Li Xiao-ming, Xiong Wei, Hu Dao-yu, Yu Cheng, Peng Wen-jia, Hu Jun-wu, Feng Ding-yi, Hu Xue-mei, Li Hong-lian, Qiu Li, Li Feng
Department of Radiology, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, Hubei, China.
Chin Med J (Engl). 2008 Oct 5;121(19):1932-8.
It is of value to identify the non-invasive means that can accurately reflect the blood supply of epiphysis and is more sensitive in detection of early ischemia of epiphysis than the conventional gadoteridol (Gd)-enhanced SE T1WI. The aim of this study was to evaluate the blood supply of various anatomic regions at the end of normal growing long bone using dynamic Gd-enhanced MR imaging and compare the sensitivities between dynamic Gd-enhanced MR imaging and conventional Gd-enhanced SE T1WI in the detection of decreased blood perfusion of early epiphyseal ischemia.
Twenty-seven two-week-old piglets were used in this study. For the study of the end of normal growing long bone, unilateral MR imaging of the distal femur and proximal tibia was performed on eleven piglets. The comparison was made among various anatomic regions (physeal and epiphyseal cartilage, metaphyseal spongiosa, the secondary ossification center and metaphysis) using MRI in terms of the enhancement ratio and speed. Their relationships with the histological findings, including RBC/mm(2) and vessel distribution, were evaluated. To examine ischemic femoral head, 16 piglets were divided into two groups, with the control group having 8 piglets (involving 16 normal hips) and an ischemic group having 8 piglets (involving 16 hips with hyperabduction). In the ischemic group, MR imaging was performed on the hips in the hyperabduction immobilized persistently for 30 minutes. After MRI, the piglets were allowed to ambulate freely for 1 day and the same MR scanning was then repeated in a neutral position. The difference in enhancement ratio and speed of the femoral head between the control and ischemic group were evaluated.
With regard to the end of normal growing long bone, the enhancement ratio of the metaphyseal spongiosa was greatest among all the anatomic regions (P < 0.001). The enhancement ratio of physeal cartilage was greater than that of epiphyseal cartilage (P < 0. 001), which was the lowest in all tissues (P < 0.001). The enhancement speed of the spongiosa was greater than that of physis but the difference was not significant (P > 0.05). The enhancement speed of physis was greater than that of epiphyseal cartilage (P < 0.05), which was the lowest among all the tissues (P < 0.05). The enhancement ratio and speed were found to be related to the histological findings, including RBC/mm(2) (R > 0.75) and distribution of vessels in the tissues. With ischemic femoral head, the enhancement ratios of physis, anterior part and posterior part of capital femoral epiphysis were significantly lower (P < 0.05) and enhanced more slowly (P < 0.05) than those of normal femoral head on dynamic Gd-enhanced MR imaging. On conventional Gd-enhanced SE T1WI, however, no apparent decrease in enhancement ratio and speed in ischemic hips was found (P < 0.05), when they were compared with those in the normal hips.
Dynamic gadoteridol-enhanced MR imaging can reveal the blood supply in various anatomic regions of the end of normal growing long bone. It is more sensitive than conventional Gd-enhanced SE T1WI in the detection of early epiphyseal ischemia.
确定能准确反映骨骺血供且在检测骨骺早期缺血方面比传统钆喷酸葡胺(Gd)增强SE T1WI更敏感的非侵入性方法具有重要价值。本研究的目的是使用动态Gd增强磁共振成像评估正常生长的长骨末端各解剖区域的血供,并比较动态Gd增强磁共振成像和传统Gd增强SE T1WI在检测早期骨骺缺血性血流灌注减少方面的敏感性。
本研究使用27只2周龄仔猪。为研究正常生长的长骨末端,对11只仔猪的股骨远端和胫骨近端进行单侧磁共振成像。使用磁共振成像比较各解剖区域(骨骺和骨骺软骨、干骺端松质骨、次级骨化中心和干骺端)的增强率和速度。评估它们与组织学结果的关系,包括每平方毫米红细胞数(RBC/mm²)和血管分布。为检查缺血性股骨头,将16只仔猪分为两组,对照组8只仔猪(涉及16个正常髋关节),缺血组8只仔猪(涉及16个过度外展的髋关节)。在缺血组,对持续过度外展固定30分钟的髋关节进行磁共振成像。磁共振成像后,让仔猪自由活动1天,然后在中立位重复相同的磁共振扫描。评估对照组和缺血组股骨头增强率和速度的差异。
对于正常生长的长骨末端,干骺端松质骨的增强率在所有解剖区域中最大(P<0.001)。骨骺软骨的增强率大于骨骺软骨(P<0.001),骨骺软骨的增强率在所有组织中最低(P<0.001)。松质骨的增强速度大于骨骺,但差异不显著(P>0.05)。骨骺的增强速度大于骨骺软骨(P<0.05),骨骺软骨的增强速度在所有组织中最低(P<0.05)。发现增强率和速度与组织学结果相关,包括RBC/mm²(R>0.75)和组织中血管的分布。对于缺血性股骨头,在动态Gd增强磁共振成像上,骨骺、股骨头骨骺前部和后部的增强率显著低于正常股骨头(P<0.05),增强速度也更慢(P<0.05)。然而,在传统Gd增强SE T1WI上,与正常髋关节相比,缺血髋关节的增强率和速度没有明显降低(P<0.05)。
动态钆喷酸葡胺增强磁共振成像可显示正常生长的长骨末端各解剖区域的血供。在检测早期骨骺缺血方面,它比传统Gd增强SE T1WI更敏感。
