Real-Time Nonlinear Parameter Tomography Using Impulsive Pumping Waves

IEEE Transactions on Sonics and Ultrasonics Pub Date : 1984-11-01 DOI:10.1109/T-SU.1984.31548

N. Ichida, T. Sato, H. Miwa, K. Murakami

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引用次数: 51

Abstract

Absrruci-In this paper a novel real-time tomographic system for imaging the nonlinear parameter B/A of biological objects is proposed. This parameter is related closely to the detailed structure and property of tissues, and may well provide a new dimensional and powerful tool for ultrasonic tissue characterization. In this system an impulsive, relatively high-power pumping wave is applied from a direction perpendiculax to the continuous low-intensity high-frequency probing wave so that the phase of the probing wave is modulated instantly by the product of the parameter B/A of the object and pressure of the pumping wave. Then the resulting spatially-modulated probing wave is detected and demodulated to derive the distribution of B/A along the probing beam. An inverse-filtering operation is employed to compensate for the spread of the pumping wave. The processes are repeated by shifting the position of the probing beam and a two-dimensional image is obtained. A prototype of the imaging system is constructed and images related to the nonlinear parameter of phantoms and human tissues are obtained. The usefulness of this method is shown in these experimental results.

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利用脉冲泵浦波的实时非线性参数层析成像

摘要:本文提出了一种用于生物物体非线性参数B/ a成像的实时层析成像系统。该参数与组织的详细结构和性质密切相关，可以为超声组织表征提供新的尺寸和有力的工具。在该系统中，从垂直方向向连续的低强度高频探测波施加脉冲的、较高功率的泵浦波，使探测波的相位由被测物体的参数B/ a与泵浦波的压力的乘积瞬时调制。然后对得到的空间调制探测波进行检测和解调，得出B/A沿探测波束的分布。采用反滤波运算来补偿泵浦波的传播。通过移动探测光束的位置来重复这些过程，并获得二维图像。构造了该成像系统的原型，获得了与人体组织和幻影非线性参数相关的图像。实验结果表明了该方法的有效性。

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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IEEE Transactions on Sonics and Ultrasonics

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