Xu Minghua, Wang Lihong V
Optical Imaging Laboratory, Texas A&M University, College Station 77843-3120, USA.
Med Phys. 2002 Aug;29(8):1661-9. doi: 10.1118/1.1493778.
Our study on pulsed-microwave-induced thermoacoustic tomography in biological tissues is presented. A filtered backprojection algorithm based on rigorous theory is used to reconstruct the cross-sectional image from a thermoacoustic measurement in a circular configuration that encloses the sample under study. Specific details describing the measurement of thermoacoustic waves and the implementation of the reconstruction algorithm are discussed. A two-dimensional (2D) phantom sample with 2 mm features can be imaged faithfully. Through numerical simulation, the full width half-maximum (FWHM) of the point-spread function (PSF) is calculated to estimate the spatial resolution. The results demonstrate that the circular measurement configuration combined with the filtered backprojection method is a promising technique for detecting small tumors buried in biological tissues by utilizing microwave absorption contrast and ultrasound spatial resolution (approximately mm).
本文介绍了我们在生物组织中进行脉冲微波诱导热声层析成像的研究。基于严格理论的滤波反投影算法用于从围绕被研究样本的圆形配置中的热声测量重建横截面图像。讨论了描述热声波测量和重建算法实现的具体细节。具有2毫米特征的二维(2D)体模样本可以被忠实地成像。通过数值模拟,计算点扩散函数(PSF)的半高全宽(FWHM)以估计空间分辨率。结果表明,圆形测量配置与滤波反投影方法相结合,是一种利用微波吸收对比度和超声空间分辨率(约毫米)检测埋藏在生物组织中的小肿瘤的有前景的技术。