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Development of an experimental apparatus and protocol for determining antimicrobial activities of gaseous plant essential oils

Authors
Seo, Hyun-SunBeuchat, Larry R.Kim, HoikyungRyu, Jee-Hoon
Issue Date
23-12월-2015
Publisher
ELSEVIER
Keywords
Antimicrobial; Gaseous essential oils; Escherichia coli O157:H7; Minimal inhibitory concentration; Minimal lethal concentration
Citation
INTERNATIONAL JOURNAL OF FOOD MICROBIOLOGY, v.215, pp.95 - 100
Indexed
SCIE
SCOPUS
Journal Title
INTERNATIONAL JOURNAL OF FOOD MICROBIOLOGY
Volume
215
Start Page
95
End Page
100
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/91543
DOI
10.1016/j.ijfoodmicro.2015.08.021
ISSN
0168-1605
Abstract
There is a growing interest in the use of naturally-occurring antimicrobial agents such as plant essential oils (EOs) to inhibit the growth of hazardous and spoilage microorganisms in foods. Gaseous EOs (EO gases) have many potential applications in the food industry, including use as antimicrobial agents in food packaging materials and sanitizing agents for foods and food-contact surfaces, and in food processing environments. Despite the potentially beneficial applications of EO gases, there is no standard method to evaluate their antimicrobial activities. Thus, the present study was aimed at developing an experimental apparatus and protocol to determine the minimal inhibitory concentration (MIC) and minimal lethal concentration (MLC) of EO gases against microorganisms. A sealed experimental apparatus was constructed for simultaneous evaluation of antimicrobial activities of EO gases at different concentrations without creating concentration gradients. A differential medium was then evaluated in which a color change allowed for the determination of growth of glucose-fermenting microorganisms. Lastly, an experimental protocol for the assessment of MIC and MLC values of EO gases was developed, and these values were determined for 31 EO gases against Escherichia coli O157:H7 as a model bacterium. Results showed that cinnamon bark EO gas had the lowest MIC (0.0391 mu l/ml), followed by thyme-thymol EO gas (0.0781 mu l/ml), oregano EO gas (0.3125 mu l/ml), peppermint EO gas (0.6250 mu l/ml), and thyme-linalool EO gas (0.6250 mu l/ml). The order of the MLC values of the EO gases against the E. coli O157:H7 was thyme-thymol (0.0781 mu l/ml) < cinnamon bark (0.1563 mu l/ml) < oregano (0.3125 mu l/ml) < peppermint (0.6250 mu l/ml) = thyme-linalool (0.6250 mu l/ml). The experimental apparatus and protocol enable rapid and accurate determination of the MIC and MLC values of EO gases and perhaps other types of gaseous antimicrobial agents. (C) 2015 Elsevier B.V. All rights reserved.
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