Effect of Non-thermal Atmospheric Plasma on Viability and Histamine-Producing Activity of Psychotrophic Bacteria in Mackerel Fillets.

Annachiara Berardinelli,Chiara Cevoli,Matilde Cecchini,Luigi Ragni,Marcello Trevisani

doi:10.3389/fmicb.2021.653597

Annachiara Berardinelli, Chiara Cevoli + Show 3 more

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https://doi.org/10.3389/fmicb.2021.653597

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Abstract

Non-thermal atmospheric plasma (NTAP) has gained attention as a decontamination and shelf-life extension technology. In this study its effect on psychrotrophic histamine-producing bacteria (HPB) and histamine formation in fish stored at 0–5°C was evaluated. Mackerel filets were artificially inoculated with Morganella psychrotolerans and Photobacterium phosphoreum and exposed to NTAP to evaluate its effect on their viability and the histidine decarboxylase (HDC) activity in broth cultures and the accumulation of histamine in fish samples, stored on melting ice or at fridge temperature (5°C). NTAP treatment was made under wet conditions for 30 min, using a dielectric barrier discharge (DBD) reactor. The voltage output was characterized by a peak-to-peak value of 13.8 kV (fundamental frequency around 12.7 KHz). This treatment resulted in a significant reduction of the number of M. psychrotolerans and P. phosphoreum (≈3 log cfu/cm2) on skin samples that have been prewashed with surfactant (SDS) or SDS and lactic acid. A marked reduction of their histamine-producing potential was also observed in HDC broth incubated at either 20 or 5°C. Lower accumulation of histamine was observed in NTAP-treated mackerel filets that have been inoculated with M. psychrotolerans or P. phosphoreum and pre-washed with either normal saline or SDS solution (0.05% w/v) and stored at 5°C for 10 days. Mean histamine level in treated and control groups for the samples inoculated with either M. psychrotolerans or P. phosphoreum (≈5 log cfu/g) varied from 7 to 32 and from 49 to 66 μg/g, respectively. No synergistic effect of SDS was observed in the challenge test on meat samples. Any detectable amount of histamine was produced in the meat samples held at melting ice temperature (0–2°C) for 7 days. The effects of NTAP on the quality properties of mackerel’s filets were negligible, whereas its effect on the psychrotrophic HPB might be useful when time and environmental conditions are challenging for the cool-keeping capacity throughout the transport/storage period.

Highlights

Histamine is a biogenic amine and can be produced during processing and/or storage in fish, usually by the action of spoilage bacteria
According to the European Food Safety Authority and the European Centre for Disease Prevention and Control, 599 histamine food poisoning outbreaks were notified in the European Union (EU) during the period 2010–17 and levels of more than 3,000 ppm have been recorded in fish products implicated in outbreaks of histamine poisoning (European Food Safety Authority (EFSA), 2017; European Food Safety Authority (EFSA) and European Centre for Disease Prevention and Control (ECDC), 2018)
The objective of this work was to investigate the effect of Non-thermal atmospheric plasma (NTAP) and the synergic activity of sodium dodecyl sulfate (SDS) and lactic acid against the potential of histamine production of M. psychrotolerans and P. phosphoreum in order to explore its possible use in the processing of fresh fish

Summary

Introduction

Histamine is a biogenic amine and can be produced during processing and/or storage in fish, usually by the action of spoilage bacteria. The intoxication by histamine occurs after the consumption of fish and fish products containing histamine at concentrations higher than 500 ppm (Gonzaga et al, 2009; Tao et al, 2011). Histamine accumulates in the tissues due to the enzymatic activity of bacteria that have contaminated the fish meat and reaches the highest concentrations in fish containing high levels of free histidine. The HDC activity is correlated with the levels of contamination and the HDC potential of bacteria Small fishes such as mackerels are stored on-board without bleeding or gutting and are chilled to achieve a temperature close to that of melting ice. The storage can be in fish boxes or tubs with ice, in mixture with seawater or freshwater. In order to maintain the cold chain re-icing and removal of melted ice through drainage hole of the containers are periodically made, but the coolingkeeping process could be challenged during transport and storage (EFSA Biohaz Panel et al, 2020)

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