发育性静脉异常的磁共振成像评估:静脉血管瘤的髓静脉解剖
MR evaluation of developmental venous anomalies: medullary venous anatomy of venous angiomas.
作者信息
Lee C, Pennington M A, Kenney C M
机构信息
Department of Radiology, University of Kentucky Medical Center, Lexington 40536, USA.
出版信息
AJNR Am J Neuroradiol. 1996 Jan;17(1):61-70.
PURPOSE
To present characteristic MR findings of developmental venous anomalies (DVAs) in terms of location of caput and draining veins, to correlate these findings with normal medullary venous anatomy, and to suggest an approach to the evaluation of DVAs by means of MR imaging.
METHODS
We reviewed the contrast-enhanced MR examinations of 61 patients with DVA, which were selected from 4624 consecutive cranial MR examinations. Site of the DVA and size and direction of draining veins were recorded.
RESULTS
Seventy-two DVAs with 78 draining veins were located: 18 were juxtacortical, 13 were subcortical, and 41 were periventricular or deep. Twenty-six of the DVA caputs were frontal, 16 were parietal, 13 were in the brachium pontis/dentate, seven were in the temporal lobe, three were in the cerebellar hemisphere, three were in the occipital lobe, three were in the basal ganglia, and one was in the pons. The draining veins were superficial in 29 cases and deep in 49. Of the 36 supratentorial deep draining veins, 16 were in the trigone/occipital horn, 11 were in the mid-body of the lateral ventricle, seven were in the frontal horn, and two were in the temporal horn. Among the 14 infratentorial deep draining veins, five were in the lateral recess of the fourth ventricle, four were anterior transpontine veins, three were lateral transpontine veins, and two were precentral cerebellar veins.
CONCLUSION
The DVA caputs and their draining veins occurred in typical locations that could be predicted from the normal medullary venous anatomy, with the frontal, parietal, and brachium pontis/dentate being the most common locations. Drainage can occur in superficial cortical veins or sinuses or in deep ventricular veins or in both, no matter where the caput is located. Whether drainage was superficial or deep could not be predicted on the basis of the site of the DVA caput. Contrast-enhanced T1-weighted MR images showed the DVAs best, but diagnosis could be made from T2-weighted MR images.
目的
根据静脉瘤帽和引流静脉的位置,呈现发育性静脉异常(DVA)的特征性磁共振成像(MR)表现,将这些表现与正常髓静脉解剖结构相关联,并提出一种通过MR成像评估DVA的方法。
方法
我们回顾了从4624例连续的头颅MR检查中选出的61例患有DVA患者的增强MR检查。记录DVA的位置以及引流静脉的大小和方向。
结果
发现了72个伴有78条引流静脉的DVA:18个位于皮质旁,13个位于皮质下,41个位于脑室周围或深部。DVA瘤帽位于额叶的有26个,顶叶的有16个,脑桥臂/齿状核的有13个,颞叶的有7个,小脑半球的有3个,枕叶的有3个,基底节的有3个,脑桥的有1个。引流静脉浅部的有29例,深部的有49例。在36条幕上深部引流静脉中,16条位于三角区/枕角,11条位于侧脑室体部,7条位于额角,2条位于颞角。在14条幕下深部引流静脉中,5条位于第四脑室侧隐窝,4条为脑桥前静脉,3条为脑桥外侧静脉,2条为小脑中央前静脉。
结论
DVA瘤帽及其引流静脉出现在可根据正常髓静脉解剖结构预测的典型位置,额叶、顶叶和脑桥臂/齿状核是最常见的位置。无论瘤帽位于何处,引流可通过浅部皮质静脉或静脉窦,或深部脑室静脉,或两者兼有。不能根据DVA瘤帽的位置预测引流是浅部还是深部。增强T1加权MR图像能最佳地显示DVA,但T2加权MR图像也可作出诊断。
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