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J Neuroimaging. 2011 Oct;21(4):e189-204. doi: 10.1111/j.1552-6569.2010.00516.x. Epub 2011 Jan 31.
2
Susceptibility-weighted imaging: a major addition to the neuroimaging toolbox.磁敏感加权成像:神经影像学工具包的重要补充。
J Neuroimaging. 2011 Oct;21(4):309. doi: 10.1111/j.1552-6569.2010.00524.x. Epub 2010 Oct 26.
3
Susceptibility weighted imaging: a pictorial review.磁敏感加权成像:图文综述。
J Med Imaging Radiat Oncol. 2010 Oct;54(5):435-49. doi: 10.1111/j.1754-9485.2010.02208.x.
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High-resolution susceptibility-weighted imaging at 3 T with a 32-channel head coil: technique and clinical applications.3T 32 通道头部线圈高分辨率磁敏感加权成像:技术与临床应用。
AJR Am J Roentgenol. 2010 Oct;195(4):1007-14. doi: 10.2214/AJR.10.4218.
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Imaging and clinical characteristics of children with multiple foci of microsusceptibility changes in the brain on susceptibility-weighted MRI.SWI 上脑内多发病灶磁敏感改变的儿童的影像学和临床特征。
Pediatr Radiol. 2010 Oct;40(10):1657-62. doi: 10.1007/s00247-010-1665-z. Epub 2010 Apr 28.
6
Aging of subcortical nuclei: microstructural, mineralization and atrophy modifications measured in vivo using MRI.皮层下核团的衰老:使用磁共振成像(MRI)在体内测量的微观结构、矿化和萎缩变化
Neuroimage. 2009 Oct 15;48(1):29-36. doi: 10.1016/j.neuroimage.2009.06.035. Epub 2009 Jun 21.
7
Susceptibility-weighted imaging: technical aspects and clinical applications, part 2.磁敏感加权成像:技术要点与临床应用,第2部分。
AJNR Am J Neuroradiol. 2009 Feb;30(2):232-52. doi: 10.3174/ajnr.A1461. Epub 2009 Jan 8.
8
Identification of calcification with MRI using susceptibility-weighted imaging: a case study.利用磁共振成像的磁敏感加权成像技术识别钙化:一项病例研究。
J Magn Reson Imaging. 2009 Jan;29(1):177-82. doi: 10.1002/jmri.21617.
9
Magnetic resonance susceptibility weighted imaging in detecting intracranial calcification and hemorrhage.磁共振 susceptibility 加权成像在检测颅内钙化和出血中的应用
Chin Med J (Engl). 2008 Oct 20;121(20):2021-5.
10
Susceptibility-weighted imaging: technical aspects and clinical applications, part 1.磁敏感加权成像:技术要点与临床应用,第1部分
AJNR Am J Neuroradiol. 2009 Jan;30(1):19-30. doi: 10.3174/ajnr.A1400. Epub 2008 Nov 27.

无扫描时间延长的 T2* 成像改善:2D 梯度回波的 SWI 处理。

Improved T2* imaging without increase in scan time: SWI processing of 2D gradient echo.

机构信息

Department of Radiology, Lucile Packard Children's Hospital, Stanford University, Palo Alto, California.

出版信息

AJNR Am J Neuroradiol. 2013 Nov-Dec;34(11):2092-7. doi: 10.3174/ajnr.A3595. Epub 2013 Jun 6.

DOI:10.3174/ajnr.A3595
PMID:23744690
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7964849/
Abstract

BACKGROUND AND PURPOSE

2D gradient-echo imaging is sensitive to T2* lesions (hemorrhages, mineralization, and vascular lesions), and susceptibility-weighted imaging is even more sensitive, but at the cost of additional scan time (SWI: 5-10 minutes; 2D gradient-echo: 2 minutes). The long acquisition time of SWI may pose challenges in motion-prone patients. We hypothesized that 2D SWI/phase unwrapped images processed from 2D gradient-echo imaging could improve T2* lesion detection.

MATERIALS AND METHODS

2D gradient-echo brain images of 50 consecutive pediatric patients (mean age, 8 years) acquired at 3T were retrospectively processed to generate 2D SWI/phase unwrapped images. The 2D gradient-echo and 2D SWI/phase unwrapped images were compared for various imaging parameters and were scored in a blinded fashion.

RESULTS

Of 50 patients, 2D gradient-echo imaging detected T2* lesions in 29 patients and had normal findings in 21 patients. 2D SWI was more sensitive than standard 2D gradient-echo imaging in detecting T2* lesions (P < .0001). 2D SWI/phase unwrapped imaging also improved delineation of normal venous structures and nonpathologic calcifications and helped distinguish calcifications from hemorrhage. A few pitfalls of 2D SWI/phase unwrapped imaging were noted, including worsened motion and dental artifacts and challenges in detecting T2* lesions adjacent to calvaria or robust deoxygenated veins.

CONCLUSIONS

2D SWI and associated phase unwrapped images processed from standard 2D gradient-echo images were more sensitive in detecting T2* lesions and delineating normal venous structures and nonpathologic mineralization, and they also helped distinguish calcification at no additional scan time. SWI processing of 2D gradient-echo images may be a useful adjunct in cases in which longer scan times of 3D SWI are difficult to implement.

摘要

背景与目的

2D 梯度回波成像对 T2病变(出血、矿化和血管病变)敏感,而磁敏感加权成像更敏感,但代价是额外的扫描时间(SWI:5-10 分钟;2D 梯度回波:2 分钟)。SWI 的长采集时间可能会给易动患者带来挑战。我们假设,从 2D 梯度回波成像处理得到的 2D SWI/相位去包裹图像可以提高 T2病变的检测能力。

材料与方法

回顾性地处理了 50 例连续的儿科患者(平均年龄 8 岁)在 3T 上获得的 2D 梯度回波脑图像,以生成 2D SWI/相位去包裹图像。以盲法比较 2D 梯度回波和 2D SWI/相位去包裹图像的各种成像参数并进行评分。

结果

在 50 例患者中,2D 梯度回波成像在 29 例患者中检测到 T2病变,在 21 例患者中发现正常表现。2D SWI 比标准 2D 梯度回波成像更敏感地检测到 T2病变(P<0.0001)。2D SWI/相位去包裹成像还改善了正常静脉结构和非病理性钙化的描绘,并有助于区分钙化与出血。2D SWI/相位去包裹成像也存在一些缺陷,包括运动伪影和牙科伪影恶化,以及在检测靠近颅骨或含氧静脉的 T2*病变时存在挑战。

结论

从标准 2D 梯度回波图像处理得到的 2D SWI 和相关的相位去包裹图像在检测 T2*病变和描绘正常静脉结构和非病理性矿化方面更敏感,并且在不增加扫描时间的情况下有助于区分钙化。2D 梯度回波图像的 SWI 处理可能是在难以实施 3D SWI 更长扫描时间的情况下的有用辅助手段。