Category Archives: Research

Research – A Health Threat from Farm to Fork: Shiga Toxin-Producing Escherichia coli Co-Harbouring blaNDM-1 and mcr-1 in Various Sources of the Food Supply Chain

Posted on August 11, 2024 by | Leave a comment

MDPI

Abstract

The dissemination of resistant pathogens through food supply chains poses a significant public health risk, spanning from farm to fork. This study analyzed the distribution of Shiga toxin-producing Escherichia coli (STEC) across various sources within the animal-based food supply chain. A total of 500 samples were collected from livestock, poultry, the environment, fisheries, and dairy. Standard microbiological procedures were employed to isolate and identify E. coli isolates, which were further confirmed using MALDI-TOF and virulence-associated genes (VAGs) such as stx1, stx2, ompT, hylF, iutA, fimH, and iss. The phenotypic resistance patterns of the isolates were determined using the disc diffusion method, followed by molecular identification of antibiotic resistance genes (ARGs) through PCR. STEC were subjected to PCR-based O typing using specific primers for different O types. Overall, 154 (30.5%) samples were confirmed as E. coli, of which 77 (50%) were multidrug-resistant (MDR) E. coli. Among these, 52 (67.53%) isolates exhibited an array of VAGs, and 21 (40.38%) were confirmed as STEC based on the presence of stx1 and stx2. Additionally, 12 out of 52 (23.07%) isolates were identified as non-O157 STEC co-harbouring mcr-1 and blaNDM-1. O26 STEC was found to be the most prevalent among the non-O157 types. The results suggest that the detection of STEC in food supply chains may lead to serious health consequences, particularly in developing countries with limited healthcare resources.

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Posted in Food Microbiology Research, Research, STEC, STEC E.coli

Research – Cell-free supernatant of Bacillus tequilensis reduces grey mold/mould caused by Botrytis cinerea of blueberry fruit: Inducing phenylpropanoid pathway metabolism

Posted on August 11, 2024 by | Leave a comment

Frontiers In.org

Botrytis cinerea a blueberry grey mould, is one of the main diseases affecting postharvest storage, causing significant losses. To better control the postharvest gray mould of blueberry, the effects of KXF 6501 fermentation solution (YY) and KXF6501 cell-free supernatant (SQ) on the induction of disease resistance in blueberry fruits were studied using biochemical and transcriptomic analyses. The results showed that YY and SQ controlled the conidial germination and mycelial growth of B. cinerea in vitro. After 3 d of culture, the lesion diameter and incidence of gray mould in blueberry fruits inoculated with YY and SQ were significantly smaller than those in the control group. Transcription spectrum analysis of blueberry peel tissue showed that the YY- and SQ-induced phenylpropane metabolic pathways had more differentially expressed genes (DEGs) than other biological pathways. In addition, biochemical analyses showed that YY and SQ treatments effectively enhanced the activity of enzymes related to the phenylpropane pathway (phenylalanine ammonia-lyase [PAL], cinnamate 4-hydroxylase [C4H], 4-coumarate CoA ligase [4CL], and polyphenol oxidase [PPO]) and stimulated the synthesis of lignin, total phenols, and flavonoids. Compared with the control, the YY and SQ treatments reduced the weight loss rate and better maintained the appearance and nutritional quality of the blueberry fruits. Thus, it can be concluded that Bacillus tequilensis KXF6501 is potentially useful as a suitable bio-control agent in harvested blueberries.

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Posted in Bio-Preservative, Food Microbiology Research, Mold/ MouldAscospores, Mould Toxin, Mould/Mold, Moulds, Research, Visible Mould/Mold

Research – Reimagining Sushi Safety: A Collaborative Approach to Food Standards

Posted on August 10, 2024 by | Leave a comment

Food Safety.com

The National Fisheries Institute’s newly established Sushi Council aims to enhance food safety standards in the sushi industry through collaboration and implementation of rigorous guidelines

The sushi industry has witnessed a remarkable surge in popularity worldwide, captivating the palates of millions with its unique flavors and convenience offerings. Originating from Japan, sushi has transcended cultural boundaries to become a beloved culinary delicacy enjoyed by consumers globally.

The sushi industry experienced a major surge in sales during and after the COVID-19 pandemic and is valued at over $10 billion annually, with over $3 billion from to-go sushi and $7 billion from restaurants as of 2023.1 Sushi data is not frequently broken out in supermarkets, but is consolidated in the seafood department or prepared foods department sales. A more realistic industry estimate is that the supermarket sushi-to-go market alone is worth over $5 billion annually.

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Posted in Food Microbiology Research, Food Safety, Food Safety Management, Food Safety Regulations, food safety training, Research

Singapore caterer fined S$2,100 after 37 got food poisoning at St Luke’s Eldercare Centres

Posted on August 5, 2024 by | Leave a comment

Mothership

A local caterer has been fined following a spate of food poisoning cases in 2023 that affected 37 people at four nursing homes in Singapore.

Robert Catering Services Pte Ltd was fined S$2,100 for the food safety lapses on Jul. 31, the Singapore Food Agency (SFA) said in a release.

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Posted in Food Microbiology Research, Food Poisoning, Food Poisoning Illness, Poisoning, Research

Research – Italy records almost 70 HUS cases in 12 months

Posted on August 5, 2024 by | Leave a comment

Food Safety News

Almost 70 cases of a serious condition that develops after an E. coli infection have been reported in the past year in Italy.

Hemolytic uremic syndrome (HUS) is a severe complication associated with E. coli infections that causes kidney failure.

Italian data shows that between July 1, 2023 and June 30, 2024, 68 cases of HUS were recorded.

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Posted in Food Microbiology Research, Haemolytic Uremic Syndrome, HUS, Research, STEC, STEC E.coli

Research -Biocontrol Strategy of Listeria monocytogenes in Ready-to-Eat Pork Cooked Ham Using Peptic Hydrolysates of Porcine Haemoglobin

Posted on August 4, 2024 by | Leave a comment

MDPI

Abstract

Listeria monocytogenes is a foodborne pathogen that represents a serious concern for ready-to-eat (RTE) meat products due to its persistence in production facilities. Among the different strategies for the control of this pathogen, the use of antimicrobial peptides derived from food by-products, such as slaughterhouse blood proteins, has emerged as a promising biocontrol strategy. This study evaluated for the first time the use of peptic hydrolysates of porcine hemoglobin as a biocontrol strategy of L. monocytogenes in RTE pork cooked ham. Pure porcine hemoglobin (Hb-P) and porcine cruor (P-Cru) were hydrolyzed using pepsin at different temperatures (37 °C for Hb-P and 23 °C for P-Cru) for 3 h. Then, the hydrolysates were characterized in terms of their degree of hydrolysis (DH), peptide population, color, and antimicrobial activity (in vitro and in situ) against three different serotypes of L. monocytogenes. Reducing the hydrolysis temperature of P-Cru by 14 °C resulted in a 2 percentage unit decrease in DH and some differences in the peptide composition. Nevertheless, the antimicrobial activity (in situ) was not significantly impacted, decreasing the viable count of L. monocytogenes by ~1-log and retarding their growth for 21 days at 4 °C. Although the color of the product was visibly altered, leading to more saturated reddish and yellowish tones and reduced brightness, the discoloration of the hydrolysates can be addressed. This biopreservation approach holds promise for other meat products and contributes to the circular economy concept of the meat industry by valorizing slaughterhouse blood and producing new antilisterial compounds.

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Posted in Food Microbiology Research, Listeria, Listeria monocytogenes, Research

Vibrio vulnificus, the emergence of a real danger

Posted on August 4, 2024 by | Leave a comment

ACSA

According to the European Environment Agency, increasing global sea surface temperature (SST) is one of the main physical impacts of climate change. SST in European coastal seas has increased 4–7 times faster than in the oceans over the past decades. This local increase in SST has been linked to outbreaks of Vibrio -associated human illness caused by non-O1/non-O1 Vibrio cholerae39 , V. parahaemolyticus and V. vulnificus in several European countries.

Climate change has also created new ocean currents that favour the spread of vibrios. Inadequate transport and storage of fish and fishery products over long distances, the same sea waters used by ships as ballast and aquaculture all contribute to their expansion. Travellers and animals also play a role. For example, migratory birds can act as vectors for the intercontinental transport of V. cholerae . Once introduced into a new region, they become endemic. Vibrio spp. and mainly the species V. parahaemolyticus and V. vulnificus , have been identified by the European Food Safety Authority (EFSA) as biological hazards with a high probability of becoming emerging in the near future in Europe.

Read more at the link above.

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Posted in food contamination, food handler, Food Hazard, Food Hygiene, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Quality, food recall, Food Safety, Food Safety Alert, Food Safety Management, Food Safety Regulations, Food Testing, Research

Research – Genetic Diversity in Salmonella enterica in Outbreaks of Foodborne and Zoonotic Origin in the USA in 2006–2017

Posted on August 4, 2024 by | Leave a comment

MDPI

Abstract

Whole genome sequencing is replacing traditional laboratory surveillance methods as the primary tool to track and characterize clusters and outbreaks of the foodborne and zoonotic pathogen Salmonella enterica (S. enterica). In this study, 438 S. enterica isolates representing 35 serovars and 13 broad vehicle categories from one hundred epidemiologically confirmed outbreaks were evaluated for genetic variation to develop epidemiologically relevant interpretation guidelines for Salmonella disease cluster detection. The Illumina sequences were analyzed by core genome multi-locus sequence typing (cgMLST) and screened for antimicrobial resistance (AR) determinants and plasmids. Ninety-three of the one hundred outbreaks exhibited a close allele range (less than 10 allele differences with a subset closer than 5). The remaining seven outbreaks showed increased variation, of which three were considered polyclonal. A total of 16 and 28 outbreaks, respectively, showed variations in the AR and plasmid profiles. The serovars Newport and I 4,[5],12:i:-, as well as the zoonotic and poultry product vehicles, were overrepresented among the outbreaks, showing increased variation. A close allele range in cgMLST profiles can be considered a reliable proxy for epidemiological relatedness for the vast majority of S. enterica outbreak investigations. Variations associated with mobile elements happen relatively frequently during outbreaks and could be reflective of changing selective pressures.

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Posted in food bourne outbreak, Food Microbiology Research, foodborne outbreak, foodbourne outbreak, MLST, outbreak, Research, Salmonella, Zoonosis

Research – Levels and types of microbial contaminants in different plant-based ingredients used in dairy alternatives

Posted on August 3, 2024 by | 1 comment

Science Direct

Abstract

In this study levels and types of microbial contaminants were investigated in 88 different plant-based ingredients including many that are used to manufacture dairy alternatives. Studied ingredients encompassed samples of pulses (pea, faba bean, chickpea, and mung bean), cereals/pseudocereals (oat, rice, amaranth and quinoa) and drupes (coconut, almond and cashew). The microbial analysis included: i) total viable count (TVC), ii) total aerobic mesophilic spore count (TMS), iii) heat resistant aerobic thermophilic spore count (HRTS), iv) anaerobic sulfite reducing Clostridium spore count (SRCS), and v) Bacillus cereus spore count (BCES). Microorganisms isolated from the counting plates with the highest sample dilutions were identified using 16S rRNA and MALDI-TOF MS analyses.

Many of the investigated ingredients showed a high proportion of spores as part of their total aerobic mesophilic counts. In 63 % of the samples, the difference between TVC and TMS counts was 1 Log10 unit or less. This was particularly the case for the majority of pea isolates and concentrates, faba bean isolates, oat kernels and flakes, and for single samples of chickpea isolate, almond, amaranth, rice, quinoa, and coconut flours. Concentrations of TVC ranged between <1.0 and 5.3 Log10 CFU/g in different samples, and TMS varied between <1.0 and 4.1 Log10 CFU/g. Levels of HTRS, BCES and SRCS were generally low, typically around or below the LOD of 1.0 Log10 CFU/g.

In total, 845 individual bacterial colonies were isolated belonging to 33 different genera. Bacillus licheniformis and B. cereus group strains were most frequently detected among Bacillus isolates, and these species originated primarily from pea and oat samples. Geobacillus stearothermophilus was the main species encountered as part of the HRTS. Among the Clostridium isolates, Clostridum sporogenes/tepidum were predominant species, which were mostly found in pea and almond samples. Strains with potential to cause foodborne infection or intoxication were typed using the PCR-based method for toxin genes detection. In the B. cereus group, 9 % of isolates contained the ces gene, 28 % contained hbl, 42 % cytK, and 69 % were positive for the nhe gene. Absence of the boNT-A and -B genes was confirmed for all isolated C. sporogenes/tepidum strains. Nearly all (98 %) B. licheniformis isolates were positive for the lchAA gene.

Insight into the occurrence of microbial contaminants in plant-based ingredients, combined with knowledge of their key inactivation and growth characteristics, can be used for the microbial risk assessment and effective design of plant-based food processing conditions and formulations to ensure food safety and prevent spoilage.

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Posted in Bacillus cereus, bacterial contamination, Clostridium, Clostridium sporogenes, Contaminated water, cross contamination, food contamination, Food Microbiology Research, Malditof, Mesophilic Aerobes, microbial contamination, Research

Research – Comparative Study of the Antibacterial Effects of S-Nitroso-N-acetylcysteine and Sodium Nitrite against Escherichia coli and Their Application in Beef Sausages

Posted on August 3, 2024 by | Leave a comment

MDPI

Abstract

This study investigated the antibacterial effects of S-nitroso-N-acetylcysteine (SNAC) and sodium nitrite (NaNO2) against Escherichia coli and their application in beef sausages. Both SNAC and NaNO2 demonstrated pH-responsive antibacterial activity, with SNAC showing greater efficacy than NaNO2 (p < 0.05) at the same pH (3, 5, and 7). The reactive oxygen species (ROS) and reactive nitrogen species (RNS) induced in E. coli by SNAC were significantly higher than those induced by NaNO2 (p < 0.05), and both ROS and RNS values increased as the pH decreased. In addition, a lower pH led to more pores on the E. coli cell surface and increased membrane permeability, resulting in a more pronounced inhibitory effect. When applied to a beef sausage, SNAC-treated sausages had significantly lower total colony counts and carbonyl content compared to NaNO2-treated ones (p < 0.05). Consequently, SNAC shows great potential as a replacement for NaNO2 in meat products.

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Posted in Antimicrobials, E.coli, Food Microbiology Research, Food Technology, Research, Technology