Abstract
Essential oils (EOs) are technological options that may be employed in natural foods due to their antimicrobial activities. However, restrictions exist when high EOs concentrations are required which, in their turn, affect sensory qualities. Technological alternatives, such as combination of EOs with chelating and dispersing agents, have been proposed in the literature. Current research determined the antimicrobial activity of cinnamon EO against microbial spoilage in yogurt when added at the highest acceptable sensory EO concentration, alone or associated with ethylenediaminetetraacetic acid (EDTA) and/or polyethylene glycol. Cinnamon EO´s chemical analysis was performed by gas chromatography-mass spectrometry (GC-MS). Sensory analysis was conducted to define the highest acceptable sensory concentration of cinnamon EO in yogurt, stipulated at 0.04% cinnamon EO. Antimicrobial activity in yogurt was then evaluated for aerobic mesophiles, psychrotrophilic microorganisms, yeasts and molds counts. Treatments comprised (1) control, (2) 0.04% EO, (3) 0.04% EO + 0.01% EDTA, (4) 0.04% EO + 0.02% polyethylene glycol; (5) 0.04% EO + 0.01% EDTA + 0.2% polyethylene glycol, in triplicates. Concentration 0.04% of cinnamon EO, alone or associated with EDTA and/or polyethylene glycol, failed to show any antimicrobial activity against aerobic mesophiles, yeasts and molds.
Highlights
Foods must be protected against microbial spoilage during their shelf life and should be pathogen-free
Cinnamon (Cinnamomum zeylanicum) Essential oils (EOs) was achieved by steam distillation in a Clevenger-type apparatus (MA480 - Marconi) and its density was evaluated by weighing a volume of 1 mL (FONSECA; LIBRAND, 2008)
Cinnamon EO has a density of 1.0049 g mL-1
Summary
Foods must be protected against microbial spoilage during their shelf life and should be pathogen-free. Since the demand for safe and natural products, without chemical preservatives, has increased among. Technology consumers, research evaluating alternative techniques to preserve their microbiological quality and keeping their nutritional and sensory properties is on the increase (GOÑI et al, 2009). 99-104, Jan.-Mar., 2015 have a broad-spectrum activity against bacteria, viruses, fungi, parasites and insects and may be potentially applied in pharmaceutical, sanitary, cosmetic, agriculture and food industries. Due to their extraction procedure, generally by steam distillation, they contain a variety of volatile molecules such as terpenes, terpenoids, aromatic compounds derived from phenol, and aliphatic components (BAKKALI et al, 2008)
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