Physical and Antimicrobial
Properties of Peppermint
Oil Nanoemulsions
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Abstract
The mixture of peppermint oil (PO) with medium-chain
triacylglycerol
was emulsified in water and stabilized with a food-grade biopolymer,
modified starch, to form PO nanoemulsions. The effects of emulsifying
conditions including homogenization pressure, the number of processing
cycles, and oil loading on the mean diameters and viscosities of nanoemulsions
were characterized by dynamic light scattering, optical microscopy,
and rheological measurements. The formulated PO nanoemulsions with
mean diameters normally <200 nm showed high stability over at least
30 days of storage time. Their antimicrobial properties related to
those of PO have also been evaluated by two assays, the minimum inhibitory
concentration (MIC) and time-kill dynamic processes, against two Gram-positive
bacterial strains of Listeria monocytogenes Scott A and Staphylococcus aureus ATCC 25923. Compared with bulk PO, the PO nanoemulsions showed prolonged
antibacterial activities. The results suggest that the nanoemulsion
technology can provide novel applications of essential oils in extending
the shelf life of aqueous food products