Effect of the matrix system in the delivery and in vitro bioactivity of microencapsulated Oregano essential oil

The effect of encapsulating matrix on retention, protection and delivery of Oregano essential oil (EO) was studied. EO was encapsulated in rice starch porous spheres, inulin and gelatine/sucrose capsules by spray drying. Gelatine/sucrose matrix was also dried by freeze drying. Experimental designs were applied to test the effect of bonding agents and solids content for rice starch and drying temperature and solids content for inulin and gelatine/sucrose systems. The ratio of gelatine/sucrose was also tested. EO was identified (confocal laser scanning microscopy and FT-IR) in all tested matrices and the release profiles, antioxidant activity and antimicrobial activity of encapsulates evaluated. Results showed that the three tested materials are able to encapsulate Oregano EO. Higher diffusion coefficients were obtained for starch microcapsules (about 10−13 m2/s) followed by spray-dried gelatine/sucrose systems (about 10−15 m2/s) and inulin microcapsules (about 10−16 m2/s). Gelatine/sucrose microparticles exhibit high antioxidant and antimicrobial activity while inulin and rice starch microencapsulates ensure higher stability.

► Retention, protection and delivery of encapsulated Oregano essential oil was studied.
► Essential oil was encapsulated in rice starch porous spheres, inulin and gelatine/sucrose capsules.
► The bioactivity of each system could be improved by manipulating different processing parameters.
► Increasing diffusion coefficients were observed from inulin microcapsules to starch microspheres.
► Inulin and rice starch microencapsulates ensure higher stability of the core.