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颅内出血性病变的诊断:3D-SWAN(多回波采集的3D T2*加权成像)与2D-T2*加权成像的比较

Diagnosis of intracranial hemorrhagic lesions: comparison between 3D-SWAN (3D T2*-weighted imaging with multi-echo acquisition) and 2D-T2*-weighted imaging.

作者信息

Hayashida Yoshiko, Kakeda Shingo, Hiai Yasuhiro, Ide Satoshi, Ogasawara Atsushi, Ooki Hodaka, Watanabe Keita, Nishimura Joji, Ohnari Norihiro, Korogi Yukunori

机构信息

Department of Radiology, University of Occupational and Environmental Health, School of Medicine, Kitakyushu, Japan.

出版信息

Acta Radiol. 2014 Mar;55(2):201-7. doi: 10.1177/0284185113495836. Epub 2013 Aug 7.

DOI:10.1177/0284185113495836
PMID:23926235
Abstract

BACKGROUND

3D-susceptibility-weighted angiography (SWAN) can produce high-resolution images that yield excellent susceptibility-weighted contrast at a relatively short acquisition time.

PURPOSE

To compare SWAN- and 2D-T2*-weighted gradient-echo images (T2*-WI) for their sensitivity in the depiction of cerebral hemorrhagic lesions.

MATERIAL AND METHODS

We subjected 75 patients with suspected cerebral hemorrhagic lesions to SWAN and T2*-WI at 3T. We first measured the contrast-to-noise ratio (CNR) using an agar phantom that contained different concentrations of superparamagnetic iron oxide (SPIO). The acquisition time for SWAN and T2*-WI was similar (182 vs. 196 s). Neuroradiologists compared the two imaging methods for lesion detectability and conspicuity.

RESULTS

The CNR of the phantom was higher on SWAN images. Of the 75 patients, 50 were found to have a total of 278 cerebral hemorrhagic lesions (microbleeds, n = 229 [82.4%]; intracerebral hemorrhage, n = 18 [6.5%]; superficial siderosis, n = 13 [4.7%]; axonal injuries, n = 8 [2.9%]; subarachnoid hemorrhage [SAH] or brain contusion, n = 3 each [1.0%]; subdural hematoma, n = 2 [0.7%]; cavernous hemangioma or dural arterteriovenous fistula, n = 1 each [0.4%]). In none of the lesions was the SWAN sequence inferior to T2*-WI with respect to lesion detectability and conspicuity. In fact, SWAN yielded better lesion conspicuity in patients with superficial siderosis and SAH: it detected significantly more lesions than T2*-WI (P < 0.01) and it was particularly useful for the detection of microbleeds and lesions near the skull base.

CONCLUSION

SWAN is equal or superior to standard T2*-WI for the diagnosis of various cerebral hemorrhagic lesions. Because its acquisition time is reasonable it may replace T2*-WI.

摘要

背景

三维磁化率加权血管造影(SWAN)能够生成高分辨率图像,在相对较短的采集时间内产生出色的磁化率加权对比。

目的

比较SWAN和二维T2加权梯度回波图像(T2WI)在显示脑内出血性病变方面的敏感性。

材料与方法

我们让75例疑似脑内出血性病变的患者在3T条件下接受SWAN和T2WI检查。我们首先使用含有不同浓度超顺磁性氧化铁(SPIO)的琼脂模型测量对比噪声比(CNR)。SWAN和T2WI的采集时间相似(182秒对196秒)。神经放射科医生比较了这两种成像方法在病变可检测性和清晰度方面的表现。

结果

模型的CNR在SWAN图像上更高。在75例患者中,50例共发现278处脑内出血性病变(微出血,n = 229 [82.4%];脑出血,n = 18 [6.5%];浅表性铁沉积症,n = 13 [4.7%];轴索损伤,n = 8 [2.9%];蛛网膜下腔出血[SAH]或脑挫伤,各n = 3 [1.0%];硬膜下血肿,n = 2 [0.7%];海绵状血管瘤或硬脑膜动静脉瘘,各n = 1 [0.4%])。在病变的可检测性和清晰度方面,SWAN序列在任何病变中都不逊色于T2WI。事实上,SWAN在浅表性铁沉积症和SAH患者中产生了更好的病变清晰度:它检测到的病变明显多于T2WI(P < 0.01),并且对微出血和颅底附近病变的检测特别有用。

结论

在诊断各种脑内出血性病变方面,SWAN等同于或优于标准T2WI。由于其采集时间合理,它可能会取代T2WI。

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