Microfluidic Approach for Enhanced Paeoniflorin Transdermal Delivery: A Comparative Study on Different Chips and Mixing Dynamics

IF 3.4 4区医学 Q2 PHARMACOLOGY & PHARMACY

AAPS PharmSciTech Pub Date : 2025-01-16 DOI:10.1208/s12249-024-03033-z

Qifei Gu, Wuqing Xiao, Yingyin Zhu, Wanling Zhong, Xue Sui, Yongchao Liu, Jie Zhang, Huichao Wu, Rui Zhou

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引用次数: 0

Abstract

Paeoniflorin is a natural pharmaceutical ingredient with a widely biological activity. However, as a hydrophilic drug, the problem of low transdermal rate limits its clinical application. To overcome this shortage, LUVs were used as biocompatible carriers of paeoniflorin in this study. We prepared paeoniflorin-loaded large unilamellar vesicles (LUVs) with W/O/W structure by microfluidics. We used four kinds of chips to prepare paeoniflorin LUVs and explored the effects of the chip structures on LUVs properties applying both experiments and numerical simulations. The difference of fluid mixing mechanisms was analyzed among four different channels, including straight and curved structures. Then we evaluated the differences in skin permeability among the three groups, paeoniflorin aqueous solution group, drug-loaded liposome group and blank liposome & drug mixture group, using the abdominal skin of male mice. The results showed that the structure of the microfluidic channel was a key factor affecting the flow rate and mixing efficiency. The mixing efficiency further affected the liposome size. The mixing efficiency of curved channel was not better than that of a straight channel due to the low flow rate and long mixing time. By the results of transdermal experiments, LUVs could reduce the transdermal time and increase the total transdermal amount. LUVs effectively improved the transdermal absorption efficiency of paeoniflorin. In conclusion, paeoniflorin LUVs with highly efficient transdermal were successfully prepared by using microfluidics. We explored the underlying fluid dynamics that lead to variations in the preparation with different chip structures. The transdermal effect of the LUVs was verified.

Graphical Abstract

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微流控方法增强芍药苷透皮给药：不同芯片和混合动力学的比较研究

芍药苷是一种具有广泛生物活性的天然药物成分。然而，作为一种亲水性药物，透皮率低的问题限制了其临床应用。为了克服这一不足，本研究将luv作为芍药苷的生物相容性载体。采用微流体技术制备了W/O/W结构的芍药苷大单层囊泡（LUVs）。采用四种芯片制备了芍药苷luv，并通过实验和数值模拟探讨了芯片结构对luv性能的影响。分析了四种不同通道（包括直通道和弯通道）流体混合机理的差异。然后观察芍药苷水溶液组、载药脂质体组和空白脂质体组小鼠皮肤通透性的差异；药物混合组，使用雄性小鼠腹部皮肤。结果表明，微流控通道的结构是影响流量和混合效率的关键因素。混合效率进一步影响了脂质体的大小。由于流量小，混合时间长，曲线通道的混合效率并不比直线通道好。透皮实验结果表明，luv可缩短透皮时间，增加透皮总量。LUVs有效提高了芍药苷的透皮吸收效率。综上所述，利用微流体技术成功制备了高效透皮的芍药苷luv。我们探索了导致不同芯片结构制备变化的潜在流体动力学。验证了luv的透皮效应。图形抽象

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

AAPS PharmSciTech 医学-药学

CiteScore

6.80

自引率

3.00%

发文量

264

审稿时长

2.4 months

期刊介绍： AAPS PharmSciTech is a peer-reviewed, online-only journal committed to serving those pharmaceutical scientists and engineers interested in the research, development, and evaluation of pharmaceutical dosage forms and delivery systems, including drugs derived from biotechnology and the manufacturing science pertaining to the commercialization of such dosage forms. Because of its electronic nature, AAPS PharmSciTech aspires to utilize evolving electronic technology to enable faster and diverse mechanisms of information delivery to its readership. Submission of uninvited expert reviews and research articles are welcomed.