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用 129Xe 弛豫增强 MRI 对肺部溶解相成像进行标准化评估的翻转角-TR 等效性。

Assessment of flip angle-TR equivalence for standardized dissolved-phase imaging of the lung with hyperpolarized 129Xe MRI.

机构信息

Department of Radiology, University of Pennsylvania, Philadelphia, Pennsylvania.

Department of Bioengineering, University of Pennsylvania, Philadelphia, Pennsylvania.

出版信息

Magn Reson Med. 2019 Mar;81(3):1784-1794. doi: 10.1002/mrm.27538. Epub 2018 Oct 22.

DOI:10.1002/mrm.27538
PMID:30346083
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6347519/
Abstract

PURPOSE

To investigate the feasibility of describing the impact of any flip angle-TR combination on the resulting distribution of the hyperpolarized xenon-129 (HXe) dissolved-phase magnetization in the chest using a single virtual parameter, TR .

METHODS

HXe MRI scans with simultaneous gas- (GP) and dissolved-phase (DP) excitation were performed using 2D projection scans in mechanically ventilated rabbits. Measurements with DP flip angles ranging from 6-90° and TRs ranging from 8.3-500 ms were conducted. DP maps based on acquisitions of similar radio frequency pulse-induced relaxation rates were compared.

RESULTS

The observed distribution of the DP magnetization was strongly affected by acquisition flip angle and TR. However, for flip angles up to 60°, measurements with the same radio frequency pulse-induced relaxation rates, resulted in very similar DP images despite the presence of significant macroscopic gas transport processes. For flip angles approaching 90°, the downstream signal component decreased noticeably relative to acquisitions with lower flip angles. Nevertheless, the total DP signal continued to follow an empirically verified conversion equation over the entire investigated parameter range, which yields the equivalent TR of a hypothetical 90° measurement for any experimental flip angle-TR combination.

CONCLUSION

We have introduced a method for converting the flip angle and TR of a given HXe DP measurement to a standardized metric based on the virtual quantity, TR , using their equivalent RF relaxation rates. This conversion permits the comparison of measurements obtained with different pulse sequence types or by different research groups using various acquisition parameters.

摘要

目的

研究使用单一虚拟参数 TR 来描述任意翻转角-TR 组合对胸部氙-129(HXe)溶解相磁化分布的影响的可行性。

方法

使用机械通气兔的二维投影扫描进行同时激发气相(GP)和溶解相(DP)的 HXe MRI 扫描。进行 DP 翻转角范围为 6-90°和 TR 范围为 8.3-500ms 的测量。比较基于类似射频脉冲诱导弛豫率采集的 DP 图。

结果

观察到 DP 磁化的分布受到采集翻转角和 TR 的强烈影响。然而,对于高达 60°的翻转角,尽管存在明显的宏观气体传输过程,但使用相同射频脉冲诱导弛豫率进行的测量会导致非常相似的 DP 图像。对于接近 90°的翻转角,下游信号分量相对于较低翻转角的采集明显减少。尽管如此,整个研究参数范围内,总 DP 信号仍然遵循经验验证的转换方程,该方程为任何实验翻转角-TR 组合提供了假想 90°测量的等效 TR。

结论

我们已经引入了一种方法,用于将给定 HXe DP 测量的翻转角和 TR 转换为基于虚拟量 TR 的标准化度量,使用它们的等效射频弛豫率。这种转换允许比较使用不同脉冲序列类型或由不同研究小组使用各种采集参数获得的测量结果。

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