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时间飞跃法-磁敏感加权成像:飞行时间与全血流补偿磁敏感加权成像同步进行。

ToF-SWI: simultaneous time of flight and fully flow compensated susceptibility weighted imaging.

作者信息

Deistung Andreas, Dittrich Enrico, Sedlacik Jan, Rauscher Alexander, Reichenbach Jürgen R

机构信息

Institute for Diagnostic and Interventional Radiology, University Clinics, Friedrich-Schiller-University, Jena, Germany.

出版信息

J Magn Reson Imaging. 2009 Jun;29(6):1478-84. doi: 10.1002/jmri.21673.

DOI:10.1002/jmri.21673
PMID:19472425
Abstract

PURPOSE

To perform systematic investigations on parameter selection of a dual-echo sequence (ToF-SWI) for combined 3D time-of-flight (ToF) angiography and susceptibility weighted imaging (SWI).

MATERIALS AND METHODS

ToF-SWI was implemented on 1.5 T and 3 T MR scanners with complete 3D first-order flow compensation of the second echo. The efficiency of flow compensating the SWI echo was studied based on phantom and in vivo examinations. Arterial and venous contrasts were examined in volunteers as a function of flip angle and compared with additionally acquired single-echo ToF and single-echo SWI data.

RESULTS

Complete flow compensation is required to reduce arterial contamination in the SWI part caused by signal voids. A ramped flip angle of 20 degrees depicted arteries best while venous contrast was preserved. Comparing ToF-SWI with single-echo ToF demonstrated arteries with similar quality and delineated all major arteries equally well. Venous delineation was degraded due to lower SNR associated with the thinner slabs used with ToF-SWI compared to single-echo SWI acquisition.

CONCLUSION

A dual-echo sequence (ToF-SWI) with full flow compensation of the second echo in a single scan is feasible. This sequence allows simultaneous visualization of intrinsically coregistered arteries and veins without spatial mis-registration of vessels caused by oblique flow and with minimal signal loss in arteries.

摘要

目的

对用于联合三维时间飞跃(ToF)血管造影和磁敏感加权成像(SWI)的双回波序列(ToF-SWI)的参数选择进行系统研究。

材料与方法

在1.5T和3T磁共振扫描仪上实施ToF-SWI,对第二回波进行完整的三维一阶血流补偿。基于体模和体内检查研究了对SWI回波进行血流补偿的效率。在志愿者中检查了动脉和静脉对比作为翻转角的函数,并与额外采集的单回波ToF和单回波SWI数据进行比较。

结果

需要进行完整的血流补偿以减少由信号空洞导致的SWI部分中的动脉污染。20度的斜坡翻转角对动脉的显示最佳,同时保留了静脉对比。将ToF-SWI与单回波ToF进行比较,显示动脉质量相似,并且对所有主要动脉的描绘同样良好。与单回波SWI采集相比,由于ToF-SWI使用的层厚较薄导致信噪比降低,静脉的描绘质量下降。

结论

在单次扫描中对第二回波进行全血流补偿的双回波序列(ToF-SWI)是可行的。该序列允许同时可视化本质上配准的动脉和静脉,而不会因斜向血流导致血管的空间配准错误,并且动脉中的信号损失最小。

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