探讨 FatNav 衍生的时间 B 变化估计的准确性及其在 7T 高分辨率 3D GRE 人脑的回顾性校正中的应用。

Investigating the accuracy of FatNav-derived estimates of temporal B changes and their application to retrospective correction of high-resolution 3D GRE of the human brain at 7T.

机构信息

Laboratory for Functional and Metabolic Imaging, École Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.

Donders Institute, Radboud University, Nijmegen, the Netherlands.

出版信息

Magn Reson Med. 2018 Aug;80(2):585-597. doi: 10.1002/mrm.27063. Epub 2018 Jan 22.

DOI:10.1002/mrm.27063

PMID:29359352

Abstract

PURPOSE

To investigate the precision of estimates of temporal variations of magnetic field achievable by double-echo fat image navigators (FatNavs), and their potential application to retrospective correction of 3-dimensional gradient echo-based sequences.

METHODS

Both head motion and temporal changes of B were tracked using double-echo highly accelerated 3-dimensional FatNavs as navigators, allowing estimation of the temporal changes in low spatial-order field coefficients. The accuracy of the method was determined by direct comparison to controlled offsets in the linear imaging gradients. Double-echo FatNavs were also incorporated into a high-resolution, 3-dimensional gradient echo-based sequence to retrospectively correct for both motion and temporal changes in B during natural and deep breathing. The additional scan time was 5 min (a 40% increase). Correction was also investigated using only the first echo of the FatNav to explore the trade-off in accuracy versus scan time.

RESULTS

Excellent accuracy (0.27 Hz, 1.57-2.75 Hz/m) was achieved for tracking field changes, and no significant bias could be observed. Artifacts in the 3-dimensional gradient echo-based images induced by temporal field changes, if present, were effectively reduced using either the field estimates from the double echo or the first echo only from the FatNavs.

CONCLUSION

The FatNavs were shown to be an excellent candidate for accurate, fast, and precise estimation of global field variations for the tested patterns of respiration. Future work will investigate ways to increase the temporal sampling to increase robustness to variations in breathing patterns. Magn Reson Med 80:585-597, 2018. © 2018 International Society for Magnetic Resonance in Medicine.

摘要

目的

研究双回波脂肪图像导航仪（FatNavs）实现磁场时变估计的精度，并探讨其在基于三维梯度回波序列的回溯性校正中的潜在应用。

方法

采用双回波高加速三维 FatNavs 作为导航仪，跟踪头部运动和 B 场的时变，从而估计低空间阶数磁场系数的时变。通过与线性成像梯度的受控偏移直接比较，确定该方法的准确性。将双回波 FatNavs 也整合到高分辨率、基于三维梯度回波的序列中，在自然呼吸和深呼吸期间，对 B 的运动和时变进行回溯性校正。额外的扫描时间为 5 分钟（增加了 40%）。还仅使用 FatNav 的第一个回波来探索准确性与扫描时间之间的权衡，研究了校正的情况。

结果

对磁场变化的跟踪达到了极好的精度（0.27 Hz，1.57-2.75 Hz/m），且无明显偏差。如果存在由时变磁场引起的三维梯度回波图像中的伪影，那么使用双回波的磁场估计值或 FatNavs 的第一回波都可以有效地减少这些伪影。

结论

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探讨 FatNav 衍生的时间 B 变化估计的准确性及其在 7T 高分辨率 3D GRE 人脑的回顾性校正中的应用。

Investigating the accuracy of FatNav-derived estimates of temporal B changes and their application to retrospective correction of high-resolution 3D GRE of the human brain at 7T.

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