Experimental study on the relationship between foam pressure difference and foam stability / 生物医学工程学杂志

Foam stability affects the efficacy and incidence of side effects of foam sclerotherapy. Exploring the relationship between foam pressure difference and foam stability can provide ideas and basis for obtaining more stable foam. In the experiment, sodium cod liver oleate foam was selected, and poloxamer 188 (concentration of 0%, 4%, 8%, 12%) was added to realize the change of foam pressure. By using the self-written program to process the foam pictures, the foam pressure difference and the relationship between the foam stability indicators (water separation rate curve, half-life) and the foam pressure difference were obtained. The results showed that at first the foam pressure increased with the increase of the concentration, and then it decreased with the increase of the concentration and reached a peak at the concentration of 4%. The foam pressure difference decreases continuously with the increase of decay time. When the additive concentration is low, the foam average pressure difference increases. And if the additive concentration is too high, the foam average pressure difference decreases. The smaller the foam pressure difference is, the better the foam stability is. This paper lays a foundation for the research on the stability of foam hardener.

The optimal liquid-to-air ratio for the preparation of 1% lauromacrogol foam sclerosant / 介入放射学杂志

Objective To investigate the stability of 1% lauromacrogol foam sclerosant prepared with different liquid-to-air ratio in order to find out the optimal liquid-to-air ratio. Methods According to Tessari technique, two 10 ml disposable plastic syringes and one three-way plastic stopcock were used to mix 1%lauromacrogol with room air, and liquid-to-air ratios from 1∶1 to 1∶9 were separately employed to make the preparation of the foam sclerosant. Each kind of liquid-to-air ratio was used to separately make bubbles for 5 times, the foam half-life time (FHT), the foam drainage time (FDT) and the foam coalescence time (FCT) were recorded, and their mean values were calculated. The optimal liquid-to-air ratio was defined as the intermediate values of all the above measured indexes. Results When the liquid-to-air ratio was 1 ∶ 1, 1 ∶2, 1 ∶ 3, 1 ∶ 4, 1 ∶ 5, 1 ∶ 6, 1 ∶ 7, 1 ∶ 8 and 1 ∶ 9, the FHT of 1% lauromacrogol foam sclerosant was 184.8, 169.3, 135.9, 110.8, 111.5, 92.6, 76.3, 74.7 and 49.9 seconds respectively; the FDT was 10.6, 17.8, 14.6, 13.7, 13.0, 12.3, 10.7, 11.5 and 12.6 seconds respectively; while the FCT was 108.4, 79.8, 41.8, 20.3, 10.4, 0, 0, 0 and 0 seconds respectively. Conclusion Based on Tessari technique, the indoor air, two 10 ml disposable plastic syringes and one three-way plastic stopcock are used to prepare 1%lauromacrogol foam sclerosant, and the optimal liquid-to-air ratio is 1 ∶ 2.