Category Archives: Research

Research – Exotic dried fruits caused Salmonella Agbeni outbreak with severe clinical presentation, Norway, December 2018 to March 2019

Posted on April 9, 2021 by | Leave a comment

Eurosurveillance

Non-typhoid salmonellosis is a gastrointestinal infection characterised by diarrhoea, nausea and occasionally vomiting and fever. In 2017, 20 confirmed salmonellosis cases per 100,000 population were reported in the European Union (EU), making it the second most commonly reported food-borne infection [1]. In Norway, it is mandatory to report all cases of salmonellosis to the Norwegian Surveillance System for Communicable Diseases (MSIS), and the medical microbiology laboratories submit  isolates to the National Reference Laboratory for Enteropathogenic Bacteria (NRL) at the Norwegian Institute of Public Health (NIPH) for confirmation and molecular epidemiological surveillance by whole genome sequencing (WGS). The incidence rate was 18 per 100,000 inhabitants in 2018

The majority of cases are travel-related, as Norway has few known domestic reservoirs. The dominating serotypes detected are  Typhimurium and  Enteritidis. Outbreaks involving different serovars of  are observed irregularly in Norway, with four national outbreaks reported in 2018.

On Tuesday 12 February 2019, the NRL identified a cluster of four  Agbeni isolates, identical by WGS. Previously, this rare serotype of  had only been reported from a few sporadic cases in Norway and from a few outbreaks in the United States (US) and Canada. The cases resided in different municipalities in Norway. The following week, three more cases were detected. The initial interviews indicated a dried fruit mix product as the possible source of the outbreak. The NIPH initiated an outbreak investigation in collaboration with the Norwegian Food Safety Authority (NFSA) and the Norwegian Veterinary Institute (NVI) to identify the source of the outbreak and implement control measures.

This article describes the outbreak investigation and public health measures, and the finding that consumption of a ready-to-eat snack product of dried exotic fruits caused the outbreak of  Agbeni in Norway.

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Posted in food bourne outbreak, food contamination, Food Hazard, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, food recall, Food Safety, Food Testing, foodborne outbreak, foodbourne outbreak, outbreak, Research, Salmonella

France – France sees increase in foodborne outbreaks

Posted on April 7, 2021 by | 1 comment

Food Safety News

French public health officials have reported a rise in the number of foodborne outbreaks in 2019 compared to the year before.

Sante publique France, the public health agency, recorded 1,783 outbreaks in the country affecting 15,641 people. In total, 609 people needed hospital treatment and 12 died. In 2018, 1,630 outbreaks were declared affecting 14,742 people.

Winter 2019 saw a spike in outbreak reports with 134 associated with the consumption of oysters reported in December alone compared to between four and 30 in December to January in previous winters.

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Posted in food bourne outbreak, food contamination, Food Hazard, Food Hygiene, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Poisoning, food recall, Food Safety, Food Safety Alert, Food Temperature Abuse, Food Testing, Food Toxin, foodborne outbreak, foodbourne outbreak, outbreak, Research

USA – FDA Releases Investigation Report Following Fall 2020 Outbreak of E. coli O157:H7 Illnesses Linked to Leafy Greens

Posted on April 7, 2021 by | Leave a comment

FDA

As part of our ongoing efforts to combat foodborne illness, today the U.S. Food and Drug Administration published a report on the investigation into the Fall 2020 outbreak of Shiga Toxin-Producing E. coli (STEC) O157:H7 illnesses linked to the consumption of leafy greens grown in the California Central Coast. The report describes findings from the investigation, as well as trends that are key to understanding leafy green outbreaks that are linked to the California Central Coast growing region, specifically encompassing the Salinas Valley and Santa Maria growing areas every fall since 2017.

We released our preliminary findings earlier this year that noted this investigation found the outbreak strain in a sample of cattle feces collected on a roadside about a mile upslope from a produce farm. This finding drew our attention once again to the role that cattle grazing on agricultural lands near leafy greens fields could have on increasing the risk of produce contamination, where contamination could be spread by water, wind or other means. In fact, the findings of foodborne illness outbreak investigations since 2013 suggest that a likely contributing factor for contamination of leafy greens has been the proximity of cattle. Cattle have been repeatedly demonstrated to be a persistent source of pathogenic E. coli, including E. coli O157:H7.

Considering this, we recommend that all growers be aware of and consider adjacent land use practices, especially as it relates to the presence of livestock, and the interface between farmland, rangeland and other agricultural areas, and conduct appropriate risk assessments and implement risk mitigation strategies, where appropriate. Increasing awareness around adjacent land use is one of the specific goals of the Leafy Greens Action Plan we released last March, which we’re also announcing is being updated today to include new activities for 2021.

During our analysis of outbreaks that have occurred each fall since 2017, we have determined there are three key trends in the contamination of leafy greens by E. coli O157:H7 in recent years: a reoccurring strain, reoccurring region and reoccurring issues with activities on adjacent land. The 2020 E. coli O157:H7 outbreak associated with leafy greens represents the latest in a repeated series of outbreaks associated with leafy greens that originated in the Central Coast of California (encompassing Salinas Valley and Santa Maria) growing region.

In the investigation, the FDA recommends that growers of leafy greens in the California Central Coast Growing Region consider this reoccurring E. coli strain a reasonably foreseeable hazard, and specifically of concern in the South Monterey County area of the Salinas Valley. It is important to note that farms covered by the Food Safety Modernization Act (FSMA) Produce Safety Rule are required to implement science and risk-based preventive measures in the rule, which includes practices that prevent the introduction of known or reasonably foreseeable hazards into or onto produce.

The FDA also recommends that the agricultural community in the California Central Coast growing region work to identify where this reoccurring strain of pathogenic E. coli is persisting and the likely routes of leafy green contamination with STEC. Specifically, we have outlined specific recommendations in our investigation report for growers in the California Central Coast leafy greens region. Those recommendations include participation in the California Longitudinal Study and the California Agricultural Neighbors workgroup. When pathogens are identified through microbiological surveys, pre-harvest or post-harvest testing, we recommend growers implement industry-led root cause analyses to determine how the contamination likely occurred and then implement appropriate prevention and verification measures.

We issued the Leafy Green Action Plan last year to foster a more urgent and collaborative approach to preventing leafy greens outbreaks caused by STEC. We have updated our plan for 2021 to include a renewed emphasis on actions to help prevent contamination from adjacent land, to include new actions that build on the accomplishments and learnings from the 2020 plan, and to renew our commitment to actions that were difficult to accomplish in 2020 due to challenges presented by the COVID-19 pandemic.

The FDA has made significant progress on our Leafy Greens Action Plan this year by enhancing prevention strategies, improving response activities by the agency and other entities, and identifying and addressing the knowledge gaps that exist around STEC contamination of leafy greens. We launched the California Longitudinal Study, developed an efficacy protocol for the development and registration of antimicrobial treatments for pre-harvest agricultural water and took critical steps to advance traceability of leafy greens. We have also conducted several focused inspections, follow-up investigations and sampling assignments.

Although the FDA is keenly focused on taking steps to help mitigate recurring leafy green contamination events, we alone cannot fix this issue. Industry leadership and collaboration among growers, processors, retailers, state partners and the broader agricultural community is critical to reducing foodborne illnesses. At the FDA, the safety of leafy greens remains a top priority, and we are committed to working with all stakeholders to address this significant public health issue and further protect consumers.

The FDA, an agency within the U.S. Department of Health and Human Services, protects the public health by assuring the safety, effectiveness, and security of human and veterinary drugs, vaccines and other biological products for human use, and medical devices. The agency also is responsible for the safety and security of our nation’s food supply, cosmetics, dietary supplements, products that give off electronic radiation, and for regulating tobacco products.

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Posted in E.coli O157, E.coli O157:H7, food bourne outbreak, food contamination, Food Hazard, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Poisoning, food recall, Food Safety, Food Safety Alert, Food Testing, Food Toxin, foodborne outbreak, foodbourne outbreak, outbreak, Research, STEC, STEC E.coli

Research – Isolation and characterization of a virulent bacteriophage for controlling Salmonella enteritidis growth in ready-to-eat mixed-ingredient salads

Posted on April 6, 2021 by | Leave a comment

Journal of Food Protection

Recently, ready-to-eat vegetable salads have gained popularity worldwide. However, the microbial safety of ready-to-eat salads is a health concern, primarily due to Salmonella enteritidis contamination during the growing, harvesting, processing, and handling of produce. This study aimed to develop a bacteriophage-based strategy to control S. enteritidis growth in mixed-ingredient salads. A lytic Salmonella-specific phage SapYZU01 was isolated from a soil sample from a suburban vegetable field in Yangzhou, China. SapYZU01 exhibited characteristics such as a short latent period, a large burst size, and a lytic effect against 13 S. enteritidis strains isolated from various sources (human, pork, deli, chicken, and chicken meat). The SapYZU01 genome did not contain virulence or antibiotic resistance genes. SapYZU01 significantly decreased the viability of S. enteritidis cells in iceberg lettuce, chicken meat, and mixed-ingredient (lettuce+chicken) salads at 37 and 25 °C. Furthermore, bacterial counts in the salad decreased significantly (by 4.0 log colony-forming units (CFU)/g) at 25 °C upon treatment of contaminated lettuce with SapYZU01 at an MOI of 100 prior to salad preparation. Bacterial counts were decreased by 3.8 log CFU/g at 25 °C in (lettuce+chicken) salads treated with SapYZU01 at an MOI of 100 after the salad preparation. In contrast, treating cooked chicken meat with SapYZU01 at an MOI of 100 before mixing it with contaminated lettuce decreased the bacterial count of the salad by 1.2 log CFU/g at 25 °C. These findings indicate the potential application of SapYZU01 as a natural biocontrol agent against S. enteritidis in mixed-ingredient salads. Furthermore, the application of lytic bacteriophage SapYZU01 in mix-ingredient salads should considered the bacteriophage treatment method in addition to the bacteriophage concentration.

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Posted in Bacteriophage, Food Micro Blog, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, microbial contamination, Microbiology, Research, Salmonella, Technology

Research – Pioneering project describes molecular epidemiology of listeriosis in humans and Listeria monocytogenes in food

Posted on April 3, 2021 by | Leave a comment

ECDC

A collaborative study between ECDC, the European Food Safety Authority (EFSA) and the European Union Reference Laboratory (EURL) for Listeria monocytogenes* found a relatively high degree of dissemination of certain listeriosis bacteria in the food chain and in the human population across the European Union (EU). In particular, there was a strong link with ready-to-eat fish products in several of the listeriosis clusters identified.

Listeriosis is a foodborne disease caused by L. monocytogenes bacteria. After ingestion of L. monocytogenes bacteria via contaminated food, infection can cause severe, life-threatening disease, often manifested as septicaemia and/or meningitis, particularly among elderly and immunocompromised people, as well as complications related to pregnancy.

The collaborative study, called ‘the European Listeria Typing Exercise’ (ELiTE), was initiated in 2010 with the aim of describing with a One Health approach the molecular epidemiology of listeriosis in humans and food in a two-year period. The study connected data about public health and food from 13 and 23 EU Member States, respectively. The study on L. monocytogenes in food was conducted on three categories of ready-to-eat food: packaged hot or cold smoked or ‘gravad’ (cured) fish, soft or semi-soft cheeses, and packaged heat-treated meat products.

The study has utilised molecular typing, which is a way of identifying specific strains of microorganisms, such as bacteria or viruses, by looking at their genetic material. The selected molecular typing method for this project, pulsed field gel electrophoresis (PFGE), was a well-established, standardised molecular typing method in both sectors at the time of the study and was therefore a natural choice.

PFGE as a molecular typing method is gradually phasing out and is being replaced by the state-of-the-art method of whole genome sequencing (WGS). The project has bridged the PFGE method with WGS method by mapping the clustering PFGE types with respective clonal complexes (CCs) characterised by WGS. This offers a unique reference with information from historical PFGE cluster types linked to WGS, thus enabling countries to make use of historical PFGE data to select isolates for further characterisation by WGS. A cluster means that isolates are genetically very similar, i.e. they most likely originate from a common source. If human and food isolates are gathered in the same cluster, it is a strong, but not definite, indication that the food may have caused the infections. Microbiological evidence alone is not sufficient to link the food with human infections, and supportive epidemiological evidence is always required.

There were 78 separate clusters by PFGE profiles, involving 573 (57.7%) L. monocytogenes isolates in the study dataset. Of these, 21 included both human and food L. monocytogenes isolates, 47 included only human, and 10 only food isolates. In the 21 human-food clusters, the majority of food isolates (89.7%) were from fish products, whereas the remaining ones originated from delicatessen meat products (9.3%) and cheese products (1.0%). The amount of Listeria in fish products was generally low, but in 48 fish samples Listeria counts exceeded the microbiological criterion of 100 cfu/g. These high-count fish samples represented 87.3% of all food samples (55) with Listeria counts exceeding 100 cfu/g.

Of 78 clusters by PFGE profiles, 57 (73.1%) were small, up to five L. monocytogenes isolates per cluster. The largest PFGE cluster was made up of L. monocytogenes clone CC8. The cluster involved 30 human and 56 food L. monocytogenes isolates from 15 countries, suggesting a high degree of dissemination of this clone in the food chain in the EU. In contrast, considering the capacity of Listeria to persist in the food chain for years, this clone is likely to eventually cause large cross-border food-borne outbreaks.

The results from this project show that the risk of L. monocytogenes in ready-to-eat fish products requires further attention. A review of the compliance of food business operators with regulatory microbiological criteria could be considered, particularly for fish products. In the EU and the European Economic Area (EEA) there is an increasing proportion of aged populations, and challenges related to assessing exposure in this group. A genetic library of food-derived L. monocytogenes isolates against which any human isolate could be compared could maximise the speed of source identification in outbreak investigations. The data collected in this study and the applied methodology provide a good background for such a library.

*Hosted by the French Agency for Food, Environmental and Occupational Health & Safety, ANSES

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Listeria, Listeria monocytogenes, microbial contamination, Microbiological Risk Assessment, Microbiology, Research

Singapore – Launch of newmyENVmobile app to provide integrated informationand services for the environment, water and food

Posted on April 1, 2021 by | Leave a comment

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Safety, Food Safety Alert, Research, Water Safety

Australia- Food Recall Statistics – 2020

Posted on March 29, 2021 by | Leave a comment

FSANZ

Why do we collect food recall data?

We collect data on Australian food recalls to identify trends and common issues in the food industry and help find ways to prevent future incidents.

An analysis of annual food recall statistics for the last 10 years is below. For statistics on allergen-related recalls see Undeclared allergen food recall statistics. Our statistics are updated annually.

Classification of food recalls

We classify food recalls based on the reason for the recall. Reasons include:

  • Microbial contamination
  • Labelling
  • Foreign matter
  • Chemical/other contaminants
  • Undeclared allergen
  • Biotoxin
  • Other

Food recall statistics (1 January 2011 – 31 December 2020)

Figure 1: Food recalls by year 2011-2020

Fig 1.png

Between 2011 and 2020, FSANZ coordinated 763 recalls, including 109 recalls in 2020 (see Figure 1). The 10-year average increased from 71 to 76 recalls per year.

Microbial contamination food recalls

Figure 6Food recalls due to microbial contamination by microbe 2011-2020

 Fig 6.png

Between 2011 and 2020 there were 195 food recalls due to microbial contamination (see Table 1). As shown in Figure 6, the most common microbes were Listeria monocytogenes (65 recalls; 33%), Salmonella (48 recalls; 25%) and E. coli (42 recalls; 22%). Salmonella related recalls increased in 2020 due to multiple recalls associated with lettuce products.

Meat and meat products, dairy products and mixed and/or processed foods were the main food groups recalled due to Listeria monocytogenes contamination. The food industry and government place a high priority on Listeria management in these sectors and undertake extensive product testing to monitor for contamination.

A wide range of foods are recalled due to Salmonella contamination. Eggs and fruits, vegetables and herbs were the most commonly recalled categories. Fruits, vegetables and herbs recalled due to Salmonella included lettuce, sprouts, rockmelon and dried herbs.

Dairy products are more commonly recalled due to concerns with process hygiene, indicated through E. coli testing, than other categories of food. Other products commonly recalled for E. coli include fresh sprouts and fermented sausages.

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Posted in E.coli, food contamination, Food Hazard, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Poisoning, food recall, Food Safety, Food Testing, Food Toxin, FSANZ, Listeria, Listeria monocytogenes, Recall, Research, Salmonella

Research – Risk of Legionella is high when offices reopen after lockdown

Posted on March 28, 2021 by | Leave a comment

Digital Journal

Once more offices open up, following the easing of coronavirus measures, a new danger presents itself – Legionnaires’ disease. This arises because of poorly maintained water and air conditioning systems.

The number of cases of Legionella is increasing globally, with a marked change recorded in the U.S. The number of cases now stands, typically, at 10,000 cases per year. The disease is a form of pneumonia caused by Legionella bacteria (L. pneumophila). These organisms can be inhaled into the lungs through water aerosols and droplet, suspended in the air when water is used. Signs and symptoms typically include fever, cough, and chest pain, and it can result in death in up to 10 percent of cases.

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Posted in Contaminated water, Cooling Towers, Food Micro Blog, Food Microbiology Blog, Food Microbiology Research, microbial contamination, Microbiology, Research, Water, water microbiology, Water Safety

Research – Can bacterial viruses improve the microbiological safety of raw milk cheeses?

Posted on March 27, 2021 by | Leave a comment

Harper Adams

Harper Adams University research is exploring a biological control method to improve the safety of popular Egyptian cheeses produced from raw cows’ milk.

The work is being conducted by Sherif Kandil, a PhD student and scholar sponsored by the Newton Mosharafa Fund. Sherif is in the final year of a three-year study, directed by Dr Lynn McIntyre, Senior Lecturer in Food Safety in the Department of Food Technology and Innovation.

Dr McIntyre explained: “The project was prompted by a number of foodborne outbreaks and prevalence data showing high levels of Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli) in raw milk in Egypt.

“Cheeses made from raw cows’ milk, such as Karish, Domiatti and Ras, are popular in Egypt and Arab countries. Their strong flavour is produced by naturally occurring microorganisms in raw milk rather than the deliberate addition of starter culture organisms. However, their production also relies on smallholders in rural areas who make and store cheese under potentially uncontrolled hygiene and temperature conditions’’ Sherif added. Therefore, the growth of a variety of disease-causing (pathogenic) bacteria such as S. aureus and E. coli can be a real problem.

“These pathogens are also developing some resistance to antibiotics, but pasteurisation, normally used to kill pathogenic bacteria in raw milk, would also kill the desirable microorganisms and alter the flavours, which may be unacceptable to the consumer.”

Bacteriophages are highly specific viruses, which, unlike antibiotics, can selectively kill target bacterial species without affecting the desirable microorganisms. These could therefore have potential to target and control the disease-causing bacteria in raw cows’ milk cheeses, “an area that has not received much attention to date” according to Sherif.

For his study, Sherif collected 100 raw cows’ milk samples and processed them using a standard method to isolate and identify strains of S. aureus and E. coli in the Princess Margaret Laboratories, at Harper Adams University.

Karish, Domiatti and Ras cheeses have been successfully produced from raw cows’ milk on a small-lab-scale using traditional production methods, and their properties characterised during manufacture and storage.

A range of conditions, based on these data, has also been tested to understand how the bacteriophages behave under conditions they will be exposed to during cheese production. The last phase this year will evaluate how effective these phages are at controlling S. aureus and E. coli in milk and during further lab-scale cheese manufacture and storage.

“There is increasing interest in controlling pathogenic bacteria in food using natural non-thermal approaches without compromising the manufacturing process and product quality,” Dr McIntyre added. “We are not immune to these food safety challenges in the UK, and much of what we’ve been investigating in this project could also be applied to raw milk cheese production here.”

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Posted in Bacterial Toxin, Bacteriophage, E.coli, Food Microbiology Research, Research, Staphylococcus aureus, STEC, STEC E.coli, Toxin

Rsearch – Saudi Arabia – INVESTIGATING RIYADH’S PUBLIC HEALTH INSPECTORS’ ABILITY TO CONDUCT RISK-BASED FOOD INSPECTION, AND THEIR PROFESSIONAL NEEDS

Posted on March 27, 2021 by | Leave a comment

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, microbial contamination, Microbiological Risk Assessment, Microbiology, Research