4.7 Article

Effects of Nanobubbles in Dermal Delivery of Drugs and Cosmetics

Journal

NANOMATERIALS
Volume 12, Issue 19, Pages -

Publisher

MDPI
DOI: 10.3390/nano12193286

Keywords

nanobubbles; dermal delivery; cosmetics; depigmentation

Funding

  1. National Research Foundation of Korea [NRF-2021R1F1A1058229]
  2. Commercialization Promotion Agency for RD Outcomes [2021-RMD-S02, 2022sanhagyeon-003]

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Dermal delivery is a non-invasive and simple method that has attracted attention. However, overcoming the skin barrier remains a challenge, and green chemistry is crucial in the cosmetic industry. This study provides a new method using nanobubbles to enhance dermal delivery effects.
Dermal delivery, which delivers drugs and cosmetics through the skin, has attracted significant attention due to its non-invasive and simple administration compared with oral or injectable administration. However, delivery of the ingredients through the skin barrier is difficult because the primary function of the skin is to protect the human body by preventing the invasion of contaminants. Although various techniques have been developed to overcome skin barriers, chemical toxicity, complicated processes, and expensive equipment still remain as obstacles. Moreover, green chemistry, which minimizes or eliminates the use of toxic chemicals, is required in the cosmetic industry. Thus, the development of a new method for dermal delivery is required. In this study, we provide a new method for dermal delivery using nanobubbles (NBs). NBs generated in oil improve the delivery effect of the active ingredients through the high Brownian motion and charge-balancing effect. Franz cell experiments and depigmentation experiments using the B16F10 melanoma cells were conducted to confirm the enhanced delivery effects. The system using NBs will contribute to the advancement of the dermal delivery of drugs and cosmetics.

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