Real-time reduction of motion artefacts using k-space weighting in magnetic resonance imaging

Philips Journal of Research Pub Date : 1998-01-01 DOI:10.1016/S0165-5817(98)00009-6

R. Sinkus, P. Börnert

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引用次数: 4

Abstract

An improved version of motion-adapted gating useful in MR imaging is presented. Compared to other gating approaches, this advances method shows an improved ability to suppress motion artefacts at a reduced scan time. It is based on a k-space dependent weighting function and a real-time system feedback. During MR data acquisition patient motion is monitored and only those profiles are accepted whose respiratory motion induced displacements are below a pre-defined threshfold (gating) function. The displacements are measured relative to a reference position, which is automatically determined during the initial phase of the MR scan. While MR data are acquired, the object motion is statistically analysed in parallel by calculating the histogram of the displacement distribution for consecutive time intervals. This information can be used to interfere with the measurement process in the case that motion statistics changes during the scan. Initial in-vivo results are presented and compared to conventional techniques.

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在磁共振成像中使用k空间加权实时减少运动伪影

提出了一种适用于磁共振成像的改进版运动自适应门控。与其他门控方法相比，这种先进的方法显示出在减少扫描时间内抑制运动伪影的能力。它基于k空间相关的权重函数和实时系统反馈。在磁共振数据采集过程中，监测患者的运动，只有那些呼吸运动引起的位移低于预定义阈值(门控)函数的轮廓才被接受。位移相对于参考位置进行测量，参考位置在MR扫描的初始阶段自动确定。在获取MR数据的同时，通过计算连续时间间隔的位移分布直方图，并行统计分析物体的运动。在扫描期间运动统计数据发生变化的情况下，该信息可用于干扰测量过程。初步的体内结果被提出，并与常规技术进行比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Philips Journal of Research

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