[Spherical measurement-based analysis of gradient nonlinearity in magnetic resonance imaging].

Q4 Medicine

生物医学工程学杂志 Pub Date : 2025-02-25 DOI:10.7507/1001-5515.202401068

Xiaoli Yang, Zhaolian Wang, Qian Wang, Yiting Zhang, Zixuan Song, Yuchang Zhang, Yafei Qi, Xiaopeng Ma

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引用次数: 0

Abstract

The gradient field, one of the core magnetic fields in magnetic resonance imaging (MRI) systems, is generated by gradient coils and plays a critical role in spatial encoding and the generation of echo signals. The uniformity or linearity of the gradient field directly impacts the quality and distortion level of MRI images. However, traditional point measurement methods lack accuracy in assessing the linearity of gradient fields, making it difficult to provide effective parameters for image distortion correction. This paper introduced a spherical measurement-based method that involved measuring the magnetic field distribution on a sphere, followed by detailed magnetic field calculations and linearity analysis. This study, applied to assess the nonlinearity of asymmetric head gradient coils, demonstrated more comprehensive and precise results compared to point measurement methods. This advancement not only strengthens the scientific basis for the design of gradient coils but also provides more reliable parameters and methods for the accurate correction of MRI image distortions.

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[基于球面测量的磁共振成像梯度非线性分析]。

梯度场是磁共振成像系统的核心磁场之一，由梯度线圈产生，在空间编码和回波信号的产生中起着至关重要的作用。梯度场的均匀性或线性直接影响到MRI图像的质量和失真程度。然而，传统的点测量方法在评估梯度场的线性度方面缺乏准确性，难以为图像畸变校正提供有效的参数。本文介绍了一种基于球面测量的方法，首先测量球面上的磁场分布，然后进行详细的磁场计算和线性分析。该研究应用于非对称头部梯度线圈的非线性评估，与点测量方法相比，显示出更全面和精确的结果。这一进展不仅加强了梯度线圈设计的科学依据，而且为精确校正MRI图像畸变提供了更可靠的参数和方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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