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2000
Volume 32, Issue 22
  • ISSN: 0929-8673
  • E-ISSN: 1875-533X

Abstract

Background

Thymoquinone (TQ) is found in the seeds of It has immunomodulatory, antibacterial, anti-inflammatory, antioxidant, astringent, antifungal, and antihistaminic properties, making it a highly valuable compound of interest. However, the use of it as a therapeutic drug is highly challenging because of its poor solubility, low bioavailability, and short-term stability.

Aim

The present study focused on a nanosized ethosome formulation of thymoquinone with potent antimicrobial activity against

Methods

This study aimed to develop nanosized TQ-loaded ethosome-based hydrogels and evaluate their antimicrobial effects. The methods included UV‒VIS spectrophotometer analysis, solubility studies, preparation of TQ-loaded ethosomes, thermodynamic stability, drug release, characterization, preparation of ethosome-based hydrogels, skin permeation, skin drug retention, and antimicrobial studies against

Results

UV‒VIS analysis revealed that thymoquinone (TQ) demonstrated a maximum absorbance peak at λmax 254 nm. TQ has the highest solubility in ethanol (60 mg/mL) and soy lecithin (65 mg/mL). TQ solubility in PBS 7.4 (75 mg/mL) with ethanol (50:50% w/v) was found to be crucial for determining and drug release. Ethosomes were developed using soy lecithin (1.5-4.5% ), cholesterol (0.20-0.42% ), and ethanol (30-47% ) across ten formulations (E1-E10). These ethosomes were further evaluated for physical stability. Formulations E6-E10, with optimal concentrations of soy lecithin, cholesterol, and high ethanol, showed thermodynamic stability for up to 6 weeks. These materials were selected for further study because of their stability and drug release. E6 resulted in the greatest drug release and permeation due to the optimal lipid, cholesterol, and higher ethanol concentrations. E6, with a particle size of 114.8 nm, a PDI of 0.247, and a zeta potential of -0.497 mV, showed optimal stability and drug encapsulation, and the TEM results confirmed the presence of spherical vesicles. The addition of carbopol-940 (1% ) resulted in the formation of a gel, enhancing the topical application and sustained release of the drug. Compared with the TQ-CG hydrogel, the E6 hydrogel showed superior TQ permeation and flux over 24 hours. The first-order model fits the release kinetics, confirming the suitability of the E6 hydrogel for further study. The E6 hydrogel retained 3.6 times more drugs than TQ-CG, enhancing skin penetration and drug delivery. The TQ-loaded ethosome (E6 in D3) demonstrated the second-highest antimicrobial action, followed by the E6 hydrogel (D2), with the Clinsol gel as a control (C) showing the maximum inhibition against . The efficacy of E6 is likely due to better diffusion. The slower diffusion of the hydrogel provides sustained action, making it effective for prolonged topical drug delivery.

Conclusion

The E6 hydrogel shows promise for local therapeutic benefits and sustained drug release and could be a superior herbal option for managing skin infections.

© 2025 Bentham Science Publishers
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2025-07-01
2025-09-08

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Thymoquinone-loaded Nanosized Ethosomal-based Hydrogels: Their Preparation, Characterization, In Vitro, Ex Vivo, and Antimicrobial Evaluation against Staphylococcus aureus
Curr. Med. Chem. 32, 4585 (2025); https://doi.org/10.2174/0109298673341004250101104428
/content/journals/cmc/10.2174/0109298673341004250101104428
/content/journals/cmc/10.2174/0109298673341004250101104428
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  • Article Type:     Research Article
Keyword(s): bioavailability; ethosome; hydrogel; nigella sativa; S. aureus; solubility; stability; Thymoquinone

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