X射线相敏成像方法:基本物理原理及潜在医学应用
X-ray phase sensitive imaging methods: basic physical principles and potential medical applications.
作者信息
Chen Guang-Hong, Zambelli Joseph, Bevins Nicholas, Qi Zhihua, Li Ke
机构信息
Department of Medical Physics, University of Wisconsin-Madison. Department of Radiology, University of Wisconsin-Madison.
出版信息
Curr Med Imaging Rev. 2010 May 1;6(2):90-99. doi: 10.2174/157340510791268533.
Abstract
Phase sensitive imaging theoretically allows for a drastic reduction in x-ray dose while simultaneously achieving comparable or better spatial and contrast resolution compared to traditional x-ray absorption based imaging. Several techniques exist to extract the phase information from an x-ray signal, including x-ray interferometry, diffraction enhanced imaging, in-line holography, coded aperture x-ray imaging, and grating-based interferometry. The physics of each method is reviewed, along with the potential clinical applications.
摘要
相敏成像理论上可以大幅降低X射线剂量,同时与传统的基于X射线吸收的成像相比,能实现相当或更好的空间和对比度分辨率。存在多种从X射线信号中提取相位信息的技术,包括X射线干涉测量法、衍射增强成像、同轴全息术、编码孔径X射线成像和基于光栅的干涉测量法。本文回顾了每种方法的物理原理以及潜在的临床应用。
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