来自液滴微流体的超声响应微粒

Danqing Huang, Jinglin Wang, Junyi Che, Baojie Wen, Wentao Kong
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引用次数: 1

摘要

超声(US)响应性微粒在受控给药系统中显示出广泛的潜力。与传统的微米级材料制备方法相比,毛细管微流体技术具有大规模生产、批量相似、封装效率高、成本低等优点。毛细管微流体装置的卓越可操作性和可定制性允许生产具有各种功能和微调化学室的微粒。此外,通过调节微流体通道的毛细管孔和流速,可以很容易地实现对颗粒尺寸和核壳比的灵活调节。在这篇综述中,我们介绍了通过毛细管微流体方法,从单乳液到三乳液,制备具有特定核壳结构的US响应性微粒。然后,我们介绍了一些特定的例子,其中展示了这些微流体微粒的药物递送和US触发的货物释放能力。最后,我们总结了美国响应性微流体微粒的先进成果,总结了该跨学科领域发展的障碍,并展望了其未来的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultrasound-responsive microparticles from droplet microfluidics

Ultrasound (US)-responsive microparticles show broad potential in controlled drug delivery systems. Compare with the traditional micron-scale material fabrication methods, capillary microfluidic technology features superior advantages in large-scale production, batch-to-batch similarity, high encapsulation efficiency, low cost, and so on. The excellent maneuverability and customizability of the capillary microfluidic devices allow the production of microparticles with various functionalities and fine-tuned chemical compartments. Moreover, the flexible regulation of the particle size and core-shell ratio can be easily realized by modulating the capillary orifices and flow rates of microfluidic channels. In this review, we introduce the fabrication of US-responsive microparticles with specific core-shell structures via capillary microfluidic methods, from single emulsion to triple emulsions. Then, we address some particular examples, where the drug delivery and US-triggered cargo release capacity of these microfluidic microparticles are demonstrated. Finally, we conclude the advanced achievements of the US-responsive microfluidic microparticles, summarize the obstacles to the development of this interdisciplinary field, and prospect their future applications.

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