Enhanced bacterial inactivation in apple juice by synergistic interactions between phenolic acids and mild food processing technologies

Article


de Oliveira, E., Nguyen, C., Stepanian, K., Cossu, A. and Nitin, N. 2019. Enhanced bacterial inactivation in apple juice by synergistic interactions between phenolic acids and mild food processing technologies. Innovative Food Science and Emerging Technologies. 56. https://doi.org/10.1016/j.ifset.2019.102186
TypeArticle
TitleEnhanced bacterial inactivation in apple juice by synergistic interactions between phenolic acids and mild food processing technologies
Authorsde Oliveira, E., Nguyen, C., Stepanian, K., Cossu, A. and Nitin, N.
Abstract

This study demonstrated an innovative processing approach based on synergistic antimicrobial activity of two phenolic acids with mild thermal and non-thermal processing technologies. The two selected model phenolic acids were gallic acid (GA; 10 mM) and ferulic acid (FA; 1 mM). The processing technologies evaluated for processing of a model clarified apple juice were UV-A light, mild heat (55 °C) and moderate pressure (250 MPa), with processing times ranging from 1 to 30 min. The results demonstrated that combinations of selected phenolic acids and a mild physical processing were able to lower E. coli O157:H7 and Listeria innocua counts from 6-log CFU mL−1 to below the detection limit of 1-log CFU mL−1. Bacterial inactivation was significantly enhanced by the combination of UV-A light processing and FA, where 10 min of treatment enhanced bacterial inactivation by 5-log as compared to light processing alone, which presented no bacterial inactivation. In contrast, the combination of GA and mild-temperature thermal processing (55 °C) or mild-levels of high-pressure processing (250 MPa), enhanced bacterial inactivation by 4-log as compared to the physical treatments alone, which presented only 1-log of inactivation. The influence of these synergistic combinations on bacterial membrane damage was assessed by selective plating technique under osmotic pressure. Furthermore, the total intracellular thiol content was also measured to assess for thiol oxidation. Overall, the results demonstrated enhanced bacterial inactivation based on synergistic interactions of selected phenolic acids with both mild-thermal and non-thermal technologies in a model food system and illustrate potential to create diversity of novel antimicrobial strategies for food processing.

PublisherElsevier
JournalInnovative Food Science and Emerging Technologies
ISSN1466-8564
Electronic1878-5522
Publication dates
Online26 Jun 2019
Print31 Aug 2019
Publication process dates
Deposited25 Nov 2019
Accepted25 Jun 2019
Output statusPublished
Digital Object Identifier (DOI)https://doi.org/10.1016/j.ifset.2019.102186
Scopus EID2-s2.0-85068387963
Web of Science identifierWOS:000481724200011
LanguageEnglish
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