非线性脉冲计算和数据在水和组织模拟

1999 IEEE Ultrasonics Symposium. Proceedings. International Symposium (Cat. No.99CH37027) Pub Date : 1999-10-17 DOI:10.1109/ULTSYM.1999.849286

G. Wojcik, T. Szabo, J. Mould, L. Carcione, F. Clougherty

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引用次数: 20

摘要

非线性传播是超声医学成像的一个重要方面。特别是，严格的组织生物效应估计必须包括它。监管标准依赖于水中的测量来估计对有损组织的影响，但非线性混淆了这种关系。为了帮助澄清两者之间的联系，作者用计算机模拟水中的声脉冲和豆腐组织模拟来补充实验室水听器数据。使用2.25 MHz聚焦磁盘换能器代替矩形医疗阵列，以方便使用包含因果衰减、非均匀性、多次反射、非线性和冲击平滑的二维伪光谱求解器进行建模。换能器附近的压力扫描表征源并驱动波解算器。测量和计算的非线性声场在6厘米范围内的水和豆腐圆柱后面进行了比较。在缺乏高驱动数据的情况下，作者依靠非线性模拟来对比水和豆腐的结果，以期望降额研究。

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Nonlinear pulse calculations and data in water and a tissue mimic

Nonlinear propagation is recognized as an important aspect of ultrasonic medical imaging. In particular, rigorous estimates of tissue bioeffects must include it. Regulatory standards rely on measurements in water to estimate effects in lossy tissue, but nonlinearity confuses the relationship. To help clarify the connection the authors complement laboratory hydrophone data with computer simulations of acoustic pulses in water and a tofu tissue mimic. A 2.25 MHz focused disk transducer is used instead of a rectangular medical array to facilitate modeling with a 2D pseudospectral solver that includes causal attenuation, inhomogeneity, multiple reflections, nonlinearity, and shock smoothing. Pressure scans near the transducer characterize the source and drive the wave solver. Measured and calculated nonlinear acoustic fields are compared over a 6 cm range in water and behind tofu cylinders. In the absence of high drive data the authors rely on nonlinear simulations to contrast water and tofu results, in anticipation of derating studies.

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来源期刊

1999 IEEE Ultrasonics Symposium. Proceedings. International Symposium (Cat. No.99CH37027)

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