体外加热引起的声衰减变化。

The changes in acoustic attenuation due to in vitro heating.

作者信息

Clarke R L, Bush N L, Ter Haar G R

机构信息

Physics Department, College of Natural Sciences, Carleton University, Ottawa, Ontario, Canada.

出版信息

Ultrasound Med Biol. 2003 Jan;29(1):127-35. doi: 10.1016/s0301-5629(02)00693-2.

DOI:10.1016/s0301-5629(02)00693-2

PMID:12604124

Abstract

The effects of heat-generated changes on the attenuation of ultrasound (US) by porcine liver tissue have been studied over a frequency range of 2.0 to 5.0 MHz. Samples of fresh tissue, 4- to 5-mm thick, were pressurized and cooled before measurement. The insertion loss was measured at room temperature, using a broadband 3.5-MHz transducer of focal length 10 cm, employing a pulse-reflection technique. Fourier analysis of the results gave the frequency-dependence of the insertion loss. Samples were then heated in a water bath to a temperature in the range of 40 to 80 degrees C, for between 30 and 500 s. The insertion loss was then re-measured at room temperature. The frequency-dependence of the change in insertion loss, expressed as a coefficient, in dB/cm, was fitted by linear regression, from which the attenuation change at 3.5 MHz was determined. This change was attributed to protein coagulation. Increases of up to 2.4 dB/cm, (80 degrees C, 300 s) were found. The averaged data were fitted to a single step exponential model, resulting in a time constant on the order of 118 +/- 5 s, and an asymptotic limit to the increase of attenuation coefficient of 2.67 +/- 0.5 dB/cm.

摘要

在2.0至5.0MHz的频率范围内，研究了热致变化对猪肝组织超声衰减的影响。在测量之前，将4至5毫米厚的新鲜组织样本加压并冷却。使用焦距为10厘米的宽带3.5MHz换能器，采用脉冲反射技术，在室温下测量插入损耗。对结果进行傅里叶分析，得出插入损耗的频率依赖性。然后将样本在水浴中加热至40至80摄氏度的温度，持续30至500秒。随后在室温下重新测量插入损耗。以dB/cm为系数表示的插入损耗变化的频率依赖性通过线性回归拟合，由此确定3.5MHz时的衰减变化。这种变化归因于蛋白质凝固。发现增加幅度高达2.4dB/cm（80摄氏度，300秒）。将平均数据拟合到单步指数模型，得出时间常数约为118±5秒，衰减系数增加的渐近极限为2.67±0.5dB/cm。

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体外加热引起的声衰减变化。

The changes in acoustic attenuation due to in vitro heating.

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