预测 3T 人脑 MRI 运动诱导磁场。

Prediction of motion induced magnetic fields for human brain MRI at 3 T.

机构信息

Max Planck Institute for Biological Cybernetics, High-Field Magnetic Resonance Center, Max-Planck-Ring 11, 72076, Tübingen, Germany.

IMPRS for Cognitive and Systems Neuroscience, University of Tübingen, Tübingen, Germany.

出版信息

MAGMA. 2023 Oct;36(5):797-813. doi: 10.1007/s10334-023-01076-0. Epub 2023 Mar 25.

DOI:10.1007/s10334-023-01076-0

PMID:36964797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10504152/

Abstract

OBJECTIVE

Maps of B field inhomogeneities are often used to improve MRI image quality, even in a retrospective fashion. These field inhomogeneities depend on the exact head position within the static field but acquiring field maps (FM) at every position is time consuming. Here we propose a forward simulation strategy to obtain B predictions at different head-positions.

METHODS

FM were predicted by combining (1) a multi-class tissue model for estimation of tissue-induced fields, (2) a linear k-space model for capturing gradient imperfections, (3) a dipole estimation for quantifying lower-body perturbing fields (4) and a position-dependent tissue mask to model FM alterations caused by large motion effects. The performance of the combined simulation strategy was compared with an approach based on a rigid body transformation of the FM measured in the reference position to the new position.

RESULTS

The transformed FM provided inconsistent results for large head movements (> 5° rotation, approximately), while the simulation strategy had a superior prediction accuracy for all positions. The simulated FM was used to optimize B shims with up to 22.2% improvement with respect to the transformed FM approach.

CONCLUSION

The proposed simulation strategy is able to predict movement-induced B field inhomogeneities yielding more precise estimates of the ground truth field homogeneity than the transformed FM.

摘要

目的

磁场不均匀图常用于提高 MRI 图像质量，甚至可以进行回溯式改善。这些磁场不均匀依赖于静态磁场中头的确切位置，但获取每个位置的磁场图（FM）是耗时的。在这里，我们提出了一种正向模拟策略，以在不同的头部位置获得 B 预测。

方法

通过组合（1）用于估计组织诱导场的多类组织模型，（2）用于捕获梯度不完美的线性 k 空间模型，（3）用于量化下身干扰场的偶极子估计，（4）以及位置相关的组织掩模来模拟由大运动效应引起的 FM 改变，来预测 FM。将组合模拟策略的性能与基于在参考位置测量的 FM 的刚体变换到新位置的方法进行了比较。

结果

对于较大的头部运动（> 5°旋转，大约），变换后的 FM 提供了不一致的结果，而模拟策略对于所有位置都具有更高的预测准确性。使用模拟 FM 来优化 B 修整，与变换 FM 方法相比，提高了高达 22.2%。

结论

所提出的模拟策略能够预测运动引起的 B 场不均匀性，比变换后的 FM 更能准确估计真实场均匀性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7a4c/10504152/c36b3faa4f2b/10334_2023_1076_Fig1_HTML.jpg

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预测 3T 人脑 MRI 运动诱导磁场。

Prediction of motion induced magnetic fields for human brain MRI at 3 T.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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