Dynamic Behavior of Microbubbles during Long Ultrasound Tone-Burst Excitation: Mechanistic Insights into Ultrasound-Microbubble Mediated Therapeutics Using High-Speed Imaging and Cavitation Detection

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• 作者：Xucai Chen ; Jianjun Wang ; John J. Pacella ; Flordeliza S. Villanueva ; ^{villanuevafs@upmc.edu" class="auth_mail" title="E-mail the corresponding author} ;
• 关键词：Microbubble dynamics ; Ultrasound therapy ; Ultrasound contrast agents ; Sonothrombolysis ; Cavitation ; High-speed imaging
• 刊名：Ultrasound in Medicine & Biology
• 出版年：2016
• 出版时间：February 2016
• 年：2016
• 卷：42
• 期：2
• 页码：528-538
• 全文大小：2385 K

文摘

Ultrasound (US)–microbubble (MB)-mediated therapies have been found to restore perfusion and enhance drug/gene delivery. On the presumption that MBs do not persist during long US exposure under high acoustic pressures, most schemes use short US pulses when a high US pressure is employed. However, we recently observed an enhanced thrombolytic effect using long US pulses at high acoustic pressures. Therefore, we explored the fate of MBs during long tone-burst exposures (5 ms) at various acoustic pressures and MB concentrations via direct high-speed optical observation and passive cavitation detection. MBs first underwent stable or inertial cavitation depending on the acoustic pressure and then formed gas-filled clusters that continued to oscillate, break up and form new clusters. Cavitation detection confirmed continued, albeit diminishing, acoustic activity throughout the 5-ms US excitation. These data suggest that persisting cavitation activity during long tone bursts may confer additional therapeutic effects.