Dual-frequency excitation enhances targeted delivery of ultrasound microbubbles

2010 IEEE International Ultrasonics Symposium Pub Date : 2010-10-01 DOI:10.1109/ULTSYM.2010.5935878

Ting-Yu Huang, C. Yeh

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Abstract

Ultrasound radiation force (USRF) is commonly used to facilitate the efficiency of targeted bubble adhesion. Studying the property of adherent bubbles provides opportunities for the further control of targeted drug delivery and release. Previous reports show that USRF provides better targeting efficiency as USRF transmitting frequency close to bubbles' resonance frequency. However, low-frequency ultrasound suffers from a large sample volume such that USRF cannot be pinpointed to a specified region of interest. In this study, we proposed a high-frequency dual-frequency (DF) excitation with a low-frequency envelope component close to bubbles' resonance frequency to enhance the bubbles targeting efficiency while retaining a high spatial resolution. The results show that dual-frequency excitation with envelope frequency of 20 MHz (DF-20) and 30 MHz (DF-30) nearing the resonance frequency of submicron bubbles provided targeting enhancement up to 4.6–6.2 folds within 2 minutes. In comparisons to DF-3 and DF-10 excitations, which corresponding envelope frequencies were far from the resonance frequency of submicron bubbles, perform only 2.7–3.3 folds enhancement within 5 minutes.

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双频激励增强超声微泡的靶向递送

超声辐射力(USRF)通常用于提高目标气泡的粘附效率。研究粘附气泡的性质为进一步控制靶向药物的传递和释放提供了机会。先前的研究表明，由于USRF发射频率接近气泡共振频率，因此USRF具有更好的瞄准效率。然而，低频超声受到样本量大的影响，因此USRF不能精确定位到感兴趣的特定区域。在本研究中，我们提出了一种低频包络成分接近气泡共振频率的高频双频(DF)激励，以提高气泡的瞄准效率，同时保持高空间分辨率。结果表明，包络频率分别为20 MHz (DF-20)和30 MHz (DF-30)的双频激励可在2分钟内使靶性增强4.6-6.2倍。与DF-3和DF-10激励相比，其包络频率远低于亚微米气泡的共振频率，在5分钟内仅增强2.7-3.3倍。

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2010 IEEE International Ultrasonics Symposium

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