Effects of Different Gas Cores on the Ambient Pressure Sensitivity of the Subharmonic Response of SonoVue

IF 2.4 3区医学 Q2 ACOUSTICS

Ultrasound in Medicine and Biology Pub Date : 2025-02-01 DOI:10.1016/j.ultrasmedbio.2024.11.006

Roozbeh H. Azami , Mehmet Yapar , Saikat Halder , Flemming Forsberg , John R. Eisenbrey , Kausik Sarkar

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引用次数: 0

Abstract

Objective

Subharmonic Aided Pressure Estimation (SHAPE) is a noninvasive technique for estimating organ-level blood pressure using the strong correlation between the subharmonic signal and ambient pressure. The compressible gas core of microbubbles enables them to generate linear and nonlinear acoustic responses when exposed to ultrasound. Here, the sulfur hexafluoride (SF₆) gas core of SonoVue (known as Lumason in the United States), a clinical contrast agent, was exchanged with a perfluorobutane (PFB) core to investigate its effect on the SHAPE response.

Methods

Excitations of 25–700 kPa peak negative pressure (PNP) and 3 MHz transmission frequency were used to study in vitro the effects of overpressure changes ranging from 5 to 25 kPa (37–186 mm Hg).

Results

Unlike SonoVue with SF₆, at low PNPs (<400 kPa), SonoVue with a PFB gas core exhibited no subharmonic at the atmospheric pressure, but during pressurization, a stable subharmonic response (maximum of 25 dB at 100 kPa PNP and 20 kPa Overpressure) appeared. SonoVue with a PFB gas core showed an increase in subharmonics with overpressure at high PNPs (>400 kPa), which was not observed before in normal SonoVue or other lipid microbubbles. With negligible size distribution difference between these two microbubbles, these effects on subharmonic generation are likely due to the gas core, casting new light on the mechanism by which ambient overpressure affects subharmonic.

Conclusion

This study may inform future SHAPE technique developments.

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不同气芯对 SonoVue 次谐波响应的环境压力灵敏度的影响

目的：次谐波辅助血压估算（SHAPE）是一种利用次谐波信号与环境压力之间的强相关性估算器官水平血压的无创技术。微气泡的可压缩气芯使其在暴露于超声波时能够产生线性和非线性声学响应。在此，我们将一种临床造影剂 SonoVue（在美国称为 Lumason）的六氟化硫（SF6）气芯与全氟丁烷（PFB）气芯进行了交换，以研究其对 SHAPE 响应的影响：方法：使用 25-700 kPa 的峰值负压（PNP）和 3 MHz 的传输频率来体外研究 5-25 kPa（37-186 mm Hg）的超压变化的影响：与使用 SF6 的 SonoVue 不同的是，在低 PNPs（400 kPa）时，正常 SonoVue 或其他脂质微气泡中没有观察到这一现象。由于这两种微气泡的大小分布差异可以忽略不计，这些对次谐波产生的影响很可能是由气体核心造成的，这为环境超压影响次谐波的机制提供了新的思路：本研究可为未来的 SHAPE 技术开发提供参考。

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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来源期刊

Ultrasound in Medicine and Biology 医学-核医学

CiteScore

6.20

自引率

6.90%

发文量

325

审稿时长

70 days

期刊介绍： Ultrasound in Medicine and Biology is the official journal of the World Federation for Ultrasound in Medicine and Biology. The journal publishes original contributions that demonstrate a novel application of an existing ultrasound technology in clinical diagnostic, interventional and therapeutic applications, new and improved clinical techniques, the physics, engineering and technology of ultrasound in medicine and biology, and the interactions between ultrasound and biological systems, including bioeffects. Papers that simply utilize standard diagnostic ultrasound as a measuring tool will be considered out of scope. Extended critical reviews of subjects of contemporary interest in the field are also published, in addition to occasional editorial articles, clinical and technical notes, book reviews, letters to the editor and a calendar of forthcoming meetings. It is the aim of the journal fully to meet the information and publication requirements of the clinicians, scientists, engineers and other professionals who constitute the biomedical ultrasonic community.