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硬化治疗中泡沫衰减趋势及温度跃升对泡沫稳定性影响的研究

Studies on Foam Decay Trend and Influence of Temperature Jump on Foam Stability in Sclerotherapy.

作者信息

Bai Taoping, Chen Yu, Jiang Wentao, Yan Fei, Fan Yubo

机构信息

1 Department of Applied Mechanics, Sichuan University, Chengdu, China.

2 School of Biological Science and Medical Engineering, Beihang University, Beijing, China.

出版信息

Vasc Endovascular Surg. 2018 Feb;52(2):98-106. doi: 10.1177/1538574417741786. Epub 2017 Nov 26.

DOI:10.1177/1538574417741786
PMID:29173136
Abstract

OBJECTIVES

This study investigated the influence of temperature jump and liquid-gas ratio on foam stability to derive the foam-decay law.

METHODS

The experimental group conditions were as follows: mutation temperatures (10°C, 16°C, 20°C, 23°C, 25°C, and 27°C to >37°C) and liquid-gas ratios (1:1, 1:2, 1:3, and 1:4). The control group conditions were as follows: temperatures (10°C, 16°C, 20°C, 23°C, 25°C and 27°C) and liquid-gas ratios (1:1, 1:2, 1:3, and 1:4). A homemade device manufactured using the Tessari DSS method was used to prepare the foam. The decay process was videotape recorded. In the drainage rate curve, the temperature rose, and the liquid-gas ratio varied from 1:1 to 1:4, causing faster decay.

RESULTS

In the entire process, the foam volume decreased with increasing drainage rate. The relationships were almost linear. Comparison of the experimental and control groups shows that the temperature jump results in a drainage time range of 1 to 15 seconds. The half-life ranges from 10 to 30 seconds. The maximum rate is 18.85%. Changes in the preparation temperature yields a drainage time range of 3 to 30 seconds. The half-life varies from 20 to 60 seconds.

CONCLUSION

Decreasing the temperature jump range and liquid-gas ratio gradually enhances the foam stability. The foam decay time and drainage rate exhibit an exponential function distribution.

摘要

目的

本研究调查了温度跃升和液气比对泡沫稳定性的影响,以推导泡沫衰变规律。

方法

实验组条件如下:突变温度(10℃、16℃、20℃、23℃、25℃和27℃至>37℃)和液气比(1:1、1:2、1:3和1:4)。对照组条件如下:温度(10℃、16℃、20℃、23℃、25℃和27℃)和液气比(1:1、1:2、1:3和1:4)。使用采用泰萨里动态表面张力仪法制造的自制装置制备泡沫。衰变过程用录像记录。在排水速率曲线中,温度升高,液气比从1:1变化到1:4,导致更快的衰变。

结果

在整个过程中,泡沫体积随排水速率的增加而减小。这些关系几乎是线性的。实验组和对照组的比较表明,温度跃升导致排水时间范围为1至15秒。半衰期范围为10至30秒。最大速率为18.85%。制备温度的变化产生的排水时间范围为3至30秒。半衰期从20秒到60秒不等。

结论

减小温度跃升范围和液气比可逐渐提高泡沫稳定性。泡沫衰变时间和排水速率呈现指数函数分布。

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