通过傅里叶速度分布、线扫描和回波平面成像研究人体组织灌注。

Tissue perfusion in humans studied by Fourier velocity distribution, line scan, and echo-planar imaging.

作者信息

Feinberg D A, Jakab P D

机构信息

Department of Radiology, Harvard Medical School, Brigham and Women's Hospital, Boston, Massachusetts 02115.

出版信息

Magn Reson Med. 1990 Nov;16(2):280-93. doi: 10.1002/mrm.1910160209.

DOI:10.1002/mrm.1910160209

PMID:2266847

Abstract

In tissue perfusion studies, FT velocity distribution imaging (VDI) intrinsically distinguishes signals from moving blood and volume-averaged tissue. Results in human thyroid gland, in vivo, using VDI line scan technique demonstrated separation of moving blood signal from glandular tissue, while VDI inner-volume echo-planar imaging of brain showed only CSF velocity above the image noise level. New alternating polarity gradient sequences which permit separation of diffusion and slow velocity are discussed. A novel method of 3D FT imaging (two spatial and one velocity dimension) combining inner-volume imaging and echo-planar imaging with velocity resolution of 0.15 mm/s per pixel is demonstrated. A novel graphical method of calculation and display of diffusion dependence in pulsed gradient sequences is presented.

摘要

在组织灌注研究中，傅里叶变换（FT）速度分布成像（VDI）本质上能够区分来自移动血液和体积平均组织的信号。在人体甲状腺的体内研究中，使用VDI线扫描技术的结果表明，移动血液信号与腺组织得以分离，而对大脑进行的VDI内体积回波平面成像显示，仅脑脊液速度高于图像噪声水平。文中讨论了允许分离扩散和慢速的新型交替极性梯度序列。展示了一种将内体积成像和回波平面成像相结合的新型三维傅里叶变换成像方法（两个空间维度和一个速度维度），其速度分辨率为每像素0.15毫米/秒。还介绍了一种在脉冲梯度序列中计算和显示扩散依赖性的新型图形方法。

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通过傅里叶速度分布、线扫描和回波平面成像研究人体组织灌注。

Tissue perfusion in humans studied by Fourier velocity distribution, line scan, and echo-planar imaging.

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