Analysis of Foodborne Pathogenic Contamination of Cooked Hams and Sausages in Korean Processing Facilities

Hyun-Jung Park; Eun-Kyung Go; Sung-Hwan Wee; Ha-Chung Yoon; Eun-Jeong Heo; Young-Jo Kim; Hee-Soo Lee; Jin-San Moon

doi:10.5851/kosfa.2012.32.1.103

STERILIZATION AND PRESERVATION OF FORMULAS FOR INFANTS

PEDIATRICS ◽

10.1542/peds.20.6.993 ◽

1957 ◽

Vol 20 (6) ◽

pp. 993-999

Author(s):

Henry K. Silver

Keyword(s):

Practical Method ◽

Milk Mixture ◽

Spore Forming Bacteria ◽

Pathogenic Contamination

The "terminal" method of heating is the safest means of preparing artificial milk feedings for infants. There is no practical method of processing formula so that sterility is assured in every bottle. Certain organisms (particularly spore-forming bacteria) may survive regardless of the method used. Any departure from the usually recommended procedure for formula prepartion may be attended by the risk that the formula will become grossly contaminated. The term "terminal sterilization" as applied to the usual home method of preparation is a misnomer, since formulas may or may not be sterile even after "terminal" heating. The "aseptic" method of preparing formula, although theoretically safe if performed correctly, has the hazard that breaks in technique may occur and pathogenic contamination may result. Keeping terminally-heated formula at room or incubator temperatures for more than 6 hours may result in gross contamination of the formula by bacteria which were dormant in the milk-mixture. Although it is common practice in the home to prepare the required formula every day, the present experiments indicate that terminally-heated formula which is prepared with clean equipment, and then cooled and refrigerated immediately thereafter is bacteriologically safe for at least 2 or 3 days. A new supply of formula need not be made daily.

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Detection of Bacteria in Water with β-Galactosidase-Coated Magnetic Nanoparticles

SLAS TECHNOLOGY Translating Life Sciences Innovation ◽

10.1177/2472630318773407 ◽

2018 ◽

Vol 23 (6) ◽

pp. 624-630

Author(s):

Mingyue Cui ◽

Hao Chang ◽

Yang Zhong ◽

Min Wang ◽

Tianze Wu ◽

...

Keyword(s):

Drinking Water ◽

Bacterial Infections ◽

Cost Effective ◽

Clinical Settings ◽

Enzyme Complex ◽

Gram Negative Bacteria ◽

Effective Strategy ◽

Gram Negative ◽

Positively Charged ◽

Pathogenic Contamination

Pathogenic contamination and resistant bacterial infections remain critical concerns in both developed and developing countries. Rapid and sensitive detection of pathogens is still a key requirement for both environmental and clinical settings. This article introduces a simple, colorimetric, cost-effective, and high-throughput system based on a positively charged iron oxide/enzyme complex for the detection of both gram-positive and gram-negative bacteria in water between 103 and 108 cfu/mL. This study provides an effective strategy for the identification and purification of pathogen contamination in drinking water.

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Microbiological Reduction Strategies of Irrigation Water for Fresh Produce

Journal of Food Protection ◽

10.4315/jfp-19-466 ◽

2020 ◽

Vol 83 (6) ◽

pp. 1072-1087

Author(s):

J. L. BANACH ◽

H. J. van der FELS-KLERX

Keyword(s):

Primary Production ◽

Irrigation Water ◽

Fresh Produce ◽

Microbial Reduction ◽

Water Disinfection ◽

Mitigation Strategies ◽

Control Measures ◽

Reduction Strategies ◽

Pathogenic Contamination

ABSTRACT Irrigation water can be a source of pathogenic contamination of fresh produce. Controlling the quality of the water used during primary production is important to ensure food safety and protect human health. Several measures to control the microbiological quality of irrigation water are available for growers, including preventative and mitigation strategies. However, clear guidance for growers on which strategies could be used to reduce microbiological contamination is needed. This study evaluates pathogenic microorganisms of concern in fresh produce and water, the microbiological criteria of water intended for agricultural purposes, and the preventative and mitigative microbial reduction strategies. This article provides suggestions for control measures that growers can take during primary production to reduce foodborne pathogenic contamination coming from irrigation water. Results show that controlling the water source, regime, and timing of irrigation may help to reduce the potential exposure of fresh produce to contamination. Moreover, mitigation strategies like electrolysis, ozone, UV, and photocatalysts hold promise either as a single treatment, with pretreatments that remove suspended material, or as combined treatments with another chemical or physical treatment(s). Based on the literature data, a decision tree was developed for growers, which describes preventative and mitigation strategies for irrigation-water disinfection based on the fecal coliform load of the irrigation water and the water turbidity. It helps guide growers when trying to evaluate possible control measures given the quality of the irrigation water available. Overall, the strategies available to control irrigation water used for fresh produce should be evaluated on a case-by-case basis because one strategy or technology does not apply to all scenarios. HIGHLIGHTS

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Recent Advancements and Future Perspectives of Microalgae-Derived Pharmaceuticals

Marine Drugs ◽

10.3390/md19120703 ◽

2021 ◽

Vol 19 (12) ◽

pp. 703

Author(s):

Donghua Xia ◽

Wen Qiu ◽

Xianxian Wang ◽

Junying Liu

Keyword(s):

Recombinant Proteins ◽

Large Scale ◽

Low Cost ◽

Commercial Production ◽

Future Perspectives ◽

Cell Factories ◽

Microalgal Biotechnology ◽

Medicinal Properties ◽

Solar Powered ◽

Pathogenic Contamination

Microalgal cells serve as solar-powered factories that produce pharmaceuticals, recombinant proteins (vaccines and drugs), and valuable natural byproducts that possess medicinal properties. The main advantages of microalgae as cell factories can be summarized as follows: they are fueled by photosynthesis, are carbon dioxide-neutral, have rapid growth rates, are robust, have low-cost cultivation, are easily scalable, pose no risk of human pathogenic contamination, and their valuable natural byproducts can be further processed. Despite their potential, there are many technical hurdles that need to be overcome before the commercial production of microalgal pharmaceuticals, and extensive studies regarding their impact on human health must still be conducted and the results evaluated. Clearly, much work remains to be done before microalgae can be used in the large-scale commercial production of pharmaceuticals. This review focuses on recent advancements in microalgal biotechnology and its future perspectives.

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Contamination of Pork Carcasses during Slaughter, Fabrication, and Chilled Storage

Journal of Food Protection ◽

10.4315/0362-028x-58.9.993 ◽

1995 ◽

Vol 58 (9) ◽

pp. 993-997 ◽

Cited By ~ 33

Author(s):

JAIME J. SAIDE-ALBORNOZ ◽

C. LYNN KNIPE ◽

ELSA A. MURANO ◽

GEORGE W. BERAN

Keyword(s):

Staphylococcus Aureus ◽

Listeria Monocytogenes ◽

Yersinia Enterocolitica ◽

Pathogenic Bacteria ◽

Linear Increase ◽

Human Consumption ◽

Refrigerated Storage ◽

Salmonella Spp ◽

Chilled Storage ◽

Pathogenic Contamination

In an attempt to determine points of greatest pathogenic contamination of pork, the prevalence of five pathogens was determined on pork carcasses at specific points during slaughter, fabrication, and refrigerated storage. Pork carcass and loin surfaces were swabbed at three hog slaughtering plants. Carcasses were swabbed after singeing, after the final wash of the slaughter process, and after 24 h of chilled storage. Boneless loins were swabbed after trimming and deboning, but before packaging. Also, vacuum-packaged loins were sampled after 36 days of storage at 2°C. Staphylococcus aureus, Salmonella spp., and Listeria monocytogenes were the most prevalent. S. aureus isolates showed a significant linear increase (P = 0.0399) from slaughter to fabrication processes, with the highest numbers detected after 24 h of refrigerated storage. Trimming fat from surfaces of pork loins reduced the number of initial S. aureus counts, but there was no further reduction after 36 days of refrigerated storage. Salmonella were isolated primarily from pork before fabrication and refrigerated storage. A continuous reduction in the numbers of Salmonella isolates was detected from the point of singeing to the point of fabrication. No Salmonella were isolated from vacuum-packaged pork stored for 36 days at 2°C. The relatively higher prevalence of the psychrotrophic pathogenic bacteria L. monocytogenes and Yersinia enterocolitica in vacuum-packaged pork loins after 36 days of storage at 2°C indicates the need for proper cooking and handling of meats prior to human consumption.

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