3T 下螺旋电影 DENSE 技术体内二维位移的验证

Validation of in vivo 2D displacements from spiral cine DENSE at 3T.

作者信息

Wehner Gregory J, Suever Jonathan D, Haggerty Christopher M, Jing Linyuan, Powell David K, Hamlet Sean M, Grabau Jonathan D, Mojsejenko Walter Dimitri, Zhong Xiaodong, Epstein Frederick H, Fornwalt Brandon K

机构信息

Department of Biomedical Engineering, University of Kentucky, 741 S Limestone, BBSRB B353, Lexington 40509, KY, USA.

出版信息

J Cardiovasc Magn Reson. 2015 Jan 30;17(1):5. doi: 10.1186/s12968-015-0119-z.

DOI:10.1186/s12968-015-0119-z

PMID:25634468

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4311418/

Abstract

BACKGROUND

Displacement Encoding with Stimulated Echoes (DENSE) encodes displacement into the phase of the magnetic resonance signal. Due to the stimulated echo, the signal is inherently low and fades through the cardiac cycle. To compensate, a spiral acquisition has been used at 1.5T. This spiral sequence has not been validated at 3T, where the increased signal would be valuable, but field inhomogeneities may result in measurement errors. We hypothesized that spiral cine DENSE is valid at 3T and tested this hypothesis by measuring displacement errors at both 1.5T and 3T in vivo.

METHODS

Two-dimensional spiral cine DENSE and tagged imaging of the left ventricle were performed on ten healthy subjects at 3T and six healthy subjects at 1.5T. Intersection points were identified on tagged images near end-systole. Displacements from the DENSE images were used to project those points back to their origins. The deviation from a perfect grid was used as a measure of accuracy and quantified as root-mean-squared error. This measure was compared between 3T and 1.5T with the Wilcoxon rank sum test. Inter-observer variability of strains and torsion quantified by DENSE and agreement between DENSE and harmonic phase (HARP) were assessed by Bland-Altman analyses. The signal to noise ratio (SNR) at each cardiac phase was compared between 3T and 1.5T with the Wilcoxon rank sum test.

RESULTS

The displacement accuracy of spiral cine DENSE was not different between 3T and 1.5T (1.2 ± 0.3 mm and 1.2 ± 0.4 mm, respectively). Both values were lower than the DENSE pixel spacing of 2.8 mm. There were no substantial differences in inter-observer variability of DENSE or agreement of DENSE and HARP between 3T and 1.5T. Relative to 1.5T, the SNR at 3T was greater by a factor of 1.4 ± 0.3.

CONCLUSIONS

The spiral cine DENSE acquisition that has been used at 1.5T to measure cardiac displacements can be applied at 3T with equivalent accuracy. The inter-observer variability and agreement of DENSE-derived peak strains and torsion with HARP is also comparable at both field strengths. Future studies with spiral cine DENSE may take advantage of the additional SNR at 3T.

摘要

背景

刺激回波位移编码（DENSE）将位移编码到磁共振信号的相位中。由于刺激回波，信号本身较低且在心动周期中逐渐衰减。为了进行补偿，在1.5T时采用了螺旋采集。这种螺旋序列在3T时尚未得到验证，在3T时增加的信号可能很有价值，但场不均匀性可能会导致测量误差。我们假设螺旋电影DENSE在3T时是有效的，并通过在体内1.5T和3T时测量位移误差来验证这一假设。

方法

对10名健康受试者在3T时以及6名健康受试者在1.5T时进行二维螺旋电影DENSE和左心室标记成像。在收缩末期附近的标记图像上识别交点。利用DENSE图像中的位移将这些点投影回其原点。与完美网格的偏差用作准确性的度量，并量化为均方根误差。使用Wilcoxon秩和检验比较3T和1.5T之间的该度量。通过Bland-Altman分析评估DENSE量化的应变和扭转的观察者间变异性以及DENSE与谐波相位（HARP）之间的一致性。使用Wilcoxon秩和检验比较3T和1.5T每个心动相位的信噪比（SNR）。

结果

螺旋电影DENSE的位移准确性在3T和1.5T之间没有差异（分别为1.2±0.3mm和1.2±0.4mm）。这两个值均低于DENSE像素间距2.8mm。3T和1.5T之间DENSE的观察者间变异性或DENSE与HARP的一致性没有实质性差异。相对于1.5T，3T时的SNR大1.4±0.3倍。

结论

在1.5T时用于测量心脏位移的螺旋电影DENSE采集可以在3T时以等效的准确性应用。在两个场强下，DENSE衍生的峰值应变和扭转的观察者间变异性以及与HARP的一致性也具有可比性。未来使用螺旋电影DENSE的研究可能会利用3T时额外的SNR。

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3T 下螺旋电影 DENSE 技术体内二维位移的验证

Validation of in vivo 2D displacements from spiral cine DENSE at 3T.

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