Category Archives: Food Microbiology Research

Research – ‘Jelly’ ice cubes could revolutionize cold storage and the safety of cold food

Posted on December 30, 2021 by | Leave a comment

Food Safety News

Researchers at the University of California-Davis have developed a new type of cooling cube with the potential, they say, to transform how cold storage is done.

The benefits of plastic-free, “jelly ice cubes” are that they do not melt, are compostable and antimicrobial, and can help prevent cross-contamination.

It can be easy for foodservice operators and their employees not to think about the food safety implications of how ice is used and handled. If they don’t take proper precautionary measures to handle food properly or keep up with necessary preventive maintenance measures to ensure that their ice machines are clean, sanitary and operating safely, there can be serious food safety risks. The researchers at the UC-Davis took note of this concern.

The researchers began working on their coolant cubes after Luxin Wang, an associate professor in the Department of Food Science and Technology, saw the amount of ice used at fish-processing plants and the cross-contamination that meltwater could spread among products or drains.

“The amount of ice used by these fish-processing sites is massive,” Wang said. “We need to control the pathogens.”

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Posted in Decontamination Microbial, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Safety, Food Technology, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research, Technology

Research – Sustainable food packaging that keeps harmful microorganisms away

Posted on December 30, 2021 by | Leave a comment

ACS

Abstract Image

Active food packaging materials that are sustainable, biodegradable, and capable of precise delivery of antimicrobial active ingredients (AIs) are in high demand. Here, we report the development of novel enzyme- and relative humidity (RH)-responsive antimicrobial fibers with an average diameter of 225 ± 50 nm, which can be deposited as a functional layer for packaging materials. Cellulose nanocrystals (CNCs), zein (protein), and starch were electrospun to form multistimuli-responsive fibers that incorporated a cocktail of both free nature-derived antimicrobials such as thyme oil, citric acid, and nisin and cyclodextrin-inclusion complexes (CD-ICs) of thyme oil, sorbic acid, and nisin. The multistimuli-responsive fibers were designed to release the free AIs and CD-ICs of AIs in response to enzyme and RH triggers, respectively. Enzyme-responsive release of free AIs is achieved due to the degradation of selected polymers, forming the backbone of the fibers. For instance, protease enzyme can degrade zein polymer, further accelerating the release of AIs from the fibers. Similarly, RH-responsive release is obtained due to the unique chemical nature of CD-ICs, enabling the release of AIs from the cavity at high RH. The successful synthesis of CD-ICs of AIs and incorporation of antimicrobials in the structure of the multistimuli-responsive fibers were confirmed by X-ray diffraction and Fourier transform infrared spectrometry. Fibers were capable of releasing free AIs when triggered by microorganism-exudated enzymes in a dose-dependent manner and releasing CD-IC form of AIs in response to high relative humidity (95% RH). With 24 h of exposure, stimuli-responsive fibers significantly reduced the populations of foodborne pathogenic bacterial surrogates Escherichia coli (by ∼5 log unit) and Listeria innocua (by ∼5 log unit), as well as fungi Aspergillus fumigatus (by >1 log unit). More importantly, the fibers released more AIs at 95% RH than at 50% RH, which resulted in a higher population reduction of E. coli at 95% RH. Such biodegradable, nontoxic, and multistimuli-responsive antimicrobial fibers have great potential for broad applications as active and smart packaging systems.

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Posted in Antibacterial, E.coli, Food Microbiology Research, Food Technology, Listeria, Listeria monocytogenes, mold, Mould/Mold, Research

Research – Salmonella enterica 4,[5],12:i:- an emerging threat for the swine feed and pork production industry

Posted on December 29, 2021 by | Leave a comment

Journal of Food Protection

Salmonella continues to be a significant cause of foodborne illnesses in human medicine. The Centers for Disease Control and Prevention reported Salmonella as the second leading cause of foodborne illness in the United States, and the leading cause of both hospitalizations and deaths. Salmonella enterica 4,[5],12:i:- (STM) is a monophasic variant of S. Typhimurium and it is an emerging threat to both human and animal health. STM was first identified in the 1980’s from poultry products and has become increasingly prevalent in meat products including pork. STM has also been identified in swine farms as well as feed manufacturing environments and feed itself. Similar pulse-field gel electrophoresis profiles have been observed between human clinical cases and the STM samples originating from swine feed. These related profiles suggest a link between swine ingesting contaminated feed and the source of foodborne illness in human. The objective of this article was to better understand the history of STM and the possible pathway between swine feed to the household table. Continued research is necessary to better understand how STM can enter both the feed supply chain and the pork production chain to avoid contamination of pork products destined for human consumption.

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Posted in Decontamination Microbial, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research, Salmonella

Research – Comparisons of Non-thermal Decontamination Methods to Improve the Safety for Raw Beef Consumption

Posted on December 28, 2021 by | Leave a comment

Journal of Food Protection

The object of this study was to examine non-thermal treatments to reduce foodborne pathogens in raw beef. Foodborne-illness pathogens were inoculated in the raw beef. Death rates of foodborne illness pathogens were evaluated by non-thermal decontamination methods(high pressure processing at 500MPa[HPP] for 2min, 5min, and 7min; UV LED radiation at 405nm[UV LED] for 2h, 6h, and 24h; hypochlorous acid water at 100ppm[HAW] for 1min, 3min, and 5min; 2.5% lactic acid[LA] for 1min, 3min, and 5min; modified atmosphere that replaced O2 to CO2 [MAP] for 24h and 48​​h; bio-gel[BG] application for 24h and 48h. Quality characteristics were measured after applying the practical non-thermal decontamination methods. After the treatment of HPP for 7min, inactivity rates were 4.4-6.7Log CFU/g for E. coli, Salmonella, and L. monocytogenes and 1.7Log CFU/g for S. aureus (p <0.05). After the treatment with UV LED for 24h, the reduced cell counts were 0.5, 0.7, and 0.3Log CFU/g for E. coli , Salmonella , and S. aureus, respectively(p <0.05), but no significant reduction for L. monocytogenes. When the beef was treated with HAW was treated for 5min, 0.6Log CFU/g of E. coli, 0.5Log CFU/g of Salmonella, 0.4Log CFU/g of S. aureus , and 0.5Log CFU/g of L. monocytogenes were inactivated. After the beef was treated with LA for 5min, 1.8Log CFU/g of E. coli, 3.0Log CFU/g of Salmonella, 1.3Log CFU/g of S. aureus, and 1.9Log CFU/g of L. monocytogenes were inactivated. MAP for 48h caused the inactivation of 0.3Log CFU/g of E. coli, 0.1Log CFU/g of Salmonella. After treatment of BG for 48h, 0.3Log CFU/g of E. coli and 0.4Log CFU/g of Salmonella were significantly decreased(p <0.05). HPP cooked the beef after 2min of treatment. HAW and BG changed the surface color of the beef, LA reduced the pH of beef (p<0.05). However, UV LED did not cause any changes in the beef quality properties. These results indicates that UV LED can improve the food safety of raw beef.

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Posted in Decontamination Microbial, E.coli, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Listeria, Listeria monocytogenes, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research, Salmonella

Research – Detrimental Effect of Ozone on Pathogenic Bacteria

Posted on December 27, 2021 by | Leave a comment

MDPI

Background: Disinfection of medical devices designed for clinical use associated or not with the growing area of tissue engineering is an urgent need. However, traditional disinfection methods are not always suitable for some biomaterials, especially those sensitive to chemical, thermal, or radiation. Therefore, the objective of this study was to evaluate the minimal concentration of ozone gas (O3) necessary to control and kill a set of sensitive or multi-resistant Gram-positive and Gram-negative bacteria. The cell viability, membrane permeability, and the levels of reactive intracellular oxygen (ROS) species were also investigated;

Material and Methods: Four standard strains and a clinical MDR strain were exposed to low doses of ozone at different concentrations and times. Bacterial inactivation (cultivability, membrane damage) was investigated using colony counts, resazurin as a metabolic indicator, and propidium iodide (PI). A fluorescent probe (H2DCFDA) was used for the ROS analyses;

Results: No reduction in the count colony was detected after O3 exposure compared to the control group. However, the cell viability of E. coli (30%), P. aeruginosa (25%), and A. baumannii (15%) was reduced considerably. The bacterial membrane of all strains was not affected by O3 but presented a significant increase of ROS in E. coli (90 ± 14%), P. aeruginosa (62.5 ± 19%), and A. baumanni (52.6 ± 5%);

Conclusion: Low doses of ozone were able to interfere in the cell viability of most strains studied, and although it does not cause damage to the bacterial membrane, increased levels of reactive ROS are responsible for causing a detrimental effect in the lipids, proteins, and DNA metabolism. View Full-Text

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Posted in Decontamination Microbial, E.coli, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Technology, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Ozone, Pathogen, pathogenic, Pseudomonas, Pseudomonas aeruginosa, Pseudomonas fluorescens, Research, Technology

Research – Assessment of Food and Waterborne Viral Outbreaks by Using Field Epidemiologic, Modern Laboratory and Statistical Methods—Lessons Learnt from Seven Major Norovirus Outbreaks in Finland

Posted on December 27, 2021 by | Leave a comment

MDPI

Food Borne Illness - Norovirus -CDC Photo

Seven major food- and waterborne norovirus outbreaks in Western Finland during 2014–2018 were re-analysed. The aim was to assess the effectiveness of outbreak investigation tools and evaluate the Kaplan criteria. We summarised epidemiological and microbiological findings from seven outbreaks. To evaluate the Kaplan criteria, a one-stage meta-analysis of data from seven cohort studies was performed. The case was defined as a person attending an implicated function with diarrhoea, vomiting or two other symptoms. Altogether, 22% (386/1794) of persons met the case definition. Overall adjusted, 73% of norovirus patients were vomiting, the mean incubation period was 44 h (4 h to 4 days) and the median duration of illness was 46 h. As vomiting was a more common symptom in children (96%, 143/149) and diarrhoea among the elderly (92%, 24/26), symptom and age presentation should drive hypothesis formulation. The Kaplan criteria were useful in initial outbreak assessments prior to faecal results. Rapid food control inspections enabled evidence-based, public-health-driven risk assessments. This led to probability-based vehicle identification and aided in resolving the outbreak event mechanism rather than implementing potentially ineffective, large-scale public health actions such as the withdrawal of extensive food lots. Asymptomatic food handlers should be ideally withdrawn from high-risk work for five days instead of the current two days. Food and environmental samples often remain negative with norovirus, highlighting the importance of research collaborations. Electronic questionnaire and open-source novel statistical programmes provided time and resource savings. The public health approach proved useful within the environmental health area with shoe leather field epidemiology, combined with statistical analysis and mathematical reasoning.

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Posted in Decontamination Microbial, food bourne outbreak, Food Illness, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Virus, Foodborne Illness, foodborne outbreak, foodbourne outbreak, Illness, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Norovirus, outbreak, Virus

Research – Salmonella Serotypes Associated with Illnesses after Thanksgiving Holiday, United States, 1998–2018

Posted on December 24, 2021 by | Leave a comment

CDC

Abstract

We sought to determine which Salmonella serotypes cause illness related to the Thanksgiving holiday in the United States and to foods disproportionately eaten then (e.g., turkey). Using routine surveillance for 1998–2018 and a case-crossover design, we found serotype Reading to be most strongly associated with Thanksgiving.

Thanksgiving, celebrated annually in the United States on the fourth Thursday of November, often brings together family and friends who eat specific traditional foods, such as mashed potatoes, cranberry sauce, and pumpkin pie; the most prominent food eaten is turkey (1). In 2017, ≈45 million turkeys were produced for Thanksgiving, ≈18% of annual production (2). Turkey is popular across regions, races, sexes, and generations; 88% of persons in the United States report eating turkey during their Thanksgiving meal (1,3,4).

Foodborne Salmonella infections cause substantial illness and death in the United States: an estimated 1 million cases, 20,000 hospitalizations, and 400 deaths occur annually (5). Typical illness consists of diarrhea, fever, and abdominal pain lasting 3–7 days; only a minority of persons seek health care. Incubation typically ranges from 6 hours to 6 days (5). Salmonella outbreaks caused by serotypes Hadar and Saint Paul have been most commonly attributed to turkey, and serotypes Enteritidis, Heidelberg, and Typhimurium have been frequent causes of turkey-associated outbreaks (6). During 2015‒2020, Reading and Hadar were the serotypes most often isolated from turkeys (7); less is known about which serotypes cause turkey-associated sporadic Salmonella infections. We aimed to determine which Salmonella serotypes cause sporadic enteric infections after the Thanksgiving holiday and are most likely related to foods disproportionately eaten then, particularly turkey.

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Posted in food bourne outbreak, Food Illness, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Foodborne Illness, foodborne outbreak, foodbourne outbreak, Illness, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, outbreak, Salmonella

USA – Schoonover Farms recalls Raw Milk over E. coli concerns

Posted on December 24, 2021 by | Leave a comment

Food Poison Journal

According to the Columbia Basin Herald, Odessa’s Schoonover Farms LLC on Thursday voluntarily recalled raw whole milk and cream because it might be contaminated with E. coli (Escherichia coli bacteria), according to a release from the company.

No known illnesses caused by E. coli were associated with the product as of Thursday, but routine sampling by the Washington State Department of Agriculture showed the presence of toxin-producing E. coli in retail raw cream dated Dec. 23.

So retail raw whole milk and cream with best by dates of Dec. 23 through Jan. 2 (“12-23” through “1-2”) were recalled. The product is in 8-ounce, quart, half-gallon and 1-gallon bottle containers and sold to consumers in Odessa and stores in the Spokane area.

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Posted in E.coli, 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 Poisoning, food recall, Food Safety, Food Safety Alert, Food Testing, Food Toxin

Research – Understanding and predicting food safety risks posed by wild birds

Posted on December 24, 2021 by | Leave a comment

Centre For Produce Safety

Summary

Click to access SHARIAT_%20FINAL.pdf

Co-existence of fresh produce with animal agriculture has come under increased scrutiny, given multiple recent outbreaks where pathogen strains on produce have been linked to livestock. An important consideration in this co-existence is understanding how pathogens are vectored from animals and their environments to fresh produce. This proposal centers on understanding the risks posed by wild birds and how their fecal pathogen content is influenced by nearby animal agriculture. Previous studies examining wild birds have been focused in the western US, where ‘cattle is king’ in terms of animal agriculture. The southeast has a $4 billion fresh produce and nut industry and, while also having beef and dairy cattle, in this region, ‘poultry is king.’ Campylobacter and Salmonella are the top bacterial causes of foodborne illness in the US, are frequently isolated from food animals, and have been linked to outbreaks in fresh produce. This study will examine the role of poultry and cattle in influencing the pathogens deposited onto fresh produce by wild birds. Mapping and modeling technologies will be implemented to develop risk profiles resulting from links between integrated/proximal animal agriculture and wild bird feces containing viable pathogens that are deposited on produce foliage. High-resolution molecular tools will be used to generate pathogen population profiles and, alongside genomic analyses, will be used to attribute pathogen source to zoonotic reservoirs associated with animal agriculture.

Technical Abstract

There is abundant evidence that wildlife often carries potential foodborne pathogenic bacteria. Indeed, wildlife sources have been associated with several outbreaks, leading to calls to remove natural habitats from farms to discourage wildlife visits. Thus, it was surprising that a recent study found that the likelihood of produce contamination actually increased, rather than decreased, in leafy greens fields where natural habitats had been removed (31). Consistent with this, we found that wild bird feces collected from broccoli were more likely to carry Campylobacter when those fields were surrounded by intensified livestock and crop production, rather than more-natural habitats (52). Pathogens were associated with invasive starlings and house sparrows, known to frequent feedlots and other high-density livestock areas, but also with many native birds (e.g., American robins) that also are associated with pastures and cropping fields. Altogether, work to-date suggests three interacting links between wild bird-associated food safety problems: (i) intensive livestock production that provides a pathogen reservoir, (ii) heavily farmed landscapes that support large numbers of invasive birds, and (iii) simple on-farm habitats that draw livestock-associated birds to a particular field. However, thus far these links have been drawn from circumstantial, rather than direct, evidence of pathogen movement. This limits the ability of fresh produce growers to definitively assess food safety risks associated based on local and regional land-use patterns, or to manipulate on-farm habitats to mediate these risks.

Fortunately, recent advances in pathogen tracking, using fine-scale genetic differences in pathogen genomes, is providing a means to directly separate different animal agriculture, wildlife, and environmental pathogen sources. For example, Salmonella Typhimurium isolates have been attributed to different zoonotic sources based on their genome sequences (59). PI Shariat has been a leader in using next-generation sequencing approaches to assess pathogen populations, having developed CRISPR-SeroSeq as a tool to produce high-resolution population profiles of Salmonella serotypes. Here, we propose to definitively establish links between livestock/poultry pathogen reservoirs and pathogens in bird feces on produce foliage growing in the field. We will also examine how likely pathogens in bird feces are to move from deposition points to surrounding produce and plants. We propose two primary research objectives focusing on bird fecal samples collected directly from the fields of our cooperating growers: In Obj. 1 we will assess the risk posed by wild bird feces on fresh produce plants and the influence of proximal animal agriculture on pathogen presence in wild bird feces. In Obj. 2, we will determine the diversity, not just the dominant species or serotype, of Campylobacter and Salmonella in bird feces and perform fine-scale tracking and source attribution using whole genome sequencing. Both of these research objectives will be directly paired with outreach products/strategies that move our findings directly to the hands of growers, processors, and others in the industry that critically need this information. Altogether, we seek to provide produce growers with the science-based knowledge and tools to assess the risk that wild birds pose to food safety on their farms, based on farm-specific local and landscape farming practices.

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Posted in Campylobacter, Campylobacter jejuni, Decontamination Microbial, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research, Salmonella

Research – Investigating the Campylobacter enteritis winter peak in Germany, 2018/2019

Posted on December 24, 2021 by | Leave a comment

Nature.com

Campylobacter kswfoodworld

Surveillance of notified Campylobacter enteritis in Germany revealed a recurrent annual increase of cases with disease onset several days after the Christmas and New Year holidays (“winter peak”). We suspected that handling and consumption of chicken meat during fondue and raclette grill meals on the holidays were associated with winter peak Campylobacter infections. The hypothesis was investigated in a case–control study with a case-case design where notified Campylobacter enteritis cases served as case-patients as well as control-patients, depending on their date of disease onset (case-patients: 25/12/2018 to 08/01/2019; control-patients: any other date between 30/11/2018 and 28/02/2019). The study was conducted as an online survey from 21/01/2019 to 18/03/2019. Adjusted odds ratios (aOR) were determined in single-variable logistic regression analyses adjusted for age group and sex. We analysed 182 data sets from case-patients and 260 from control-patients and found associations of Campylobacter infections after the holidays with meat fondue (aOR 2.2; 95% confidence interval (CI) 1.2–3.8) and raclette grill meals with meat (aOR 1.5; 95% CI 1.0–2.4) consumed on the holidays. The associations were stronger when chicken meat was served at these meals (fondue with chicken meat: aOR 2.7; 95% CI 1.4–5.5; raclette grill meal with chicken meat: aOR 2.3; 95% CI 1.3–4.1). The results confirmed our initial hypothesis. To prevent Campylobacter winter peak cases in the future, consumers should be made more aware of the risks of a Campylobacter infection when handling raw meat, in particular chicken, during fondue or raclette grill meals on the holidays.

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Posted in Campylobacter, Campylobacter jejuni, 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 Safety, Food Testing, microbial contamination, Microbiological Risk Assessment, Microbiology, Microbiology Investigations, Research