使用各向同性均匀体的弥散加权磁共振图像来绘制梯度非线性和失准。

Mapping gradient nonlinearity and miscalibration using diffusion-weighted MR images of a uniform isotropic phantom.

机构信息

Quantitative Medical Imaging Section, National Institute of Biomedical Imaging and Bioengineering, National Institutes of Health, Bethesda, MD, USA.

Department of Electrical Engineering and Computer Science, Vanderbilt University, Nashville, TN, USA.

出版信息

Magn Reson Med. 2021 Dec;86(6):3259-3273. doi: 10.1002/mrm.28890. Epub 2021 Aug 4.

DOI:10.1002/mrm.28890

PMID:34351007

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8596767/

Abstract

PURPOSE

To use diffusion measurements to map the spatial dependence of the magnetic field produced by the gradient coils of an MRI scanner with sufficient accuracy to correct errors in quantitative diffusion MRI (DMRI) caused by gradient nonlinearity and gradient amplifier miscalibration.

THEORY AND METHODS

The field produced by the gradient coils is expanded in regular solid harmonics. The expansion coefficients are found by fitting a model to a minimum set of diffusion-weighted images of an isotropic diffusion phantom. The accuracy of the resulting gradient coil field maps is evaluated by using them to compute corrected b-matrices that are then used to process a multi-shell diffusion tensor imaging (DTI) dataset with 32 diffusion directions per shell.

RESULTS

The method substantially reduces both the spatial inhomogeneity of the computed mean diffusivities (MD) and the computed values of the fractional anisotropy (FA), as well as virtually eliminating any artifactual directional bias in the tensor field secondary to gradient nonlinearity. When a small scaling miscalibration was purposely introduced in the x, y, and z, the method accurately detected the amount of miscalibration on each gradient axis.

CONCLUSION

The method presented detects and corrects the effects of gradient nonlinearity and gradient gain miscalibration using a simple isotropic diffusion phantom. The correction would improve the accuracy of DMRI measurements in the brain and other organs for both DTI and higher order diffusion analysis. In particular, it would allow calibration of MRI systems, improving data harmony in multicenter studies.

摘要

目的

利用扩散测量来绘制 MRI 扫描仪梯度线圈产生的磁场的空间依赖性，以足够的精度来纠正由于梯度非线性和梯度放大器校准错误而导致的定量扩散 MRI（DMRI）中的误差。

理论与方法

梯度线圈产生的磁场在规则固体谐函数中展开。通过将模型拟合到各向同性扩散体模的最小扩散加权图像集来找到扩展系数。通过使用它们来计算校正后的 b 矩阵，然后使用它们来处理具有 32 个扩散方向的多壳层扩散张量成像（DTI）数据集，来评估所得梯度线圈场图的准确性。

结果

该方法大大降低了计算得到的平均扩散系数（MD）和计算得到的各向异性分数（FA）的空间非均匀性，并且几乎消除了由于梯度非线性引起的张量场中的任何人为方向偏差。当在 x、y 和 z 轴上故意引入小的缩放校准错误时，该方法准确地检测到每个梯度轴上的校准错误量。

结论

所提出的方法使用简单的各向同性扩散体来检测和校正梯度非线性和梯度增益校准错误的影响。这种校正将提高大脑和其他器官中 DMRI 测量的准确性，适用于 DTI 和更高阶的扩散分析。特别是，它可以校准 MRI 系统，提高多中心研究的数据协调性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e20b/8596767/9e238ff390ae/MRM-86-3259-g004.jpg

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使用各向同性均匀体的弥散加权磁共振图像来绘制梯度非线性和失准。

Mapping gradient nonlinearity and miscalibration using diffusion-weighted MR images of a uniform isotropic phantom.

机构信息

出版信息

PURPOSE

THEORY AND METHODS

RESULTS

CONCLUSION

目的

理论与方法

结果

结论

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