Category Archives: Research

Research – Evaluating the Risk of Salmonellosis from Dry Roasted Sunflower Seeds

Posted on January 3, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

Outbreaks and recalls related to nuts and seeds in the United States have increased recently, and 80% of these recalls are due to Salmonella. The U.S. Food and Drug Administration’s Food Safety Modernization Act requires food manufacturers to implement risk-based preventive controls based on scientific and technical evidence. Data are limited on the inactivation of Salmonella during processing of saltwater brined in-shell sunflower seeds. The goal of this research was to validate the adequacy of roasting in controlling Salmonella during the production of sunflower seeds and to assess the resulting risk. Four Salmonella strains were inoculated onto sunflower seeds and processed to simulate commercial manufacturing. Seeds were tumbled and roasted at 225°F (107.2°C) and 275°F (135°C) for roasting times from 5 to 45 min. Regression models for Salmonella inactivation and water activity change were developed. The inactivation model predicted a 5-log reduction in Salmonella when sunflower seeds were roasted at 135°C for 19.2 min, with a corresponding water activity of ∼0.61. Roasted sunflower seeds are typically not saleable at water activities >0.6 due to quality issues. Saleable water activities (0.03 to 0.04) were only achieved when the sunflower seeds were roasted for 45 min at 135°C, which resulted in a >7-log reduction in Salmonella. A quantitative microbial risk assessment based on literature values, expert opinion, and the above-mentioned models was used to predict risk of salmonellosis from sunflower seeds. The quantitative microbial risk assessment model predicted an arithmetic mean probability of illness of 1.45E−07 per 28-g serving based on roasting at 135°C for 20 min and an arithmetic mean probability of illness of 5.46E−10 per serving based on roasting at 135°C for >45 min (i.e., saleable product process parameters). This study demonstrates that sunflower seeds roasted to saleable parameters should not represent a public health risk from potential presence of Salmonella.

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Posted in food contamination, Food Hygiene, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Pathogen, Food Safety, Food Testing, Research, Salmonella, Uncategorized

Research – Predictive Model of Listeria monocytogenes Growth in Queso Fresco

Posted on January 3, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

Listeria monocytogenes is a hardy psychrotrophic pathogen that has been linked to several cheese-related outbreaks in the United States, including a recent outbreak in which a fresh cheese (queso fresco) was implicated. The purpose of this study was to develop primary, secondary, and tertiary predictive models for the growth of L. monocytogenes in queso fresco and to validate these models using nonisothermal time and temperature profiles. A mixture of five strains of L. monocytogenes was used to inoculate pasteurized whole milk to prepare queso fresco. Ten grams of each fresh cheese sample was vacuum packaged and stored at 4, 10, 15, 20, 25, and 30°C. From samples at each storage temperature, subsamples were removed at various times and diluted in 0.1% peptone water, and bacteria were enumerated on Listeria selective agar. Growth data from each temperature were fitted using the Baranyi model as the primary model and the Ratkowsky model as the secondary model. Models were then validated using nonisothermal conditions. The Baranyi model was fitted to the isothermal growth data with acceptable goodness of fit statistics (R2 = 0.928; root mean square error = 0.317). The Ratkowsky square root model was fitted to the specific growth rates at different temperatures (R2 = 0.975). The tertiary model developed from these models was validated using the growth data with two nonisothermal time and temperature profiles (4 to 20°C for 19 days and 15 to 30°C for 11 days). Data for these two profiles were compared with the model prediction using an acceptable prediction zone analysis; >70% of the growth observations were within the acceptable prediction zone (between −1.0 and 0.5 log CFU/g). The model developed in this study will be useful for estimating the growth of L. monocytogenes in queso fresco. These predictions will help in estimation of the risk of listeriosis from queso fresco under extended storage and temperature abuse conditions.

HIGHLIGHTS

  • Growth of L. monocytogenes was examined in queso fresco at constant temperatures.

  • A positive correlation was found between temperature and growth rate.

  • A tertiary model was developed to predict growth under nonisothermal conditions.

  • The acceptable prediction zone analysis suggests that the tertiary model was acceptable.

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Posted in Food Hygiene, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Temperature Abuse, Food Testing, Listeria, Listeria monocytogenes, Research, Uncategorized

Research – Quantifying the Influence of Relative Humidity, Temperature, and Diluent on the Survival and Growth of Enterobacter aerogenes

Posted on January 3, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

Survival of bacteria on surfaces plays an important role in the cross-contamination of food. Temperature, relative humidity (RH), surface type, and inoculum diluent can affect bacterial survival. This study was conducted to examine how temperature, RH, and diluent affect the survival of Enterobacter aerogenes on stainless steel, polyvinyl chloride, and ceramic tile. Although surface type had little effect on survival, temperature had a clear effect. E. aerogenes survival was highest at 7°C and 15 and 50% RH on all surfaces. Some diluents allowed growth under high RH conditions. Cell populations in distilled water inoculated onto each surface decreased initially compared with populations in 1% phosphate-buffered saline (PBS) and 0.1% peptone broth. At 15 and 50% RH, cell populations in 1% PBS declined more sharply after 120 h than did those 0.1% peptone, but populations in both diluents had similar declines up to 3 weeks. Cell populations in 0.1% peptone had the greatest growth and reached the highest population density (∼8 log CFU/mL). Cell populations in PBS and distilled water increased by ∼2 log CFU/mL. When cells in 0.1% peptone were inoculated onto stainless steel at 100% RH, populations increased to ∼7 log CFU per coupon, whereas cells in 1% PBS increased to ∼5 log CFU per coupon followed by a decline over 3 weeks. DMFit and GInaFiT software modeled inactivation on surfaces at all conditions other than 100% RH at 21°C. These findings have important implications for experiments in which microorganisms are inoculated onto foods or food contact surfaces because the growth observed may be affected more by the inoculum diluent at high or uncontrolled RH than by the type of inoculated surface.

HIGHLIGHTS

  • Survival of E. aerogenes was quantified at 7°C with 15, 50, and 100% RH and at 21°C with 5 and 50% RH.

  • E. aerogenes survival was higher at 7°C with 15 and 50% RH on all surfaces.

  • Cell populations in 0.1% peptone at 21°C with 100% RH increased to ∼7 log CFU per coupon.

  • Cell populations in 1% PBS at 21°C with 100% RH increased to ∼5 log CFU per coupon.

  • Cell populations in distilled water at 21°C increased by ∼2 log CFU/mL.

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Posted in Enterobacter aerogenes, food contamination, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Research, Uncategorized

Research – High mycotoxin levels pose risk to dairy farmers this winter

Posted on January 2, 2020 by | Leave a comment

Dairy Global

A high risk of mycotoxin contamination in this year’s forage is posing a challenge for many producers and could be responsible for struggling milk yields and excessive feed waste and underutilisation, experts warn.

According to a press release, Bob Kendal, regional sales manager at Alltech U.K. says, while many producers have lots of forage available this year due to a bumper harvest, we have had a record number of mycotoxin related enquiries, and a number of silage test results have shown high levels of penicillium.

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Posted in Animal Feed, food contamination, Food Micro Blog, Food Microbiology Research, Food Toxin, microbial contamination, Microbiology, mold, Mould Toxin, Moulds, Mycotoxin, Penicillium brevicompactum, Penicillium citrinium, Research, Uncategorized

Research – Salmonella Survival in Soil and Transfer onto Produce via Splash Events

Posted on January 2, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

Nearly one-half of foodborne illnesses in the United States can be attributed to fresh produce consumption. The preharvest stage of production presents a critical opportunity to prevent produce contamination in the field from contaminating postharvest operations and exposing consumers to foodborne pathogens. One produce-contamination route that is not often explored is the transfer of pathogens in the soil to edible portions of crops via splash water. We report here on the results from multiple field and microcosm experiments examining the potential for Salmonella contamination of produce crops via splash water, and the effect of soil moisture content on Salmonella survival in soil and concentration in splash water. In field and microcosm experiments, we detected Salmonella for up to 8 to 10 days after inoculation in soil and on produce. Salmonella and suspended solids were detected in splash water at heights of up to 80 cm from the soil surface. Soil-moisture conditions before the splash event influenced the detection of Salmonella on crops after the splash events—Salmonella concentrations on produce after rainfall were significantly higher in wet plots than in dry plots (geometric mean difference = 0.43 CFU/g; P = 0.03). Similarly, concentrations of Salmonella in splash water in wet plots trended higher than concentrations from dry plots (geometric mean difference = 0.67 CFU/100 mL; P = 0.04). These results indicate that splash transfer of Salmonella from soil onto crops can occur and that antecedent soil-moisture content may mediate the efficiency of microbial transfer. Splash transfer of Salmonella may, therefore, pose a hazard to produce safety. The potential for the risk of splash should be further explored in agricultural regions in which Salmonella and other pathogens are present in soil. These results will help inform the assessment of produce safety risk and the development of management practices for the mitigation of produce contamination.

HIGHLIGHTS

  • Salmonella was detected for 8 to 10 days after inoculation in soil and on produce.

  • Salmonella in soil can be detected in splash water from rainfall/irrigation events.

  • Salmonella was detected in splash water at heights of up to 80 cm.

  • Soil moisture conditions may affect the transfer potential of Salmonella.

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Posted in food contamination, Food Hygiene, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Research, Salmonella, Uncategorized

South Africa -South African Listeria outbreak impacted food choices of students

Posted on January 2, 2020 by | Leave a comment

Food Safety News

The Listeria outbreak linked to a brand of polony in South Africa had a negative impact on student’s consumption patterns of cold meat, according to researchers.

The study analyzed the effect of the Listeria monocytogenes outbreak on consumption patterns of processed cold meat products by students at North West University, Mmabatho South Africa.

The 2017-2018 listeriosis outbreak was traced to contaminated processed meats produced by Enterprise Foods, a subsidiary of Tiger Brands, in Polokwane. About 1,060 cases were confirmed and 216 people died.

The North West University Mafikeng Campus has 12,864 registered students. Surveys and interviews were conducted from June to July 2018. Recently findings published in the IOP Conference Series: Earth and Environmental Science journal.

 

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Posted in food contamination, food death, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Research, Uncategorized

Research – Use of Phyllosphere-Associated Lactic Acid Bacteria as Biocontrol Agents To Reduce Salmonella enterica Serovar Poona Growth on Cantaloupe Melons

Posted on January 2, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

Foodborne illness associated with fresh, ready-to-eat produce continues to be a significant challenge to public health. In this study, we created a phyllosphere-associated lactic acid bacteria (PLAB) library and screened it via a high-throughput in vitro fluorescent assay to identify bacteria capable of inhibiting the growth of the pathogenic bacterium Salmonella enterica. One isolate, 14B4, inhibited the growth of S. enterica by >45-fold in vitro; it was able to grow and persist on the surfaces of cantaloupe melons at both ambient (25°C) and refrigerator (5°C) temperatures. Isolate 14B4 inhibited the growth of S. enterica on the surfaces of cantaloupes by >3 log when incubated at 25°C for 24 h and by >4 log when the cantaloupes were stored at 5°C for 3 days and the temperature was shifted to 25°C for 2 days. Genomic DNA sequence analysis of isolate 14B4 revealed that it was Lactococcus lactis and that it did not contain any known antibiotic biosynthesis gene clusters, antibiotic resistance genes, or genes encoding any known virulence factors. Organic acid analysis revealed that L. lactis produces substantial amounts of lactic acid, which is likely the inhibitory substance that reduced the growth of Salmonella on the cantaloupes.

HIGHLIGHTS

  • L. lactis isolate 14B4 inhibited the growth of Salmonella on cantaloupe rinds.

  • Storage of contaminated rinds at 5°C increased the growth inhibition by 1 log.

  • L. lactis isolate 14B4 is a potentially safe and effective biological control agent.

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Posted in food contamination, Food Hygiene, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, lactic acid bacteria, Research, Salmonella, Uncategorized

Research – Modeling the Effects of the Preculture Temperature on the Lag Phase of Listeria monocytogenes at 25°C

Posted on January 1, 2020 by | Leave a comment

Journal of Food Protection

ABSTRACT

In predictive microbiology, the study of the microbial lag phase, i.e., the time needed for bacteria to adapt to a new environment before multiplying, has received a great deal of attention in the research literature. The microbial lag phase is more difficult to estimate than the specific growth rate because the lag phase is impacted by the previous and actual growth environments. In this study, the growth of Listeria monocytogenes preincubated at 0, 5, 10, and 15°C and subsequently grown at 25°C was investigated at the single-cell and population levels. The population lag phase of L. monocytogenes was obtained by fitting the Baranyi model, and the single-cell lag time was estimated by the time to detection method. The lag phase at the single-cell and population levels of L. monocytogenes presented a downward trend as the preculture temperature ranged from 0 to 15°C. The population lag phase of L. monocytogenes was lower than the single-cell lag time at the same preculture temperature. In addition, except for the zero-lag distribution at a preculture temperature of 15°C, all the single-cell lag time distributions of L. monocytogenes followed a Weibull distribution under all preculture temperatures. The preculture temperature had a significant impact on the rapid variation in the single-cell lag time distribution. Thus, the influence of preculture temperature on the lag phase needs to be quantitatively analyzed for better assessment of microbiological risk.

HIGHLIGHTS

  • The variability of single-cell lag time could be described by the Weibull distribution.

  • The population lag was shorter than the single-cell lag at the same preculture temperature.

  • The preculture temperature had no significant effects on the growth rate.

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Listeria, Listeria monocytogenes, Research, Uncategorized

Research – Prevalence of Campylobacter coli and Campylobacter jejuni in Retail Chicken, Beef, Lamb, and Pork Products in Three Australian States

Posted on December 31, 2019 by | Leave a comment

Journal of Food Protection

 

ABSTRACT

The aim of this study was to investigate the prevalence and distribution of Campylobacter species in a variety of fresh and frozen meat and offal products collected from retail outlets in New South Wales (NSW), Queensland (Qld), and Victoria (Vic). A total of 1,490 chicken, beef, lamb, and pork samples were collected from Australian supermarkets and butcher shops over a 2-year sampling period (October 2016 to October 2018). Campylobacter spp. were detected in 90% of chicken meat and 73% of chicken offal products (giblet and liver), with significantly lower prevalence in lamb (38%), pork (31%), and beef (14%) offal (kidney and liver). Although retail chicken meat was frequently contaminated with Campylobacter, the level of contamination was generally low. Where quantitative analysis was conducted, 98% of chicken meat samples, on average, had <10,000 CFU Campylobacter per carcass, with 10% <21 CFU per carcass. Campylobacter coli was the most frequently recovered species in chicken meat collected in NSW (53%) and Vic (56%) and in chicken offal collected in NSW (77%), Qld (59%), and Vic (58%). In beef, lamb, and pork offal, C. jejuni was generally the most common species (50 to 86%), with the exception of pork offal collected in NSW, where C. coli was more prevalent (69%). Campylobacter prevalence was significantly higher in fresh lamb (46%) and pork (31%) offal than in frozen offal (17 and 11%, respectively). For chicken, beef, and pork offal, the prevalence of Campylobacter spp. was significantly higher on delicatessen products compared with prepackaged products. This study demonstrated that meat and offal products are frequently contaminated with Campylobacter. However, the prevalence is markedly different in different meats, and the level of chicken meat portion contamination is generally low. By identifying the types of meat and offal products types that pose the greatest risk of Campylobacter infection to consumers, targeted control strategies can be developed.

HIGHLIGHTS

  • Retail chicken meat is frequently contaminated with low levels of Campylobacter.

  • C. coli was more commonly detected in chicken meat and offal than C. jejuni.

  • C. jejuni was more commonly detected in beef, lamb, and pork offal than C. coli.

  • In nonchicken offal, prevalence of Campylobacter was highest on lamb offal.

  • Prevalence of Campylobacter was higher in fresh than in frozen offal.

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Posted in Campylobacter, food contamination, Food Hygiene, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Research, Uncategorized

Research – An Assessment of Listeriosis Risk Associated with a Contaminated Production Lot of Frozen Vegetables Consumed under Alternative Consumer Handling Scenarios

Posted on December 31, 2019 by | Leave a comment

Journal of Food Protection

ABSTRACT

Frozen foods do not support the growth of Listeria monocytogenes (LM) and should be handled appropriately for safety. However, consumer trends regarding preparation of some frozen foods may contribute to the risk of foodborne listeriosis, specifically when cooking instructions are not followed and frozen products are instead added directly to smoothies or salads. A quantitative microbial risk assessment model FFLLoRA (Frozen Food Listeria Lot Risk Assessment) was developed to assess the lot-level listeriosis risk due to LM contamination in frozen vegetables consumed as a ready-to-eat food. The model was designed to estimate listeriosis risk per serving and the number of illnesses per production lot of frozen vegetables contaminated with LM, considering individual facility factors such as lot size, prevalence of LM contamination, and consumer handling prior to consumption. A production lot of 1 million packages with 10 servings each was assumed. When at least half of the servings were cooked prior to consumption, the median risk of invasive listeriosis per serving in both the general and susceptible population was <1.0 × 10−16 with the median (5th, 95th percentiles) predicted number of illnesses per lot as 0 (0, 0) and 0 (0, 1) under the exponential and Weibull-gamma dose-response functions, respectively. In scenarios in which all servings are consumed as ready-to-eat, the median predicted risk per serving was 1.8 × 10−13 and 7.8 × 10−12 in the general and susceptible populations, respectively. The median (5th, 95th percentile) number of illnesses was 0 (0, 0) and 0 (0, 6) for the exponential and Weibull-Gamma models, respectively. Classification tree analysis highlighted initial concentration of LM in the lot, temperature at which the product is thawed, and whether a serving is cooked as main predictors for illness from a lot. Overall, the FFLLoRA provides frozen food manufacturers with a tool to assess LM contamination and consumer behavior when managing rare and/or minimal contamination events in frozen foods.

HIGHLIGHTS

  • A tool for frozen food manufacturers to assess listeriosis risk was developed.

  • Scenarios of low-level L. monocytogenes in frozen vegetables did not typically result in illness.

  • Listeriosis cases depended on model inputs related to consumer handling and initial concentration.

  • Scenarios of more testing increased the probability of finding a contaminated lot and reduced risk.

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Posted in food contamination, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Safety, Food Testing, Listeria, Listeria monocytogenes, Research, Uncategorized