4.7 Article

Optimized Peppermint Essential Oil Microcapsules Loaded into Gelatin-Based Cryogels with Enhanced Antimicrobial Activity

Journal

POLYMERS
Volume 15, Issue 13, Pages -

Publisher

MDPI
DOI: 10.3390/polym15132782

Keywords

gelatin; chitosan; peppermint essential oil; microcapsule; cryogel; antibacterial

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In this study, chitosan was used to microencapsulate peppermint essential oil. A gelatin-based cryogel loaded with microcapsules was developed and characterized. The cryogel showed a porous morphology and high values of equilibrium swelling ratio. The incorporation of microencapsulated peppermint essential oil enhanced the antibacterial activity of the cryogel, making it a promising candidate for various applications. The study also demonstrated a strategy for stabilizing the release of volatile compounds.
In this study, chitosan (Chi) was used to microencapsulate peppermint essential oil (PEO). A novel gelatin-based cryogel loaded with PEO microcapsules was further developed and characterized for potential applications. Four different cryogel systems were designed, and the morphological, molecular, physical and antibacterial properties were investigated. Additionally, the antimicrobial properties of PEO, alone and microcapsulated, incorporated into the cryogel network were evaluated. The observed gel structure of cryogels exhibited a highly porous morphology in the microcapsules. The highest values of the equilibrium swelling ratio were acquired for the GelCryo-ChiCap and GelCryo-PEO@ChiCap samples. The contact angle GelCryo-PEO@ChiCap sample was lower than the control (GelCryo) due to the water repelling of the essential oil. It has been found that the incorporation of encapsulated PEO into the cryogels would be more advantageous compared to its direct addition. Moreover, GelCryo-PEO@ChiCap cryogels showed the strongest antibacterial activities, especially against Staphylococcus aureus (Gram-positive bacteria) and Escherichia coli (Gram-negative bacteria). The system that was developed showed promising results, indicating an improved antibacterial efficacy and enhanced structural properties due to the presence of microcapsules. These findings suggest that the system may be an appropriate candidate for various applications, including, but not limited to, drug release, tissue engineering, and food packaging. Finally, this system demonstrates a strategy to stabilize the releasing of the volatile compounds for creating successful results.

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