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Iterative reconstruction of magnetic resonance images from arbitrary samples in k-space

机译：从k空间中的任意样本迭代重建磁共振图像

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摘要

In magnetic resonance (MR) imaging, methods that use a non-Cartesian (e.g. spiral) sampling grid in k-space are becoming increasingly important. Reconstruction is then usually performed by resampling the data on a Cartesian grid, followed by FFT (gridding). In gridding, the weighting of the data to compensate for the varying density of the sampling scheme can lead to degradation of image quality. An iterative approach that avoids this problem is proposed. The two methods were compared using spiral k-space trajectories. Simulations were performed and showed better image quality and higher SNR in comparison to gridding based reconstruction.

机译：在磁共振（MR）成像中，在k空间中使用非笛卡尔（例如螺旋）采样网格的方法变得越来越重要。然后通常通过在笛卡尔网格上对数据重新采样，然后进行FFT（网格）来执行重构。在网格化中，为补偿采样方案的变化密度而对数据进行加权会导致图像质量下降。提出了一种避免此问题的迭代方法。使用螺旋k空间轨迹比较了这两种方法。与基于网格的重建相比，进行了仿真并显示了更好的图像质量和更高的SNR。

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《》|2002年|p.1695-1699|共5页
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Desplanques; B.; de Walle; R.V.; Lemahieu; I.;
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中图分类无线电电子学、电信技术;
关键词
iterative methods; image reconstruction; biomedical MRI; fast Fourier transforms; iterative reconstruction; magnetic resonance images; nonCartesian sampling grid; FFT; gridding; image quality degradation; biomedical MRI; spiral k-space trajectories;

机译：迭代方法;影像重建;生物医学MRI;快速傅立叶变换;迭代重建;磁共振图像;非笛卡尔采样网格; FFT;网格化图像质量下降;生物医学MRI;螺旋k空间轨迹;

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专利

1. Iterative reconstruction of magnetic resonance images from arbitrary samples in k-space [J] . Desplanques B., Cornelis D.J., Achten E., IEEE Transactions on Nuclear Science . 2002,第5期

机译：从k空间中的任意样本迭代重建磁共振图像
2. Parallel magnetic resonance imaging with adaptive radius in k-space (PARS): constrained image reconstruction using k-space locality in radiofrequency coil encoded data. [J] . Yeh EN, McKenzie CA, Ohliger MA, Magnetic resonance in medicine: official journal of the Society of Magnetic Resonance in Medicine . 2005,第6期

机译：在k空间（PARS）中具有自适应半径的并行磁共振成像：在射频线圈编码数据中使用k空间局部性的约束图像重建。
3. Cardiac magnetic resonance imaging using radial k-space sampling and self-calibrated partial parallel reconstruction [J] . Xie J., Lai P., Huang F., Magnetic resonance imaging: An International journal of basic research and clinical applications . 2010,第4期

机译：使用径向k空间采样和自校准的部分平行重建进行心脏磁共振成像
4. Iterative reconstruction of magnetic resonance images from arbitrary samples in k-space [C] . Desplanques B., Van de Walle R., Lemahieu I., IEEE Nuclear Science Symposium . 2002

机译：k空间中任意样本的磁共振图像迭代重建
5. Electron paramagnetic resonance image reconstruction for arbitrary projection sampling and regions of interest. [D] . Bryant, Jonathan H. 2011

机译：电子顺磁共振图像重建，用于任意投影采样和感兴趣区域。
6. SPIRiT: Iterative Self-consistent Parallel Imaging Reconstruction from Arbitrary k-Space [O] . Michael Lustig, John M. Pauly -1

机译：精神：任意k空间的迭代自洽平行成像重建
7. An Iterative Approach for Reconstruction of Arbitrary Sparsely Sampled Magnetic Resonance Images [O] . 2014

机译：任意稀疏采样磁共振图像重构的迭代法

Iterative reconstruction of magnetic resonance images from arbitrary samples in k-space

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