利用回波平面成像读出方式模拟平面内磁场梯度对非对称自旋回波图像的影响。

Modeling the effect of in-plane magnetic field gradients on asymmetric spin-echo images with echo-planar imaging readout.

作者信息

Wallimann Philipp, Tang Patrick L Y, Arzanforoosh Fatemeh, Tanadini-Lang Stephanie, Andratschke Nicolaus, Smits Marion, Warnert Esther A H

机构信息

Department of Radiation Oncology, University Hospital Zurich and University of Zurich, Zurich, Switzerland.

Department of Radiology & Nuclear Medicine, Erasmus MC, University Medical Center Rotterdam, Rotterdam, The Netherlands.

出版信息

Magn Reson Med. 2025 Nov;94(5):2086-2099. doi: 10.1002/mrm.30625. Epub 2025 Jul 17.

DOI:10.1002/mrm.30625

PMID:40674580

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12393211/

Abstract

PURPOSE

To describe the impact of macroscopic magnetic field gradients (MFGs) in the phase-encoding direction on MR images acquired with an asymmetric spin echo (ASE) sequence with echo-planar imaging (EPI) readout.

METHODS

In EPI, the center of k-space is read out at a shifted time point in the presence of phase-encoding direction MFGs. The ASE signal equation was extended to account for a locally varying temporal offset between the spin echo and echo time due to MFGs. The impact on estimated quantitative blood oxygen level dependent (qBOLD) parameters was assessed using simulations. A map and ASE images with four different phase-encoding directions and two different parallel-imaging factors were acquired from 2 healthy volunteers. A robust linear regression was performed between the signal dependence on the phase-encoding direction and MFGs calculated based on the map to test the derived signal equation.

RESULTS

Simulated qBOLD parameters were substantially modified by the local . The volunteer images showed a logarithmic signal intensity ratio between images acquired with reversed phase-encoding directions that showed a linear dependence on both the calculated MFGs in the phase-encoding direction and the nominal temporal offset . The effect was strongly reduced for the images with the higher parallel-imaging factor.

CONCLUSION

The effects of phase-encoding-direction MFGs on volunteer ASE images is consistent with the proposed signal model and relevant for qBOLD measurements. This highlights the necessity to correct or mitigate in-plane MFGs in ASE EPI, such as using a high parallel-imaging factor.

摘要

目的

描述相位编码方向上的宏观磁场梯度（MFGs）对采用回波平面成像（EPI）读出的不对称自旋回波（ASE）序列采集的磁共振图像的影响。

方法

在EPI中，在存在相位编码方向MFGs的情况下，k空间中心在一个偏移的时间点读出。ASE信号方程被扩展，以考虑由于MFGs导致的自旋回波和回波时间之间局部变化的时间偏移。使用模拟评估对估计的定量血氧水平依赖（qBOLD）参数的影响。从2名健康志愿者获取了具有四个不同相位编码方向和两个不同并行成像因子的图和ASE图像。基于图计算的信号对相位编码方向和MFGs的依赖性之间进行了稳健线性回归，以测试推导的信号方程。

结果

模拟的qBOLD参数被局部显著改变。志愿者图像显示，在具有相反相位编码方向采集的图像之间的信号强度比呈对数关系，该比值对相位编码方向上计算的MFGs和标称时间偏移均呈线性依赖。对于具有较高并行成像因子的图像，这种影响大大降低。

结论

相位编码方向MFGs对志愿者ASE图像的影响与所提出的信号模型一致，并且与qBOLD测量相关。这突出了在ASE EPI中校正或减轻平面内MFGs的必要性，例如使用高并行成像因子。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/512e/12393211/ceecd4fa9858/MRM-94-2086-g006.jpg

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利用回波平面成像读出方式模拟平面内磁场梯度对非对称自旋回波图像的影响。

Modeling the effect of in-plane magnetic field gradients on asymmetric spin-echo images with echo-planar imaging readout.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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