2D cine DENSE with low encoding frequencies accurately quantifies cardiac mechanics with improved image characteristics

机译：低编码频率的2D电影DENSE可通过改善的图像特征准确量化心脏力学

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摘要

BackgroundDisplacement Encoding with Stimulated Echoes (DENSE) encodes displacement into the phase of the magnetic resonance signal. The encoding frequency (ke) maps the measured phase to tissue displacement while the strength of the encoding gradients affects image quality. 2D cine DENSE studies have used a ke of 0.10 cycles/mm, which is high enough to remove an artifact-generating echo from k-space, provide high sensitivity to tissue displacements, and dephase the blood pool. However, through-plane dephasing can remove the unwanted echo and dephase the blood pool without relying on high ke. Additionally, the high sensitivity comes with the costs of increased phase wrapping and intra-voxel dephasing. We hypothesized that ke below 0.10 cycles/mm can be used to improve image characteristics and provide accurate measures of cardiac mechanics.

机译：带激励回波的背景位移编码（DENSE）将位移编码到磁共振信号的相位中。编码频率（ke）将测得的相位映射到组织位移，而编码梯度的强度会影响图像质量。二维电影DENSE研究使用了0.10个循环/毫米的ke，这足以去除k空间中产生伪影的回声，对组织移位具有高度敏感性，并使血池移相。但是，通过平面移相可以消除不需要的回波并使血液池移相而无需依靠高功率。另外，高灵敏度伴随着增加的相位包裹和体素内移相的成本。我们假设ke低于0.10个循环/毫米可用于改善图像特征并提供心脏力学的准确测量。

著录项

期刊名称 Journal of Cardiovascular Magnetic Resonance
作者
Gregory J. Wehner; Jonathan D. Grabau; Jonathan D. Suever; Christopher M. Haggerty; Linyuan Jing; David K. Powell; Sean M. Hamlet; Moriel H. Vandsburger; Xiaodong Zhong; Brandon K. Fornwalt;
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作者单位

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年(卷),期 2015(17),-1
年度 2015
页码 93
总页数 10
原文格式 PDF
正文语种
中图分类心血管疾病;放射医学;影像诊断学;
关键词
DENSE Displacement Cardiac mechanics Encoding frequency Strain Twist Magnetic resonance;

机译：DENSE;位移;心脏力学;编码频率;应变;扭曲;磁共振;

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专利

1. 2D cine DENSE with low encoding frequencies accurately quantifies cardiac mechanics with improved image characteristics [J] . Gregory J. Wehner, Jonathan D. Grabau, Jonathan D. Suever, Journal of cardiovascular magnetic resonance : . 2015,第1期

机译：低编码频率的2D电影DENSE可通过改善的图像特征准确量化心脏力学
2. 2D cine DENSE with low encoding frequencies accurately quantifies cardiac mechanics with improved image characteristics [J] . Gregory J. Wehner, Jonathan D. Grabau, Jonathan D. Suever, Journal of cardiovascular magnetic resonance : . 2015,第1期

机译：低编码频率的2D电影DENSE可通过改善的图像特征准确量化心脏力学
3. High resolution cine displacement encoding with stimulated echoes (DENSE) at 3T with navigator feedback for quantification of cardiac mechanics [J] . Gregory J Wehner, Jonathan D Suever, Christopher M Haggerty, Journal of cardiovascular magnetic resonance : . 2014,第Suppla1期

机译：高分辨率电影位移编码，在3T具有激励回声（DENSE），并带有导航仪反馈，可量化心脏力学
4. Reconstruction of 3D dense cardiac motion field from cine and tagged magnetic resonance images [C] . Soo-Kng Teo, Sarayu Parimal, Like Gobeawan, Computing in Cardiology Conference . 2016

机译：从电影和带标签的磁共振图像重建3D密集心脏运动场
5. Validation, Optimization, And Image Processing of Spiral Cine Dense Magnetic Resonance Imaging for the Quantification of Left and Right Ventricular Mechanics [D] . Wehner, Gregory James. 2017

机译：螺旋电影密集磁共振成像的验证，优化和图像处理，用于量化左右心室力学
6. Low encoding frequencies accurately quantify cardiac mechanics while minimizing phase wrapping in 2D cine DENSE with through-plane dephasing [O] . Jonathan D Grabau, Gregory J Wehner, Jonathan D Suever, 2015

机译：低编码频率可准确量化心脏力学同时通过平面移相将二维电影DENSE中的相位包裹最小化
7. 2D cine DENSE with low encoding frequencies accurately quantifies cardiac mechanics with improved image characteristics [O] . Gregory J. Wehner, Jonathan D. Grabau, Jonathan D. Suever, 2015

机译：低编码频率的2D电影DENSE可通过改善的图像特征准确量化心脏力学

2D cine DENSE with low encoding frequencies accurately quantifies cardiac mechanics with improved image characteristics

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