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定量磁化率映射(QSM)和相位成像中的多发性硬化病变几何形状

Multiple sclerosis lesion geometry in quantitative susceptibility mapping (QSM) and phase imaging.

作者信息

Eskreis-Winkler Sarah, Deh Kofi, Gupta Ajay, Liu Tian, Wisnieff Cynthia, Jin Moonsoo, Gauthier Susan A, Wang Yi, Spincemaille Pascal

机构信息

Radiology Department, Weill Cornell Medical College, New York, NY, USA.

Medimagemetric, LLC, New York, NY, USA.

出版信息

J Magn Reson Imaging. 2015 Jul;42(1):224-9. doi: 10.1002/jmri.24745. Epub 2014 Aug 30.

DOI:10.1002/jmri.24745
PMID:25174493
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4733654/
Abstract

PURPOSE

To demonstrate the phase and quantitative susceptibility mapping (QSM) patterns created by solid and shell spatial distributions of magnetic susceptibility in multiple sclerosis (MS) lesions.

MATERIALS AND METHODS

Numerical simulations and experimental phantoms of solid- and shell-shaped magnetic susceptibility sources were used to generate magnitude, phase, and QSM images. Imaging of 20 consecutive MS patients was also reviewed for this Institutional Review Board (IRB)-approved MRI study to identify the appearance of solid and shell lesions on phase and QSM images.

RESULTS

Solid and shell susceptibility sources were correctly reconstructed in QSM images, while the corresponding phase images depicted both geometries with shell-like patterns, making the underlying susceptibility distribution difficult to determine using phase alone. In MS patients, of the 60 largest lesions identified on T2 , 30 lesions were detected on both QSM and phase, of which 83% were solid and 17% were shells on QSM, and of which 30% were solid and 70% were shell on phase. Of the 21 shell-like lesions on phase, 76% appeared solid on QSM, 24% appeared shell on QSM. Of the five shell-like lesions on QSM, all were shell-like on phase.

CONCLUSION

QSM accurately depicts both solid and shell patterns of magnetic susceptibility, while phase imaging fails to distinguish them.

摘要

目的

展示多发性硬化(MS)病变中由磁化率的实心和壳状空间分布所产生的相位和定量磁化率图谱(QSM)模式。

材料与方法

使用实心和壳状磁化率源的数值模拟和实验模型来生成幅度、相位和QSM图像。对20例连续MS患者的成像进行回顾,用于这项经机构审查委员会(IRB)批准的MRI研究,以确定相位和QSM图像上实心和壳状病变的表现。

结果

在QSM图像中正确重建了实心和壳状磁化率源,而相应的相位图像以壳状模式描绘了这两种几何形状,使得仅使用相位难以确定潜在的磁化率分布。在MS患者中,在T2加权像上确定的60个最大病变中,有30个病变在QSM和相位图像上均被检测到,其中在QSM上83%为实心,17%为壳状,在相位图像上30%为实心,70%为壳状。在相位图像上的21个壳状病变中,76%在QSM上表现为实心,24%在QSM上表现为壳状。在QSM上的5个壳状病变中,在相位图像上均为壳状。

结论

QSM能准确描绘磁化率的实心和壳状模式,而相位成像无法区分它们。

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