Optimizing and Evaluating the Transdermal Permeation of Hydrocortisone Transfersomes Formulation Based on Digital Analysis of the In Vitro Drug Release and Ex Vivo Studies.

Asmae Abdelwahd, Bazigha K Abdul Rasool
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引用次数: 1

Abstract

Background: Transfersomes can be used to enhance transdermal drug delivery due to their flexibility and ability to incorporate various molecules. For example, hydrocortisone (HC), a corticosteroid, is taken by different routes and serves as immunosuppressive, anticancer, and antiallergenic; however, it is poorly absorbed by the skin.

Objective: Therefore, the current study suggested HC-loaded transfersomes as an alternative route of administration for reaching deeper skin layers or systemic circulation, to reduce the side effects of HC and improve its bioavailability.

Methods: HC transfersomes were prepared by the thin-film hydration method and characterized for their vesicular size, zeta potential, drug entrapment efficiency, elasticity, FTIR spectroscopy, in vitro drug release, ex vivo permeation, and irritancy in rabbits. The optimized formulation, F15 (containing HC 20 mg, egg phosphatidylcholine (EPC) 400 mg, and 75 mg of Span 80), was chosen because it showed the highest (p< 0.05) EE% (60.4±0.80) and optimized sustained in vitro drug release (Q8 = 87.9±0.6%).

Results: Extensive analysis of the drug release data from all formulas was performed using the DDSolver software which quantitatively confirmed the successful formulation. The Weibull equation was the best model to fit the release data compared to others, and the release mechanism was Fickian diffusion.

Conclusion: The simulated pharmacokinetic parameters showed that F15 had the highest AUC, MDT, and DE. Furthermore, F15 significantly enhanced HC permeation by 12-folds compared to the control through the excised rat's skin. The skin irritancy test has proven F15 safety and skin compatibility.

Abstract Image

Abstract Image

Abstract Image

基于体外释药和离体研究的氢化可的松转移体处方透皮渗透优化与评价。
背景:由于转移体的灵活性和结合各种分子的能力,它们可以用来增强经皮药物传递。例如,氢化可的松(HC),一种皮质类固醇,可通过不同途径服用,具有免疫抑制、抗癌和抗过敏作用;然而,它很难被皮肤吸收。目的:因此,本研究建议将HC负载转移体作为到达皮肤深层或体循环的另一种给药途径,以减少HC的副作用并提高其生物利用度。方法:采用薄膜水合法制备HC转移体,对其囊泡大小、zeta电位、包封效率、弹性、FTIR光谱、体外释药、体外渗透、兔体内刺激性等进行表征。选择最佳配方F15(含HC 20 mg、蛋磷脂酰胆碱400 mg、Span 80 75 mg),其EE%(60.4±0.80)最高(p< 0.05),体外缓释Q8 = 87.9±0.6%。结果:使用DDSolver软件对所有处方的药物释放数据进行了广泛的分析,定量地确认了处方的成功。与其他模型相比,威布尔方程是最适合其释放数据的模型,释放机制为菲克扩散。结论:模拟药代动力学参数显示,F15具有最高的AUC、MDT和DE,并且F15通过大鼠切除皮肤使HC渗透比对照组显著提高了12倍。皮肤刺激性试验证明了F15的安全性和皮肤相容性。
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