Formulation, physicochemical characterization, and anti- E. coli activity of food-grade nanoemulsions incorporating clove, cinnamon, and lavender essential oils

•Essential oils are sensitive but efficient antimicrobial agents.•Formulation of EOs mixture in nanoemulsion was carried out.•Obtained nanoemulsions exhibited suitable physicochemical stability.•Achieved nanoemulsions proved an excellent anti-E. coli activity. This research studies the application o...

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Veröffentlicht in:	Food chemistry 2021-10, Vol.359, p.129963-129963, Article 129963
Hauptverfasser:	Falleh, Hanen, Jemaa, Mariem Ben, Neves, Marcos A., Isoda, Hiroko, Nakajima, Mitsutoshi, Ksouri, Riadh
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Sprache:	eng
Schlagworte:	Anti-E. coli activity Essential oil mixture Nanoemulsion Physicochemical characterization
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container_title	Food chemistry
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creator	Falleh, Hanen Jemaa, Mariem Ben Neves, Marcos A. Isoda, Hiroko Nakajima, Mitsutoshi Ksouri, Riadh
description	•Essential oils are sensitive but efficient antimicrobial agents.•Formulation of EOs mixture in nanoemulsion was carried out.•Obtained nanoemulsions exhibited suitable physicochemical stability.•Achieved nanoemulsions proved an excellent anti-E. coli activity. This research studies the application of a specific nanoemulsion as anti-Escherichia coli agent. The specific mixture was generated by a simplex-centroid design. Physicochemical parameters such as droplet average diameter, pH, viscosity, density, turbidity, whitening index, refractive index, stability (thermal, physical, and osmotic stability), and antibacterial activity kinetic, have been assessed. The mixture nanoemulsions had droplet diameters significantly smaller than those of clove or cinnamon nanoemulsions. Individual and mixture essential oils nanoemulsion exhibited appropriate stability under pH, thermal, and ionic stress as well as after mid-term storage. Antibacterial activity kinetic revealed the fast and pronounced efficacy of mixture nanoemulsions on E. coli (reach 98% of growth inhibition), especially for the nanoemulsion composed of 50% essential oil in the dispersed phase upon 20 days of storage. All data considered, the actual work evidences the promising advantages of using specific nanoemulsions as delivery systems of antibacterial agents in the beverage and food industry.
doi_str_mv	10.1016/j.foodchem.2021.129963
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subjects	Anti-E. coli activity Essential oil mixture Nanoemulsion Physicochemical characterization
title	Formulation, physicochemical characterization, and anti- E. coli activity of food-grade nanoemulsions incorporating clove, cinnamon, and lavender essential oils
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