnormalities were demonstrated at all fracture sites ranging in age from less than 24 h to 8 weeks. The extent of marrow signal abnormalities exceeded the size of corresponding radiographic findings of fracture in all cases. The MRI features of fractures on T1-weighted SE images consisted of irregular intramedullary zones of hypointensity. On STIR images a corresponding zone of hyperintensity extended to the outer cortical margin. Intramedullary lines of hypointensity extending to the inner cortical margin were identified within the hyperintense marrow abnormality on STIR images in 64% of the fractures. The results of this study show that MRI using T1-weighted SE and STIR sequences can consistently demonstrate prominent signal abnormalities at fracture sites including those in which radiographic signs are subtle.
骨折的磁共振成像(MRI)特征已根据自旋回波(SE)图像进行了描述,重点在于T1和T2对比度。这些先前的研究是针对那些通常缺乏X线证据的损伤进行的。与SE图像相比,短反转时间反转恢复(STIR)图像已被证明能在正常骨髓和异常骨髓之间提供更好的对比度。为了使用STIR脉冲序列确定骨折的MRI特征,我们回顾了28例有骨折X线证据并接受了T1加权SE序列和STIR序列检查的患者。在所有骨折部位均显示出MRI骨髓信号异常,骨折时间从不到24小时至8周不等。在所有病例中,骨髓信号异常的范围均超过了相应骨折X线表现的大小。T1加权SE图像上骨折的MRI特征包括不规则的髓内低信号区。在STIR图像上,相应的高信号区延伸至皮质外缘。在64%的骨折中,在STIR图像上高信号骨髓异常内可识别出延伸至皮质内缘的低信号髓内线。本研究结果表明,使用T1加权SE序列和STIR序列的MRI能够始终如一地显示骨折部位明显的信号异常,包括那些X线征象不明显的骨折部位。
