表面活性剂结构和高速混合动力学对通过简单高速均质化实现纳米级乳液的影响。

The Impact of Surfactant Structures and High-Speed Mixing Dynamics in Achieving Nano-Sized Emulsions with Simple High-Speed Homogenization.

作者信息

Na Nan Sakdinon, Luckanagul Jittima Amie, Panapisal Vipaporn Rakkanka

机构信息

Department of Pharmaceutics and Industrial Pharmacy, Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, Thailand.

Center of Excellence in Biomaterial Engineering in Medical and Health, Chulalongkorn University, Bangkok, Thailand.

出版信息

Nanotechnol Sci Appl. 2024 Dec 21;17:273-288. doi: 10.2147/NSA.S492639. eCollection 2024.

DOI:10.2147/NSA.S492639

PMID:39726636

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11669595/

Abstract

PURPOSE

This study investigates the impact of various mixing parameters and surfactant combinations on the physical characteristics of nanoemulsions produced using high-speed homogenization. Nanoemulsions are explored for their capacity to enhance transdermal drug delivery in pharmaceutical and cosmetic contexts.

METHODS

Employing a standard high-speed homogenizer typical in the cosmetic industry, we tested different combinations of Polysorbate (Tween®) and Sorbitan ester (Span®) surfactants under single and intermittent process configurations. Key parameters assessed included particle size, size distribution, Oswald ripening, and creaming index.

RESULTS

Nanoemulsions synthesized had particle sizes below 200 nm and appeared as white liquids with slight creaming. Extended mixing times were associated with smaller droplet sizes and reduced creaming. Both processing methods yielded similar nanoemulsion properties, indicating minimal impact from the type of process used. The nanoemulsions exhibited polydispersity indices ranging from 0.3 to 0.5, suggesting a uniform size distribution, and showed negligible Oswald ripening, which indicates stable droplet sizes over time.

CONCLUSION

The study confirms that precise control of mixing parameters and the selection of appropriate surfactant pairs are more critical than the choice of process in producing stable nanoemulsions. With efficient use of standard high-speed homogenizers, stable nanoemulsions suitable for large-scale production can be achieved, providing a cost-effective method for pharmaceutical and cosmetic industries.

摘要

目的

本研究调查了各种混合参数和表面活性剂组合对使用高速均质法制备的纳米乳液物理特性的影响。在制药和化妆品领域，对纳米乳液增强透皮给药的能力进行了探索。

方法

我们使用化妆品行业中典型的标准高速均质器，在单次和间歇工艺配置下测试了聚山梨酯（吐温®）和脱水山梨醇酯（司盘®）表面活性剂的不同组合。评估的关键参数包括粒径、粒径分布、奥氏熟化和乳析指数。

结果

合成的纳米乳液粒径低于200 nm，呈白色液体，有轻微乳析现象。延长混合时间与更小的液滴尺寸和减少的乳析相关。两种加工方法产生的纳米乳液性质相似，表明所用工艺类型的影响最小。纳米乳液的多分散指数范围为0.3至0.5，表明粒径分布均匀，且奥氏熟化可忽略不计，这表明液滴尺寸随时间稳定。

结论

该研究证实，在生产稳定的纳米乳液时，精确控制混合参数和选择合适的表面活性剂对比工艺选择更为关键。通过有效使用标准高速均质器，可以实现适合大规模生产的稳定纳米乳液，为制药和化妆品行业提供了一种经济高效的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e34b/11669595/a0cfbbc5e458/NSA-17-273-g0001.jpg

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表面活性剂结构和高速混合动力学对通过简单高速均质化实现纳米级乳液的影响。

The Impact of Surfactant Structures and High-Speed Mixing Dynamics in Achieving Nano-Sized Emulsions with Simple High-Speed Homogenization.

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机构信息

出版信息

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