Comparison between xanthene and Albunex on producing sonodynamic tissue damage

S. Umemura, K. Kawabata, K. Sasaki
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引用次数: 1

Abstract

The authors' recent in vitro and in vivo experiments demonstrated that sonodynamically active cavitation was induced at low ultrasonic intensity in the presence of a certain chemical agent especially when the second harmonic was superimposed onto the fundamental. Chemical agents such as xanthene derivatives were found to be extremely effective. It has also been reported that microbubble contrast agents such as Albunex can enhance in vivo as well as in vitro cavitation. The effects of Albunex and erythrosin on the intensity threshold for cavitationally producing focal damage in murine liver tissue are compared and examined in a progressive wave mode. Albunex reduced the intensity threshold by orders of magnitude even in the case of single frequency insonation. Second-harmonic superimposition (SHS) did not significantly change the threshold with Albunex. Erythrosin and its derivative were quite effective to reduced the intensity threshold especially in combination with SHS at the second-harmonic phase emphasizing the peak rarefaction. The observed difference between the effects of Albunex and erythrosin in combination with SHS is consistent with the hypothesis that SHS enhances cavitational effects through accelerating the growth of microbubbles rather than their collapse.
黄原烯与黄原烯对声动力组织损伤的比较
作者最近的体外和体内实验表明,在某种化学试剂存在的低超声强度下,特别是当二次谐波叠加在基面上时,会引起声动力主动空化。化学制剂如杂蒽衍生物被发现是非常有效的。也有报道称,微泡造影剂如Albunex可以增强体内和体外空化。在渐进波模式下,比较了Albunex和红素对小鼠肝组织空化局灶性损伤强度阈值的影响。Albunex将强度阈值降低了几个数量级,即使是在单频声波的情况下。二次谐波叠加(SHS)对Albunex的阈值无显著影响。红血素及其衍生物对降低强度阈值非常有效,特别是与SHS在二次谐波相结合,强调峰值稀薄。观察到的Albunex和红素与SHS联合作用的差异与SHS通过加速微泡的生长而不是其崩溃来增强空化效应的假设是一致的。
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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