Risk-focused investigation on ionic liquids against their applied background in transdermal delivery

Curcumin-Based Ionic Liquid Hydrogel for Topical Transdermal Delivery of Curcumin To Improve Its Therapeutic Effect on the Psoriasis Mouse Model

Psoriasis is a systemic, recurrent, chronic autoimmune skin disease. However, psoriasis drugs have poor skin permeability and high toxicity, resulting in low bioavailability and affecting their clinical application. In this study, we propose a curcumin-based ionic liquid hydrogel loaded with ilomastat (Cur-Car-IL@Ilo hydrogel), which can effectively maintain the sustained release of drugs and improve the skin permeability of drugs. We used a model of imiquimod-induced psoriasis and demonstrated that local application of Cur-Car-IL@Ilo hydrogel can improve skin lesions in mice with significantly reduced expression levels of inflammatory factors, matrix metalloproteinase 8, and collagen-I. The expressions of iron death-related proteins SLC7A11 and ASL4 were significantly decreased after treatment with Cur-Car-IL@Ilo hydrogel. Flora analysis showed that the content of anaerotruncus, proteus, and UCG-009 bacteria in the gut of psoriatic mice increased. The levels of paludicola, parabacteroides, prevotellaceae_UCG-001, escherichia-shigella, and aerococcus decreased, and the levels of some of the above bacteria tended to be normal after treatment. Therefore, the curcumin-based ionic liquid hydrogel can be used as a multifunctional, nonirritating, noninvasive, and highly effective percutaneous treatment of psoriasis.

Ionic liquids as the effective technology for enhancing transdermal drug delivery: Design principles, roles, mechanisms, and future challenges

Ionic liquids (ILs) have been proven to be an effective technology for enhancing drug transdermal absorption. However, due to the unique structural components of ILs, the design of efficient ILs and elucidation of action mechanisms remain to be explored. In this review, basic design principles of ideal ILs for transdermal drug delivery system (TDDS) are discussed considering melting point, skin permeability, and toxicity, which depend on the molar ratios, types, functional groups of ions and inter-ionic interactions. Secondly, the contributions of ILs to the development of TDDS through different roles are described: as novel skin penetration enhancers for enhancing transdermal absorption of drugs; as novel solvents for improving the solubility of drugs in carriers; as novel active pharmaceutical ingredients (API-ILs) for regulating skin permeability, solubility, release, and pharmacokinetic behaviors of drugs; and as novel polymers for the development of smart medical materials. Moreover, diverse action mechanisms, mainly including the interactions among ILs, drugs, polymers, and skin components, are summarized. Finally, future challenges related to ILs are discussed, including underlying quantitative structure-activity relationships, complex interaction forces between anions, drugs, polymers and skin microenvironment, long-term stability, and in vivo safety issues. In summary, this article will promote the development of TDDS based on ILs.

Enhancing Transdermal Delivery of Curcumin-Based Ionic Liquid Liposomes for Application in Psoriasis

To improve the permeation of curcumin, we prepared curcumin-based ionic liquid (Cur-Bet-IL) (IL formed using curcumin succinic anhydride and betaine) from curcumin by combining theoretical calculation and experimental research and then prepared curcumin-based ionic liquid liposome (Cur-Bet-IL-Lip). The Cur-Bet-IL-Lip has good stability (stored for 10 days without significant changes) and biocompatibility, which encompasses not only the properties of curcumin but also the characteristics of ionic liquids and liposomes. Cur-Bet-IL-Lip can penetrate the stratum corneum and deliver curcumin to the epidermis and dermis of the skin, and the cumulative permeability of curcumin after 24 h was 49%. Compared to Cur-Bet-IL, Cur-Bet-IL-Lip has a good uptake ability on human immortalized keratinocyte (HaCaT) cells (1.87-fold), which can reduce the expression of TNF-α (1.59-fold), IL-1β (1.19-fold), IL-17A (1.53-fold), IL-17F (1.18-fold), and IL-22 (1.49-fold) in HaCaT cells and then increase the expression of collagen-I (1.14-fold). Therefore, Cur-Bet-IL-Lip has guiding significance in improving the solubility and permeation of insoluble drugs, which also provides a potential value for the clinical application of curcumin.