Category Archives: Technology

Research – Quantification of survival and transfer of Salmonella on fresh cucumbers during waxing

Posted on November 28, 2020 by | Leave a comment

Journal of Food Protection

Cucumbers found in retail markets are often waxed to improve visual appeal and retard moisture loss. This waxing may affect bacterial survival and the waxing process may facilitate cross-contamination between cucumbers. This study assessed survival of Salmonella on waxed and un-waxed cucumbers and the potential for Salmonella cross-contamination during the waxing process. Fresh waxed or un-waxed cucumbers were spot-inoculated with a Salmonella enterica cocktail. Three different wax coatings (mineral oil, vegetable oil, or petroleum wax) were manually applied to un-waxed cucumbers using polyethylene brushes. Salmonella transfer from inoculated cucumbers to brush or to un-inoculated cucumbers was quantified. Higher Salmonella concentrations were observed on waxed cucumbers during the first 3 days of storage but the final concentration on un-waxed cucumbers was higher than on waxed cucumbers at the end of storage, regardless of storage temperature. Wax formulation did affect survival of Salmonella inoculated directly into waxes, with the significant decline in Salmonella populations observed in vegetable-based wax coating, but with populations unchanged over 7 days at 7 or 21 °C in mineral oil-based and petroleum-based waxes. Salmonella cells could transfer from inoculated un-waxed cucumbers to brushes used for waxing and then to un-inoculated cucumbers during waxing. Significantly higher log percent transfer to brushes was observed when cucumbers were waxed with vegetable oil (0.71 log percent, P = 0.00441) vs. mineral oil (0.06 log percent) or petroleum (0.05 log percent). Transfer to un-inoculated cucumbers via brushes was also quantified (0.18 to 0.35 log percent transfer). Salmonella remaining on contaminated cucumbers after waxing could be detected for up to 7 days, and Salmonella survived better on cucumbers treated with a petroleum-based wax. These findings should be useful in managing risk of Salmonella contamination in cucumbers during post-harvest handling.

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

Research – Anti‐adhesive effects of sialic acid and Lactobacillus plantarum on Staphylococcus aureus in vitro

Posted on November 24, 2020 by | Leave a comment

Journal of Food Safety

Staphylococcus aureus (S. aureus) is a common food‐borne pathogen that causes severe diseases after adhesion to epithelial cells. Lactobacillus inhibits pathogenic bacterial adhesion and infection. In addition, sialic acid (SA) is widely known for its beneficial biological functions. A new way of reducing the occurrence of diseases and curbing the overuse of antibiotics is ingesting prebiotics and probiotics that regulate the intestinal flora. In this study, we first evaluated the anti‐adhesive effects of several strains of Lactobacillus on S. aureus. The study revealed that the S. aureus adhesion was inhibited by all the strains of Lactobacillus. Besides, the rate of inhibition by L. plantarum Z‐4 was significantly higher than other Lactobacillus species. We then investigated the effects of different SA concentrations (40, 100, 150, 200, and 260 μg/ml) on the growth and adhesion characteristics of L. plantarum and S. aureus. The results showed that SA influences bacterial adhesion by regulating the bacteria’s growth characteristics. Finally, the effects of SA combined with Lactobacillus on the adhesion of S. aureus were assessed by competition, exclusion and displacement methods. SA with a concentration of 260 μg/mL combined with L. plantarum had the highest inhibition effect on the competition assays. In addition, the expression of S. aureus adhesion‐related genes was reduced. This provides a new perspective on the application of SA and/or L. plantarum and its potential to resist adhesion of S. aureus.

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Posted in food contamination, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Poisoning, food recall, Food Safety, Food Technology, Food Testing, Lactobacillus plantarum, Research, Staphylococcus aureus, Technology

Research – UVC and Foodborne Pathogens

Posted on November 15, 2020 by | Leave a comment

Recently Heard

It really works when UVC runs. When used properly, it can kill up to 99 percent of pathogens. This is why UVC treatment has been used for sterilizing equipment in clinical and laboratory settings for many years. It’s only in the last few years that UVC has started to take off for personal use, especially given the current COVID-19 pandemic.

But in various contexts, there are a lot of legitimate questions and concerns about the safety of using UVC disinfection. And so rightfully. UVC is an exceptionally strong form of ultraviolet radiation that, when not used correctly, can be dangerous to humans. We are almost never exposed to these high-frequency light waves because almost all the UVC emitted by the sun is blocked by the atmosphere. However, in mere minutes, exposure to artificial UVC light can cause sunburn.

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Pathogen, Food Technology, microbial contamination, Microbiology, Pathogen, Research, Technology, UV Microbiology

Research -Erythrosine B (Red Dye No. 3): A potential photosensitizer for the photodynamic inactivation of foodborne pathogens in tomato juice

Posted on August 29, 2020 by | Leave a comment

Wiley Online

The objectives of this study were to evaluate the efficacy of erythrosine B (ERY, Red No. 3)‐mediated photodynamic therapy (PDT) for inactivating Escherichia coli O157:H7, Salmonella Typhimurium, and Listeria monocytogenes in tomato juice. The inoculated tomato juice was subjected to xenon light (E − L+), ERY (E + L−), or xenon light and ERY combination (E + L+) treatments. Treatment with E + L+ for 15 min decreased the cell counts of E. coli O157:H7, . Typhimurium, and L. monocytogenes by 6.77, 2.74, and 6.43 log CFU/mL, respectively, without generating sublethally injured cells. The cell count reductions of E. coli O157:H7 and L. monocytogenes in the E + L+ treatment group were higher than the sum of cell count reductions in the E − L+ and E + L− treatment groups, which indicated the synergistic activity of the treatment combination. The 3d and 5d values calculated by the Weibull model indicated that . Typhimurium exhibited higher resistance to the E + L+ treatment than the other two pathogens. Compared with control group, the E + L+ treatment group exhibited higher lycopene content and * (red) value, whereas the pH value and sensory attributes were not significantly ( > .05) altered. These results suggest that ERY‐mediated PDT can be potentially applied to control foodborne pathogens in tomato juice products without negatively affecting the product quality.

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Posted in E.coli O157, E.coli O157:H7, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, Listeria monocytogenes, microbial contamination, Microbiology, Research, Salmonella, Technology, Uncategorized

Research – Enhanced elimination of Salmonella Typhimurium and Campylobacter jejuni on chicken skin by sequential exposure to ultrasound and peroxyacetic acid

Posted on August 28, 2020 by | Leave a comment

Wiley Online

The present study investigated the effects of combined ultrasound (37 kHz, 380 W for 5 min) and peroxyacetic acid (PAA; 50–200 ppm) treatment on the reduction of Salmonella Typhimurium and Campylobacter jejuni on chicken skin. Ultrasound was not sufficient to inactivate . Typhimurium (0.48 log CFU/g reduction) or C. jejuni (0.25 log CFU/g reduction), whereas PAA significantly ( < .05) reduced . Typhimurium (0.93–1.59 log CFU/g reduction) and C. jejuni (0.77–1.52 log CFU/g reduction). However, maximum reductions of 2.21 and 2.08 log CFU/g were observed for . Typhimurium and C. jejuni , respectively, for combined treatment with 5 min of ultrasound and 200 ppm PAA. Our results indicate that a combination of ultrasound treatment for 5 min and 200 ppm PAA was more effective in reducing . Typhimurium and C. jejuni compared to the individual treatments, without significantly affecting the color or texture of the chicken skin, thus, demonstrating its potential to increase the microbial safety during poultry processing.

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Posted in Campylobacter, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, microbial contamination, Microbiology, Research, Salmonella, Salmonella in Chicken, Technology, Uncategorized

Research – Inactivation of Salmonella and Listeria monocytogenes on dried fruit, pistachio nuts, cornflakes and chocolate crumb using a peracetic acid-ethanol based sanitizer or Advanced Oxidation Process

Posted on August 15, 2020 by | Leave a comment

Science Direct

Two decontamination methods were evaluated for inactivating a cocktail of Salmonella or Listeria monocytogenes inoculated onto model low moisture foods (LMFs; dried strawberry, dried apple, raisins, chocolate crumb, cornflakes, shell-on or deshelled pistachio nuts). One treatment was based on a peracetic acid-ethanol (PAA-ethanol) sanitizer combination with the other being an Advanced Oxidation Process (AOP) that simultaneously applied UV-C (254 nm), ozone and hydrogen peroxide. The low moisture food was spray inoculated then dried prior to treatment. With Salmonella it was found that a pre-incubation step in 1% w/v glycerol-tryptic soy broth for 1 h prior to plating, significantly increased recovery of the pathogen compared to TSB alone. However, no increased recovery of L. monocytogenes was observed using the TSB-glycerol pre-incubation step. No Salmonella was detected on cornflakes, chocolate crumb and strawberry using 1.25 parts per thousand (‰) PAA-ethanol. The inactivation of Salmonella on deshelled pistachio was significantly higher using 2.5‰ PAA-ethanol sanitizer compared to the AOP treatments tested. Only negligible reductions of Salmonella (<1 log cfu) were obtained with shell-on pistachio treated with PAA-ethanol sanitizer or AOP. Salmonella could be reduced on dried apple slices by >4 log CFU when 5.0‰ PAA-ethanol was applied. L. monocytogenes was more sensitive to PAA-ethanol compared to Salmonella and could be eliminated on all the LMFs apart from shell-on pistachio. An AOP treatment applied 10% v/v hydrogen peroxide, ozone and 54 mJ/cm2 UV-C could significantly reduce Salmonella on dried apple slices compared to when the individual elements (hydrogen peroxide, ozone or UV-C) were applied. Salmonella was also eliminated by AOP on the other LMFs (apart from shell-on pistachio) although the same level of inactivation was achieved by spraying with 10% v/v hydrogen peroxide alone. L. monocytogenes was sensitive to hydrogen peroxide and AOP being eliminated from all the LMFs. Although this may suggest that hydrogen peroxide spray was equivalent to AOP treatment it was noted that no residual H2O2 or changes in visual appearance was evident on samples treated with the latter process. The study has demonstrated that the two decontamination methods assessed can be applied to reduce Salmonella and L. monocytogenes on LMFs although efficacy is dependent on the pathogen and product type.

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, Listeria, Listeria monocytogenes, microbial contamination, Microbiology, Research, Salmonella, Technology, Uncategorized

Research – Antimicrobial efficacy of cinnamaldehyde, chitosan and high pressure processing against Cronobacter sakazakii in infant formula

Posted on August 8, 2020 by | Leave a comment

Wiley Online

This study investigated the antimicrobial efficacy of trans‐cinnamaldehyde (TC) and chitosan (CH) along with high pressure processing (HPP) against Cronobacter sakazakii in infant formula. HPP, with or without TC, and CH, was applied to reconstituted powdered infant formula with C. sakazakii . Microbiological and sensory analyses, pH, protein oxidation, and emulsion stability of each sample were determined. C. sakazakii was totally inactivated by HPP (600 MPa for 5 min), TC (0.05%) and CH (1%) combination after 4, 6, and 2 weeks of storage at 7, 23, and 45°C, respectively. All HPP treatments exhibited a minimum of 5.5 log CFU/ml reduction while the highest reductions with non‐HPP treatments were 2.1, 1.1, and 3.7 log CFU/ml at 7, 23, and 45°C storage, respectively. Although TC exhibited a cinnamon‐like taste, overall sensory attributes were not significantly different from the control samples. Remarkable deformation and damage in C. sakazakii cells were observed by transmission electron microscopy after the application of HPP and bioactive compounds.

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Posted in Chronobacter sakazakii, Cronobacter sakazakii, Food Microbiology Research, Food Technology, Research, Technology, Uncategorized

Research -Inactivation of Salmonella on black peppercorns using an integrated ultraviolet-C and cold plasma intervention

Posted on August 1, 2020 by | Leave a comment

Science Direct

A nonthermal process that applies ultraviolet (UV)–C and helium cold plasma (CP) simultaneously (UV-CP) has been investigated as an intervention technology to inactivate Salmonella on black peppercorns. The optimum CP treatment voltage and UV-CP treatment time for inactivating Salmonella on black peppercorns were predicted using a model equation as 9.7 kV and 22.1 min, respectively, which non-thermally inactivated Salmonella by 3.7 log CFU/g. UV-CP treatment yielded a stronger bactericidal activity than UV treatment alone, without inducing photoreactivation. In addition, UV-CP-induced reactive species similar to those found in individual UV and CP treatments. Furthermore, UV-CP treatment caused a profound deformation of Salmonella morphology and a greater extent of DNA damage than UV or CP treatment did alone. UV-CP treatment did not alter the color or 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) radical scavenging activity; however, it lowered the 2,2-diphenyl-1-picrylhydrazyl radical scavenging activity and piperine concentration in the peppercorns. The findings of this study demonstrate the potential application of UV-CP treatment for decontamination of black peppercorns.

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

Research – Stopping listeria reproduction ‘in its tracks’

Posted on July 28, 2020 by | Leave a comment

Science Daily

Listeria contaminations can send food processing facilities into full crisis mode with mass product recalls, federal warnings and even hospitalization or death for people who consume the contaminated products. Destroying the bacterium and stopping its spread can be challenging because of the formation of biofilms, or communities of resistant bacteria that adhere to drains or other surfaces.

Researchers at the University of Houston are reporting in the Journal of Environmental Chemical Engineering that cobalt-doped titanium-dioxide (CoO-TiO2) stops the reproduction of listeria monocytogenes in both light and dark conditions. This bacteriostatic effect could lead to bacterial control in food products that are not only sealed but also protected from light such as tetra packs, cans and dark glass or plastic bottles.

“The addition of cobalt, a heavy metal, drastically improved the effectiveness of titanium-dioxide because now it works under regular human conditions — sunlight, fluorescent light such as light bulbs and even in ‘the absence of light,’ like in a freezer,” said Francisco Robles, lead author for the study and associate professor of mechanical engineering technology.

Titanium-dioxide has long been an effective catalyst in the chemical industry with many applications, but it has limitations because ultraviolet light is needed to make it work, according to Robles. “UV light sources are in short supply in sunlight and producing it is expensive and a health hazard (e.g. carcinogen), so we set out to find a solution. Making it effective under natural light conditions is significant, and free,” he said.

A naturally occurring mineral, titanium-dioxide is often used in the food industry as an additive or whitening agent for sauces, dressings and powdered foods and is considered safe by the U.S. Food and Drug Administration. It’s also used in sunscreen for its protective effects against UV/UVB rays from the sun.

Sujata Sirsat, study co-author and assistant professor at UH’s Conrad N. Hilton College of Hotel and Restaurant Management, believes cobalt-doped titanium-dioxide, whether manufactured directly into food packaging or added to food products, could potentially reduce the risk for large listeria outbreaks in food processing environments.

“Listeria is a rare foodborne pathogen that can survive in refrigerated conditions. So, if you had a contaminated bowl of potato salad, not only can listeria survive, it can increase in numbers potentially causing a serious health issue. The cobalt-doped titanium dioxide can potentially stop the spread in its tracks,” said Sirsat, an expert in food safety and public health, who said toxicity testing is needed to determine its safety in food products.

An estimated 1,600 people get listeriosis each year from eating foods contaminated with listeria monocytogenes, and about 260 people die, according to the U.S. Centers for Disease Control and Prevention. The CDC has led investigations on 19 multistate listeria monocytogenes outbreaks involving fruits, vegetables, deli meats, cheeses and more since 2011. The infection is most likely to sicken pregnant women and their newborns, adults over 65 and people with weakened immune systems.

The researchers believe cobalt-doped titanium-dioxide could have a wide range of applications beyond bacteria control. “You could coat hospital plates with it to make them incapable of forming bacteria or coat the packaging of milk and other dairy products. You could even add it to paint to make bacteria-controlled paint. The possibilities are tremendous,” said Robles, who has been studying the effects of the chemical compound for nearly 15 years.

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Posted in Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, Listeria, Listeria monocytogenes, microbial contamination, Microbiology, Research, Technology, Uncategorized

Research – Effectiveness of a Novel, Rechargeable, Polycationic N-halamine Antibacterial Coating on Listeria Monocytogenes Survival in Food Processing Environments

Posted on July 19, 2020 by | Leave a comment

JFP

The goal of this research was to evaluate the efficacy of a novel rechargeable non-leaching polycationic N-halamine coating applied to stainless steel (STEEL) food contact surfaces to reduce Listeria monocytogenes contamination on ready-to-eat (RTE) foods. For this purpose, four L. monocytogenes strains were inoculated onto the charged (C; chlorine-activated) or uncharged (NC) N-halamine coated STEEL coupon surfaces (intact vs. scratched). After inoculation, test surfaces were incubated under different temperatures (2, 10, and 25°C) for different exposure times (0, 48, and 72 h). L. monocytogenes transfer from coated adulterated surfaces to ready to eat meat (beef sausages and roast beef) was also tested at 2 °C. Results showed that both intact-C and scratched-C coated surfaces showed significant reductions at any temperature; however, in presence of organic material, they were more effective in reducing L. monocytogenes at 2 °C and 10 °C than at 25 °C (p < 0.05). In contrast, INTACT-NC and SCRATCHED-NC increased their reduction capability at 25 °C (p < 0.05) decreasing the magnitude of difference of L. monocytogenes reduction with INTACT-C and SCRATCHED-C at the same temperature. Overall, higher L. monocytogenes reduction was observed for INTACT-C and SCRATCHED-C (≈ 4.1 ± 0.19 log CFU/cm2) than INTACT-NC and SCRATCHED-NC (≈ 2.3 ± 0.19 log CFU/cm2) at any temperature (p < 0.05). Additionally, the combination of the surface condition and chlorine presence on the N-halamine coating exposed for 2 h at 2 °C in presence of organic load (50 % meat purge) did not significantly affect the coating bactericidal efficacy. Regarding L. monocytogenes transfer to RTE meat, an overall reduction of ≈ 3.7 logs CFU/g was observed in sausages and roast beef. These findings suggest that a novel rechargeable N-halamine coating on STEEL surfaces has considerable potential to inactivate L. monocytogenes.

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Posted in Antibacterial, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Microbiology Research, Food Microbiology Testing, Food Technology, microbial contamination, Microbiology, Research, Technology, Uncategorized