基于扩散方程正则化牛顿法的光声层析成像重建非均匀介质的光吸收系数图

Reconstruction of optical absorption coefficient maps of heterogeneous media by photoacoustic tomography coupled with diffusion equation based regularized Newton method.

作者信息

Yuan Zhen, Wang Qiang, Jiang Huabei

机构信息

Department of Biomedical Engineering, University of Florida, Gainesville, FL 32611, USA.

出版信息

Opt Express. 2007 Dec 24;15(26):18076-81. doi: 10.1364/oe.15.018076.

DOI:10.1364/oe.15.018076

PMID:19551105

Abstract

We describe a novel reconstruction method that allows for quantitative recovery of optical absorption coefficient maps of heterogeneous media using tomographic photoacoustic measurements. Images of optical absorption coefficient are obtained from a diffusion equation based regularized Newton method where the absorbed energy density distribution from conventional photoacoustic tomography serves as the measured field data. We experimentally demonstrate this new method using tissue-mimicking phantom measurements and simulations. The reconstruction results show that the optical absorption coefficient images obtained are quantitative in terms of the shape, size, location and optical property values of the heterogeneities examined.

摘要

我们描述了一种新颖的重建方法，该方法能够利用层析光声测量对异质介质的光吸收系数图进行定量恢复。光吸收系数图像是通过基于扩散方程的正则化牛顿法获得的，其中传统光声层析成像的吸收能量密度分布用作测量场数据。我们通过组织模拟体模测量和模拟实验验证了这种新方法。重建结果表明，所获得的光吸收系数图像在所检查异质性的形状、大小、位置和光学属性值方面是定量的。

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基于扩散方程正则化牛顿法的光声层析成像重建非均匀介质的光吸收系数图

Reconstruction of optical absorption coefficient maps of heterogeneous media by photoacoustic tomography coupled with diffusion equation based regularized Newton method.

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