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Alginate hydrogel beads containing Thymus daenensis essential oils/Glycyrrhizic acid loaded in β-cyclodextrin. Investigation of structural, antioxidant/antimicrobial properties and release assessment

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Abstract In this study, glycyrrhizic acid (GA) (extracted from licorice root) and Thymus daenensis essential oils (Td-EO) were loaded into s-cyclodextrin (s-CD) and subsequently, were co-encapsulated with alginate to produce… Click to show full abstract

Abstract In this study, glycyrrhizic acid (GA) (extracted from licorice root) and Thymus daenensis essential oils (Td-EO) were loaded into s-cyclodextrin (s-CD) and subsequently, were co-encapsulated with alginate to produce active alginate hydrogel beads. The structural properties, antioxidant activity, and antimicrobial features of alginate hydrogel beads incorporated with GA and Td-EO active ingredients were evaluated. The structural properties of hydrogels were analyzed using FTIR, DSC, SEM, and DLS techniques. FTIR analysis indicated no significant interaction between GA/Td-EO active agents and functional groups of alginate, resulting in an easy release of Td-EO and GA from the hydrogels. A maximum swelling capacity of ∼610.3 % was obtained for alginate beads at ambient temperature. The encapsulation efficiency and loading capacity of GA/Td-EO for the hydrogel beads were in a range of between 89.12-94.06, and 1.04-3.12, respectively. Incorporation of GA and Td-EO in hydrogel beads improved antioxidant activity. Investigating the in vitro antibacterial activity of alginate beads against S. aureus (Gram-positive), and E. coli (Gram-negative) showed a high inhibition zone (21.00±1.38 mm) for S. aureus. The release of Td-EO and GA from alginate beads in the simulated gastric fluid (SGF) (pH 1.2) and simulated intestinal fluids (SIF) (pH 7.4) at 37 °C were studied. In the SIF medium, a high rate release of both Td-EO and GA was observed. Release of Td-EO and GA from alginate beads can be considered as a promising candidate in designing intelligent drug carrier with intestinal release activity.

Keywords: alginate; glycyrrhizic acid; hydrogel beads; alginate hydrogel; release

Journal Title: Journal of Molecular Liquids
Year Published: 2021

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