在 7 特斯拉的人体心脏 Na MRI 中校正心肌组织钠浓度测量值。

Corrections of myocardial tissue sodium concentration measurements in human cardiac Na MRI at 7 Tesla.

机构信息

German Cancer Research Center (DKFZ), Medical Physics in Radiology, Heidelberg, Germany.

University of Heidelberg, Faculty of Physics and Astronomy, Heidelberg, Germany.

出版信息

Magn Reson Med. 2019 Jul;82(1):159-173. doi: 10.1002/mrm.27703. Epub 2019 Mar 12.

DOI:10.1002/mrm.27703

PMID:30859615

Abstract

PURPOSE

To quantify the tissue sodium concentration (TSC) in cardiac Na MRI. To evaluate the influence of different correction methods on the measured myocardial TSC.

METHODS

Na MRI of four healthy subjects was conducted at a whole-body 7T MRI system using an oval-shaped Na birdcage coil. Data acquisition was performed with a density-adapted 3D radial pulse sequence using a golden angle projection scheme. H MRI data were acquired at a 3T MRI system to generate a myocardial mask. Retrospective cardiac and respiratory gating were used to reconstruct Na MRI data in the diastolic phase and exhaled state. B and B inhomogeneity and partial volume (PV) effects were corrected. Relaxation times and TSC of ex vivo blood samples and calf muscle were determined. These values were used in the PV correction to estimate myocardial TSC, which was compared with the measured TSC of calf muscle.

RESULTS

Without any correction the measured myocardial TSC was (54 ± 5) mM. The applied correction methods reduced these values by (48 ± 5)% to (29 ± 3) mM, where PV correction had the largest effect (reduction of (34 ± 1)%). Respiratory and cardiac motion gating decreased the concentrations by (11 ± 1)%. With the applied setup, the corrections of B and B inhomogeneity (reduction of (3 ± 2)%) had negligible influences on TSC values. The resulting myocardial TSC was approximately 1.4-fold higher than the measured TSC of calf muscle tissue of the same healthy subjects ((20 ± 3) mM).

CONCLUSION

For quantitative human cardiac Na MRI several corrections are needed and ranked for our setup: PV correction, respiratory and cardiac gating, correction for B inhomogeneity effects.

摘要

目的

量化心脏 Na MRI 中的组织钠浓度（TSC）。评估不同校正方法对测量心肌 TSC 的影响。

方法

在全身 7T MRI 系统上使用椭圆形 Na 鸟笼线圈对 4 名健康受试者进行 Na MRI。使用密度自适应 3D 径向脉冲序列以黄金角投影方案采集数据。在 3T MRI 系统上采集 H MRI 数据以生成心肌掩模。使用回顾性心脏和呼吸门控在舒张期和呼气状态下重建 Na MRI 数据。校正 B 和 B 不均匀性和部分容积（PV）效应。确定离体血样和小腿肌肉的弛豫时间和 TSC。这些值用于 PV 校正以估计心肌 TSC，并将其与小腿肌肉的实测 TSC 进行比较。

结果

未经任何校正，测量的心肌 TSC 为（54 ± 5）mM。应用的校正方法将这些值降低了（48 ± 5）%至（29 ± 3）mM，其中 PV 校正的影响最大（降低了（34 ± 1）%）。呼吸和心脏运动门控将浓度降低了（11 ± 1）%。在应用的设置下，B 和 B 不均匀性的校正（降低（3 ± 2）%）对 TSC 值的影响可以忽略不计。校正后的心肌 TSC 约为相同健康受试者小腿肌肉组织实测 TSC 的 1.4 倍（（20 ± 3）mM）。

结论

对于定量的人体心脏 Na MRI，需要进行多种校正，并按我们的设置进行排序：PV 校正、呼吸和心脏门控、B 不均匀性效应校正。

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在 7 特斯拉的人体心脏 Na MRI 中校正心肌组织钠浓度测量值。

Corrections of myocardial tissue sodium concentration measurements in human cardiac Na MRI at 7 Tesla.

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METHODS

RESULTS

CONCLUSION

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结果

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