基于 Radial Intersections (RING) 技术从少量 spokes中实现简单的自动校准梯度延迟估计。

Simple auto-calibrated gradient delay estimation from few spokes using Radial Intersections (RING).

机构信息

Institute for Diagnostic and Interventional Radiology, University Medical Center Göttingen, Göttingen, Germany.

German Centre for Cardiovascular Research (DZHK), Partner site Göttingen, Göttingen, Germany.

出版信息

Magn Reson Med. 2019 Mar;81(3):1898-1906. doi: 10.1002/mrm.27506. Epub 2018 Nov 4.

DOI:10.1002/mrm.27506

PMID:30489652

Abstract

PURPOSE

To develop a simple and robust tool for the estimation of gradient delays from highly undersampled radial k-space data.

THEORY

In radial imaging gradient delays induce parallel and orthogonal trajectory shifts, which can be described using an ellipse model. The intersection points of the radial spokes, which can be estimated by spoke-by-spoke comparison of k-space samples, distinctly determine the parameters of the ellipse. Using the proposed method (RING), these parameters can be obtained using a least-squares fit and utilized for the correction of gradient delays.

METHODS

The functionality and accuracy of the proposed RING method is validated and compared to correlation-based gradient-delay estimation from opposing spokes using numerical simulations, phantom and in vivo heart measurements.

RESULTS

In all experiments, RING robustly provides accurate gradient delay estimations even for as few as three radial spokes.

CONCLUSIONS

The simple and straightforward to implement RING method provides accurate gradient delay estimation for highly undersampled radial imaging.

摘要

目的

开发一种简单而强大的工具，用于从高度欠采样的径向 k 空间数据估计梯度延迟。

理论

在径向成象中，梯度延迟会引起平行和正交轨迹的移动，可以使用椭圆模型来描述。通过逐线比较 k 空间样本，可以估计径向线的交点，这些交点明显确定了椭圆的参数。使用所提出的方法（RING），可以使用最小二乘拟合来获得这些参数，并将其用于校正梯度延迟。

方法

通过数值模拟、体模和体内心脏测量来验证和比较所提出的 RING 方法的功能和准确性，以及与基于相关的对向线的梯度延迟估计方法。

结果

在所有实验中，即使只有三个径向线，RING 也能稳健地提供准确的梯度延迟估计。

结论

简单而直接的 RING 方法为高度欠采样的径向成象提供了准确的梯度延迟估计。

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基于 Radial Intersections (RING) 技术从少量 spokes中实现简单的自动校准梯度延迟估计。

Simple auto-calibrated gradient delay estimation from few spokes using Radial Intersections (RING).

机构信息

出版信息

PURPOSE

THEORY

METHODS

RESULTS

CONCLUSIONS

目的

理论

方法

结果

结论

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