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超声造影剂诱导的毛细血管密度变化的时相研究。

A temporal study of ultrasound contrast agent-induced changes in capillary density.

机构信息

Department of Bioengineering, University of Illinois at Urbana-Champaign, Urbana, IL 61801, USA.

出版信息

J Ultrasound Med. 2010 Sep;29(9):1267-75. doi: 10.7863/jum.2010.29.9.1267.

DOI:10.7863/jum.2010.29.9.1267
PMID:20733181
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3069919/
Abstract

OBJECTIVE

The ability of ultrasound (US) and ultrasound contrast agents (UCAs) to induce angiogenesis has been explored as a means of restoring blood flow to ischemic muscle. Because UCAs demonstrate an increasing percentage of collapse cavitation with increasing US pressure (Pr), this study sought to explore the effects of a US Pr that produces 100% collapse cavitation, determine the capillary density changes, and determine the time point of angiogenic rebound in a normal animal model.

METHODS

Using a 1-MHz focused transducer and a peak rarefactional US Pr of 3.8 MPa, rat gracilis muscles were exposed to US, and bioeffects were assessed. Capillary density, as a measure of angiogenesis, was examined. As an additional measure, inflammatory cells were quantified via a color threshold analysis to detect the presence of CD31 and CD34 as a percentage of the total section on stained slides. Six groups (0, 3, 6, 13, 20, and 27 days postexposure [DPE]; n = 3 each) and 5 cage controls were used to characterize the angiogenic response.

RESULTS

Ultrasound-UCA treatment caused the capillary density to decrease acutely (0 DPE) by 70% and inflammatory cells to increase by up to 250%. The angiogenic rebound was observed at 3 DPE but did not return to control levels by 27 DPE, suggesting an incomplete healing response.

CONCLUSIONS

Capillary destruction and inflammation played an important role in the angiogenic response induced by US-UCA. Exposure that causes 100% collapse cavitation causes capillary destruction from which normal rats are unable to recover and suggests a nontherapeutic effect.

摘要

目的

超声(US)和超声对比剂(UCAs)诱导血管生成的能力已被探索用于恢复缺血肌肉的血流。由于 UCAs 显示随着 US 压力(Pr)的增加,崩溃空化的百分比增加,因此本研究试图探索产生 100%崩溃空化的 US Pr 的影响,确定毛细血管密度变化,并确定正常动物模型中血管生成反弹的时间点。

方法

使用 1MHz 聚焦换能器和 3.8MPa 的峰值稀疏 US Pr,使大鼠比目鱼肌暴露于 US,并评估生物效应。作为血管生成的衡量标准,检测毛细血管密度。作为额外的衡量标准,通过颜色阈值分析量化炎性细胞,以检测 CD31 和 CD34 在染色载玻片上的总切片中的存在百分比。使用 6 个组(0、3、6、13、20 和 27 天 postexposure [DPE];n=3 个)和 5 个笼式对照来描述血管生成反应。

结果

超声-UCA 治疗导致毛细血管密度在 0 DPE 时急剧下降 70%,炎性细胞增加高达 250%。在 3 DPE 观察到血管生成反弹,但到 27 DPE 时未恢复到对照水平,表明愈合反应不完全。

结论

毛细血管破坏和炎症在 US-UCA 诱导的血管生成反应中起着重要作用。导致 100%崩溃空化的暴露会导致毛细血管破坏,正常大鼠无法从中恢复,表明非治疗效果。

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本文引用的文献

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