Limonene nanoemulsified with soya lecithin reduces the intensity of non-isothermal treatments for inactivation of Listeria monocytogenes

Consumers’ demands for ready-to-eat, fresh-like products are on the rise during the last years. This type of products have minimal processing conditions that can enable the survival and replication of pathogenic microorganisms. Among them, Listeria monocytogenes is of special concern, due to its rel...

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Bibliographic Details
Published in:Scientific reports 2020-02, Vol.10 (1), p.3656-3656, Article 3656
Main Authors: Garre, Alberto, Espín, Jennifer F., Huertas, Juan-Pablo, Periago, Paula M., Palop, Alfredo
Format: Article
Language:English
Subjects:
631/326/22
631/326/2522
Acclimation
Acclimatization
Emulsions
Essential oils
Food industry
Glycine max - chemistry
Hot Temperature
Humanities and Social Sciences
Inactivation
Lecithin
Lecithins - chemistry
Lecithins - pharmacology
Limonene
Limonene - chemistry
Limonene - pharmacology
Listeria
Listeria monocytogenes
Listeria monocytogenes - growth & development
Microbial Viability - drug effects
Microorganisms
multidisciplinary
Refrigeration
Science
Science (multidisciplinary)
Thermal stress
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Summary:Consumers’ demands for ready-to-eat, fresh-like products are on the rise during the last years. This type of products have minimal processing conditions that can enable the survival and replication of pathogenic microorganisms. Among them, Listeria monocytogenes is of special concern, due to its relatively high mortality rate and its ability to replicate under refrigeration conditions. Previous research works have shown that nanoemulsified essential oils in combination with thermal treatments are effective for inactivating L. monocytogenes . However, previous research works were limited to isothermal conditions, whereas actual processing conditions in industry are dynamic. Under dynamic conditions, microorganism can respond unexpectedly to the thermal stress (e.g. adaptation, acclimation or increased sensitivity). In this work, we assess the combination of nanoemulsified D -limonene with thermal treatments under isothermal and dynamic conditions. The nanoemulsion was prepared following an innovative methodology using soya lecithin, a natural compound as well as the essential oil. Under isothermal heating conditions, the addition of the antimicrobial enables a reduction of the treatment time by a factor of 25. For time-varying treatments, dynamic effects were relevant. Treatments with a high heating rate (20 °C/min) are more effective than those with a slow heating rate (1 °C/min). This investigation demonstrates that the addition of nanoemulsified D -limonene can greatly reduce the intensity of the thermal treatments currently applied in the food industry. Hence, it can improve the product quality without impacting its safety.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-60571-9