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Preparing a novel baicalin-loaded microemulsion-based gel for transdermal delivery and testing its anti-gout effect

Yingzhou Wang, Mingxue Liu, Junjie Li, Peipei Jiang, Di Han, Hongling Zhang, Lingyun Xu, Yinsheng Qiu

2024Saudi Pharmaceutical Journal12 citationsDOIOpen Access PDF

Abstract

We previously demonstrated that baicalin had efficacy against gouty arthritis (GA) by oral administration. In this paper, a novel baicalin-loaded microemulsion-based gel (B-MEG) was prepared and assessed for the transdermal delivery of baicalin against GA. The preparation method and transdermal capability of B-MEG was screened and optimized using the central composite design, Franz diffusion cell experiments, and the split-split plot design. Skin irritation tests were performed in guinea pigs. The anti-gout effects were evaluated using mice. The optimized B-MEG comprised of 50 % pH 7.4 phosphate buffered saline, 4.48 % ethyl oleate, 31.64 % tween 80, 13.88 % glycerin, 2 % borneol, 0.5 % clove oil and 0.5 % xanthan gum, with a baicalin content of (10.42 ± 0.08) mg/g and particle size of (15.71 ± 0.41) nm. After 12 h, the cumulative amount of baicalin permeated from B-MEG was (672.14 ± 44.11) μg·cm−2. No significant skin irritation was observed following B-MEG application. Compared to the model group, B-MEG groups significantly decreased the rate of auricular swelling (P < 0.01) and number of twists observed in mice (P < 0.01); and also reduced the rate of paw swelling (P < 0.01) and inflammatory cell infiltration in a mouse model of GA In conclusion, B-MEG represents a promising transdermal carrier for baicalin delivery and can be used as a potential therapy for GA.

Topics & Concepts

BaicalinTransdermalMicroemulsionBorneolChromatographyChemistryParticle sizePharmacologyPulmonary surfactantMedicineBiochemistryHigh-performance liquid chromatographyAlternative medicinePhysical chemistryPathologyTraditional Chinese medicineAdvancements in Transdermal Drug DeliveryBee Products Chemical AnalysisNatural product bioactivities and synthesis