7.0 特斯拉下的多序列全脑颅内血管壁成像
Multi-sequence whole-brain intracranial vessel wall imaging at 7.0 tesla.
作者信息
van der Kolk Anja G, Hendrikse Jeroen, Brundel Manon, Biessels Geert J, Smit Ewoud J, Visser Fredy, Luijten Peter R, Zwanenburg Jaco J M
机构信息
Department of Radiology, University Medical Center Utrecht, Post Box 85500, 3508 GA, Utrecht, The Netherlands,
出版信息
Eur Radiol. 2013 Nov;23(11):2996-3004. doi: 10.1007/s00330-013-2905-z. Epub 2013 Jun 5.
OBJECTIVES
Intracranial vessel wall magnetic resonance imaging (MRI) may improve the diagnosis of vessel wall abnormalities. Current methods are hampered by limited coverage and few contrast weightings. We present a multi-sequence protocol with whole-brain coverage for vessel wall imaging on 7.0-T MRI.
METHODS
A modified magnetisation-preparation inversion recovery turbo-spin-echo (MPIR-TSE) sequence was used to obtain proton density (PD)-, T1-, and T2-weighting with 190-mm whole-brain coverage. Three observers independently scored the visibility of arterial vessel walls in five healthy volunteers, and compared the conspicuity and image contrast of all sequences. Clinical applicability was demonstrated in 17 patients with cerebrovascular disease.
RESULTS
Conspicuity was good for all acquisitions, with best scores for the original limited-coverage sequence, followed by whole-brain coverage T2-, PD- and T1-weighted sequences, respectively. Mean vessel wall/background MR signal intensity ratios for all whole-brain sequences were similar, with higher scores for the limited-coverage MPIR-TSE sequence. Signal intensity ratios were highest in patients, for the whole-brain T1-weighted sequence.
CONCLUSIONS
The whole-brain multi-sequence vessel wall protocol can assess intracranial arterial vessel walls with full brain coverage, for different image contrast weightings. These sequences could eventually characterise intracranial vessel wall abnormalities similar to current techniques for assessing carotid artery plaques.
KEY POINTS
- Intracranial vessel wall imaging using MRI improves diagnosis of cerebrovascular diseases. - Conventional 7-T MRI sequences cannot image the whole cerebral arterial tree. - New whole-brain 7-T MRI sequences compare favourably with smaller-coverage sequences. - These whole-brain sequences can demonstrate the entire cerebral arterial tree. - These sequences should help in the diagnosis of vessel wall abnormalities.
目的
颅内血管壁磁共振成像(MRI)可能会改善血管壁异常的诊断。目前的方法受到覆盖范围有限和对比加权较少的限制。我们提出了一种用于7.0-T MRI血管壁成像的全脑覆盖多序列方案。
方法
使用改良的磁化准备反转恢复快速自旋回波(MPIR-TSE)序列,以获得具有190-mm全脑覆盖范围的质子密度(PD)、T1和T2加权图像。三名观察者对五名健康志愿者的动脉血管壁可见性进行独立评分,并比较所有序列的清晰度和图像对比度。在17例脑血管疾病患者中证明了其临床适用性。
结果
所有采集的图像清晰度均良好,原始有限覆盖序列得分最高,其次分别是全脑覆盖的T2加权、PD加权和T1加权序列。所有全脑序列的平均血管壁/背景磁共振信号强度比相似,有限覆盖的MPIR-TSE序列得分更高。全脑T1加权序列在患者中的信号强度比最高。
结论
全脑多序列血管壁方案可以在全脑覆盖的情况下评估颅内动脉血管壁,用于不同的图像对比加权。这些序列最终可能能够像目前评估颈动脉斑块的技术一样,对颅内血管壁异常进行特征描述。
关键点
- 使用MRI进行颅内血管壁成像可改善脑血管疾病的诊断。- 传统的7-T MRI序列无法对整个脑动脉树进行成像。- 新的全脑7-T MRI序列与较小覆盖范围的序列相比具有优势。- 这些全脑序列可以显示整个脑动脉树。- 这些序列应有助于血管壁异常的诊断。
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