非线性梯度下的自旋去相位：对成像和磁场图的影响。

Spin dephasing under nonlinear gradients: implications for imaging and field mapping.

机构信息

Department of Diagnostic Radiology, Yale University, New Haven, Connecticut, USA.

出版信息

Magn Reson Med. 2012 Apr;67(4):1120-6. doi: 10.1002/mrm.23085. Epub 2011 Jul 14.

DOI:10.1002/mrm.23085

PMID:21761447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3289760/

Abstract

This work examines the prototypical MR echo that would be expected for a voxel of spins evolving in a strong nonlinear field, specifically focusing on the quadratic z(2) - ½(x(2) + y(2) ) field. Dephasing under nonlinear gradients is increasingly relevant given the growing interest in nonlinear imaging, and here, we report several notable differences from the linear case. Most notably, in addition to signal loss, intravoxel dephasing under gradients creating a wide and asymmetric frequency distribution across the voxel can cause skewed and nonlinear phase evolution. After presenting the qualitative and analytical origins of this difference, we experimentally demonstrate that neglecting these dynamics can lead to significant errors in sequences that assume phase evolution is proportional to voxel frequency, such as those used for field mapping. Finally, simplifying approximations to the signal equations are presented, which not only provide more intuitive forms of the exact expression but also result in simple rules to predict key features of the nonlinear evolution.

摘要

这项工作研究了在强非线性场中演化的自旋体元中预期的典型磁共振回波，特别是重点关注二次 z(2) - ½(x(2) + y(2) )场。鉴于人们对非线性成像越来越感兴趣，非线性梯度下的去相位现象变得越来越重要，在这里，我们报告了与线性情况的几个显著差异。最值得注意的是，除了信号损失之外，在梯度下产生宽不对称频率分布的体元内的相位去相位也会导致相位演化的偏斜和非线性。在提出这种差异的定性和分析起源之后，我们通过实验证明，忽略这些动力学可能会导致那些假设相位演化与体元频率成正比的序列（例如用于场映射的序列）中产生显著误差。最后，提出了对信号方程的简化近似，这些近似不仅提供了更直观的精确表达式形式，而且还得出了预测非线性演化关键特征的简单规则。

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