Search

Your search keyword '"microbiological food safety"' showing total 3,030 results
Start Over "microbiological food safety"

Refine your results

more »

more »

more »

more »

more »

more »

more »

more »
3,030 results on '"microbiological food safety"'

153. Microbiological food safety

Author

James M. Jay

Subjects
Aflatoxin, business.industry, Food Handling, Microorganism, General Medicine, Biology, Food safety, Industrial and Manufacturing Engineering, United States, Biotechnology, Disease Outbreaks, Food Supply, Foodborne Diseases, Modified atmosphere, Food Microbiology, Animals, Humans, Identification (biology), Aseptic processing, Food science, business, Food Science
Published
1992

157. Emerging microbiological food safety issues

Subjects
Business, Business, international
Abstract

May 31, 2002 (Food Australia ABIX via COMTEX) -- It is unlikely that the food marketplace will be completely free of micro-organisms that are a danger to the health of [...]

Published
2002

158. Microbiological food safety issues raise questions

Author

Newsome, Rosetta

Subjects
Food industry -- Science and technology policy, Consumers -- Safety and security measures, Food handling -- Analysis, Business, Food and beverage industries
Abstract

Food scientists unanimously agreed that consumers should have a sound knowledge of handling, storage and preparation of food and food safety at a conference of the Food Safety and Inspection Services. They also emphasized the role of technologies such as HACCP, irradiation and organic acid carcass rinses in providing food safety. They opined that it is essential to educate the population about food safety risks, food production, preservation methods and personal hygiene.

Published
1994

159. Antimicrobial Efficacy of GS-2 on Reusable Food Packaging Materials for Specialty Crops.

Author

Wong, Catherine W. Y., Burton, Thomas, Carrera Montoya, Julio, Birje, Nupoor, Zhou, Xinyi, Salazar, Joelle K., Mackenzie, Jason M., Rau, Thomas F., Teplitski, Max, and Zhang, Wei

Subjects
PACKAGING materials, EDIBLE coatings, ESCHERICHIA coli, FOOD packaging, PLASTICS, NOROVIRUSES, ESCHERICHIA coli O157:H7
Abstract

The European Union (EU) regulations mandate 10% of all food packaging to be reusable by 2030. United States (U.S.) exporters of specialty crops face new challenges in ensuring microbiological food safety using reusable packaging. A novel antimicrobial formulation consisting of ammonium carboxylate salt of capric acid and L-arginine (GS-2) was recently developed as a spray coating chemical for food packaging materials. In this study, we evaluated the antimicrobial efficacy of GS-2 against microbial strains representing three foodborne bacterial pathogens (Escherichia coli O157:H7, Listeria monocytogenes, Salmonella enterica), one fungal spoilage organism (Aspergillus niger), and one surrogate viral pathogen (murine norovirus) on three reusable plastic materials (acrylonitrile butadiene styrene, high-density polyethylene, and polypropylene) and one cardboard packaging material, respectively. Different chemical concentrations, exposure times, and storage conditions were individually evaluated for the relative antimicrobial efficacies of GS-2 against these microorganisms. Our results showed that GS-2 was highly effective for inactivating bacterial pathogens on both plastic and cardboard surfaces. For instance, 3% GS-2 achieved a >5 log CFU/in2 reduction in E. coli O157:H7, L. monocytogenes, and S. enterica on tested plastic surfaces at an exposure time of 60 min. However, its efficacy against A. niger and murine norovirus was less optimal, resulting in a ≤1 log CFU/in2 reduction on all tested surfaces. Based on our study, GS-2 demonstrated a strong potential as an antibacterial coating reagent for reusable food packaging materials to minimize pathogen contamination and ensure the safety of the specialty crops. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

160. Radiation methods in decision support system for food safety

Author

Migdal Wojciech, Gryczka Urszula, Bertrandt Jerzy, Nowicki Tadeusz, and Pytlak Radosław

Subjects
decision support system, microbiological food safety, radiation methods, Science
Abstract

Mathematical model is the basis for computer decision support system (DSS) connected with food security strategy, in which food irradiation is one of the methods used for elimination of substance with pathogens. Such system can support an organisation of many different activities in the area of food safety. It can be designed for a specific region, country, etc., and is addressed to State Sanitary Inspection offices. The paper demonstrates the capabilities of the system in modeling activities of sanitary inspection teams aimed at pathogen elimination with the use of electron beam irradiation in procedures of utilisation of animal originated food, related packaging, or other microbiologically contaminated materials. It describes new application of both computer supported decision systems and radiation processing. The elaborated mathematical models show human activities in the process of microbiological contamination elimination.

Published
2014
Full Text
View/download PDF

161. Monitoring of Hygiene in Institutional Kitchens in Belgium

Author

Georges Daube, Marc Heyndrickx, Simone Krings, Bernard Taminiau, Evelyne Duthoo, Frédéric Leroy, K. De Reu, Social-cultural food-research, Department of Bio-engineering Sciences, Industrial Microbiology, and Faculty of Sciences and Bioengineering Sciences

Subjects
0303 health sciences, Hand washing, Child care, Microbiological food safety, Food contact, 030306 microbiology, business.industry, Aerobic bacteria, media_common.quotation_subject, 04 agricultural and veterinary sciences, 040401 food science, Microbiology, Microbiological food quality, 03 medical and health sciences, 0404 agricultural biotechnology, Kitchen utensils, Microbiological contamination, Kitchen hygiene, Hygiene, Environmental health, Medicine, Survey instrument, business, Food Science, media_common
Abstract

Microbiological contamination of food during preparation and storage is a risk factor in institutional kitchens. In this Belgian study, hygiene practices in 40 institutional kitchens from four public sectors (10 hospitals, 10 schools, 10 retirement homes, and 10 child care centers) were evaluated to determine whether differences in these practices exist between these sectors. Contamination levels were also analyzed at several critical contact points. A data collection instrument and microbiological analysis of hand contact surfaces, food contact surfaces, and kitchen utensils were used. Hand washing resulted in only a slight reduction in total aerobic bacteria counts (TACs), and all microorganisms evaluated except E. coli were still present at countable levels. Enterobacteriaceae were found on one-third of the cleaned cutting boards. Cleaned work surfaces had the highest average TAC of all cleaned surfaces. Only slight improvements in TACs and Enterobacteriaceae and B. cereus counts were observed between used and cleaned work surfaces. The results from the data collection instrument revealed that child care centers had the lowest hygiene scores, whereas the other three sectors were fairly similar, with hospitals scoring highest. The low hygiene score for the child care centers was verified by comparing the results for cleaned surfaces among the sectors. The average TAC on surfaces was highest for child care centers and lowest for hospitals. Child care centers also had the second highest total mean counts and the highest number of total surface samples positive for Enterobacteriaceae. The highest number of surface samples positive for Staphylococcus aureus was also found in child care centers. This study highlights some areas of concern for hygiene improvement in institutional kitchens, differences between public sectors, and similarities in conclusions about hygiene based on the scores from the survey instrument and the results of the microbiological analyses.

Published
2020
Full Text
View/download PDF

164. Sustainable Recovery of Polyphenols and Carotenoids from Horned Melon Peel via Cloud Point Extraction.

Author

Travičić, Vanja, Cvanić, Teodora, Vidović, Senka, Pezo, Lato, Hidalgo, Alyssa, Šovljanski, Olja, and Ćetković, Gordana

Subjects
SUSTAINABILITY, AGRICULTURAL wastes, FOOD waste, POINT cloud, NUTRITIONAL value, FOOD additives, CAROTENOIDS
Abstract

Using natural plant extracts as food additives is a promising approach for improving food products' quality, nutritional value, and safety, offering advantages for both consumers and the environment. Therefore, the main goal of this study was to develop a sustainable method for extracting polyphenols and carotenoids from horned melon peel using the cloud point extraction (CPE) technique, intending to utilize it as a natural food additive. CPE is novel promising extraction method for separation and pre-concentration of different compounds while being simple, inexpensive, and low-toxic. Three parameters within the CPE approach, i.e., pH, equilibrium temperature, and equilibrium time, were investigated as independent variables through the implementation of Box–Behnken design and statistical analyses. The optimized conditions for the maximum recovery of both polyphenols and carotenoids, reaching 236.14 mg GAE/100 g and 13.80 mg β carotene/100 g, respectively, were a pH value of 7.32, an equilibrium temperature of 55 °C, and an equilibrium time of 43.03 min. The obtained bioactives' recovery values under the optimized conditions corresponded to the predicted ones, indicating the suitability of the employed RSM model. These results highlight the effectiveness of CPE in extracting bioactive compounds with varying polarities from agricultural by-products, underscoring its potential for enhancing the value of food waste and advancing sustainable practices in food processing. According to microbiological food safety parameters, the optimal CPE extract is suitable for food applications, while its storage under refrigerated and dark conditions is particularly beneficial. The CPE extract's enhanced stability under these conditions makes it a more viable option for long-term storage, preserving both safety and quality. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

165. Health Hazard Associated with the Presence of Clostridium Bacteria in Food Products.

Author

Bilska, Agnieszka, Wochna, Krystian, Habiera, Małgorzata, and Serwańska-Leja, Katarzyna

Subjects
FOOD contamination, CLOSTRIDIUM botulinum, BACTERIAL toxins, CLOSTRIDIUM diseases, CLOSTRIDIUM
Abstract

Clostridium bacteria were already known to Hippocrates many years before Christ. The name of the Clostridium species is owed to the Polish microbiologist, Adam Prażmowski. It is now known that these Clostridium bacteria are widespread in the natural environment, and their presence in food products is a threat to human health and life. According to European Food Safety Authority (EFSA) reports, every year, there are poisonings or deaths due to ingestion of bacterial toxins, including those of the Clostridium spp. The strengthening of consumer health awareness has increased interest in consuming products with minimal processing in recent years, which has led to a need to develop new techniques to ensure the safety of microbiological food, including elimination of bacteria from the Clostridium genera. On the other hand, the high biochemical activity of Clostridium bacteria allows them to be used in the chemical, pharmaceutical, and medical industries. Awareness of microbiological food safety is very important for our health. Unfortunately, in 2022, an increase in infections with Clostridium bacteria found in food was recorded. Knowledge about food contamination should thus be widely disseminated. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

175. A Novel Technique for Sterilization Using a Power Self-Regulated Single-Mode Microwave Cavity

Author

Juan D. Reverte-Ors, Juan L. Pedreño-Molina, Pablo S. Fernández, Antonio J. Lozano-Guerrero, Paula M. Periago, and Alejandro Díaz-Morcillo

Subjects
biosensors, microbiological food safety, microwave cavity, power and temperature control, sterilization, animal by-products, Chemical technology, TP1-1185
Abstract

In this paper, a novel technique to achieve precise temperatures in food sterilization has been proposed. An accurate temperature profile is needed in order to reach a commitment between the total removal of pathogens inside the product and the preservation of nutritional and organoleptic characteristics. The minimal variation of the target temperature in the sample by means of a monitoring and control software platform, allowing temperature stabilization over 100 °C, is the main goal of this work. A cylindrical microwave oven, under pressure conditions and continuous control of the microwave supply power as function of the final temperature inside the sample, has been designed and developed with conditions of single-mode resonance. The uniform heating in the product is achieved by means of sample movement and the self-regulated power control using the measured temperature. Finally, for testing the sterilization of food with this technology, specific biological validation based on Bacillus cereus as a biosensor of heat inactivation has been incorporated as a distribution along the sample in the experimental process to measure the colony-forming units (CFUs) for different food samples (laboratory medium, soup, or fish-based animal by-products). The obtained results allow the validation of this new technology for food sterilization with precise control of the microwave system to ensure the uniform elimination of pathogens using high temperatures.

Published
2017
Full Text
View/download PDF

176. Risk-Based Approach for Microbiological Food Safety Management in the Dairy Industry: The Case of Listeria monocytogenes in Soft Cheese Made from Pasteurized Milk.

Author

Tenenhaus‐Aziza, Fanny, Daudin, Jean‐Jacques, Maffre, Alexandre, and Sanaa, Moez

Subjects
FOOD safety measures management, RISK assessment, DAIRY industry, MICROBIAL contamination, LISTERIA monocytogenes
Abstract

According to Codex Alimentarius Commission recommendations, management options applied at the process production level should be based on good hygiene practices, HACCP system, and new risk management metrics such as the food safety objective. To follow this last recommendation, the use of quantitative microbiological risk assessment is an appealing approach to link new risk-based metrics to management options that may be applied by food operators. Through a specific case study, Listeria monocytogenes in soft cheese made from pasteurized milk, the objective of the present article is to practically show how quantitative risk assessment could be used to direct potential intervention strategies at different food processing steps. Based on many assumptions, the model developed estimates the risk of listeriosis at the moment of consumption taking into account the entire manufacturing process and potential sources of contamination. From pasteurization to consumption, the amplification of a primo-contamination event of the milk, the fresh cheese or the process environment is simulated, over time, space, and between products, accounting for the impact of management options, such as hygienic operations and sampling plans. A sensitivity analysis of the model will help orientating data to be collected prioritarily for the improvement and the validation of the model. What-if scenarios were simulated and allowed for the identification of major parameters contributing to the risk of listeriosis and the optimization of preventive and corrective measures. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

177. Biological Characterization and Genomic Analysis of Three Novel Serratia - and Enterobacter -Specific Virulent Phages.

Author

Shymialevich, Dziyana, Błażejak, Stanisław, Średnicka, Paulina, Cieślak, Hanna, Ostrowska, Agnieszka, Sokołowska, Barbara, and Wójcicki, Michał

Subjects
GENOMICS, BACTERIOPHAGES, SERRATIA, ENTEROBACTER, WHOLE genome sequencing, ENTEROBACTER cloacae, SERRATIA marcescens
Abstract

Due to the high microbiological contamination of raw food materials and the increase in the incidence of multidrug-resistant bacteria, new methods of ensuring microbiological food safety are being sought. One solution may be to use bacteriophages (so-called phages) as natural bacterial enemies. Therefore, the aim of this study was the biological and genomic characterization of three newly isolated Serratia- and Enterobacter-specific virulent bacteriophages as potential candidates for food biocontrol. Serratia phage KKP_3708 (vB_Sli-IAFB_3708), Serratia phage KKP_3709 (vB_Sma-IAFB_3709), and Enterobacter phage KKP_3711 (vB_Ecl-IAFB_3711) were isolated from municipal sewage against Serratia liquefaciens strain KKP 3654, Serratia marcescens strain KKP 3687, and Enterobacter cloacae strain KKP 3684, respectively. The effect of phage addition at different multiplicity of infection (MOI) rates on the growth kinetics of the bacterial hosts was determined using a Bioscreen C Pro growth analyzer. The phages retained high activity in a wide temperature range (from −20 °C to 60 °C) and active acidity values (pH from 3 to 12). Based on transmission electron microscopy (TEM) imaging and whole-genome sequencing (WGS), the isolated bacteriophages belong to the tailed bacteriophages from the Caudoviricetes class. Genomic analysis revealed that the phages have linear double-stranded DNA of size 40,461 bp (Serratia phage KKP_3708), 67,890 bp (Serratia phage KKP_3709), and 113,711 bp (Enterobacter phage KKP_3711). No virulence, toxins, or antibiotic resistance genes were detected in the phage genomes. The lack of lysogenic markers indicates that all three bacteriophages may be potential candidates for food biocontrol. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

179. Stepwise quantitative risk assessment as a tool for characterization of microbiological food safety.

Author

van Gerwen, S.J.C., te Giffel, M.C., van ‘t Riet, K., Beumer, R.R., and Zwietering, M.H.

Subjects
MICROBIOLOGY, RISK assessment, MANUFACTURING processes, FOOD safety
Abstract

This paper describes a system for the microbiological quantitative risk assessment for food products and their production processes. The system applies a stepwise risk assessment, allowing the main problems to be addressed before focusing on less important problems. First, risks are assessed broadly, using order of magnitude estimates. Characteristic numbers are used to quantitatively characterize microbial behaviour during the production process. These numbers help to highlight the major risk-determining phenomena, and to find negligible aspects. Second, the risk-determining phenomena are studied in more detail. Both general and/or specific models can be used for this and varying situations can be simulated to quantitatively describe the risk-determining phenomena. Third, even more detailed studies can be performed where necessary, for instance by using stochastic variables. The system for quantitative risk assessment has been implemented as a decision supporting expert system called SIEFE: Stepwise and Interactive Evaluation of Food safety by an Expert System. SIEFE performs bacterial risk assessments in a structured manner, using various information sources. Because all steps are transparent, every step can easily be scrutinized. In the current study the effectiveness of SIEFE is shown for a cheese spread. With this product, quantitative data concerning the major risk-determining factors were not completely available to carry out a full detailed assessment. However, this did not necessarily hamper adequate risk estimation. Using ranges of values instead helped identifying the quantitatively most important parameters and the magnitude of their impact. This example shows that SIEFE provides quantitative insights into production processes and their risk-determining factors to both risk assessors and decision makers, and highlights critical gaps in knowledge. [ABSTRACT FROM AUTHOR]

Published
2000
Full Text
View/download PDF

180. A Novel Technique for Sterilization Using a Power Self-Regulated Single-Mode Microwave Cavity

Author

Alejandro Díaz-Morcillo, Paula M. Periago, Pablo S. Fernández, Antonio Jose Lozano-Guerrero, J.L. Pedreno-Molina, Juan D. Reverte-Ors, and Ministerio de Economía y Competitividad

Subjects
Novel technique, Materials science, Microbiological food safety, microbiological food safety, Microwave oven, animal by-products, Organoleptic, 02 engineering and technology, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, 0404 agricultural biotechnology, Power and temperature control, biosensors, microwave cavity, power and temperature control, sterilization, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Electrical and Electronic Engineering, Process engineering, Instrumentation, Microwave cavity, Teoría de la Señal y las Comunicaciones, Animal by-products, 3309.25 Esterilización de Alimentos, business.industry, Single-mode optical fiber, Sterilization, 020206 networking & telecommunications, 04 agricultural and veterinary sciences, Sterilization (microbiology), 040401 food science, Atomic and Molecular Physics, and Optics, Biosensors, business, Microwave, Biomedical engineering, Power control
Abstract

In this paper, a novel technique to achieve precise temperatures in food sterilization has been proposed. An accurate temperature profile is needed in order to reach a commitment between the total removal of pathogens inside the product and the preservation of nutritional and organoleptic characteristics. The minimal variation of the target temperature in the sample by means of a monitoring and control software platform, allowing temperature stabilization over 100 °C, is the main goal of this work. A cylindrical microwave oven, under pressure conditions and continuous control of the microwave supply power as function of the final temperature inside the sample, has been designed and developed with conditions of single-mode resonance. The uniform heating in the product is achieved by means of sample movement and the self-regulated power control using the measured temperature. Finally, for testing the sterilization of food with this technology, specific biological validation based on Bacillus cereus as a biosensor of heat inactivation has been incorporated as a distribution along the sample in the experimental process to measure the colony-forming units (CFUs) for different food samples (laboratory medium, soup, or fish-based animal by-products). The obtained results allow the validation of this new technology for food sterilization with precise control of the microwave system to ensure the uniform elimination of pathogens using high temperatures. This work was supported by the Ministerio de Economía y Competitividad under the project with reference DPI2014-61857-EXP.

Published
2017

181. Relevance of microbial finished product testing in food safety management

Author

Jeanne-Marie Membré, Marcel H. Zwietering, Liesbeth Jacxsens, Mats Peterz, Maarten Nauta, Laboratory of Food Microbiology, Wageningen University and Research [Wageningen] (WUR), Department of Food Safety and Food Quality, Universiteit Gent = Ghent University [Belgium] (UGENT), UMR 1014 SECurité des ALIments et Microbiologie, Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire, Agroalimentaire et de l'alimentation Nantes-Atlantique (ONIRIS), National Food Institute, Technical University of Denmark [Lyngby] (DTU), and Food Safety and Quality

Subjects
0301 basic medicine, Agriculture and Food Sciences, Microbiological food safety, 030106 microbiology, Ingénierie des aliments, COOKED HAM, Sampling, Verification, Levensmiddelenmicrobiologie, READY-TO-EAT, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Hazardous waste, [SDV.IDA]Life Sciences [q-bio]/Food engineering, Food engineering, Production (economics), Food microbiology, LISTERIA-MONOCYTOGENES, VLAG, business.industry, Product testing, Food safety, SALMONELLA, Biotechnology, Food packaging, MEAT-PRODUCTS, Risk analysis (engineering), Food Microbiology, Hazard analysis and critical control points, SURVIVAL, GROWTH, business, Risk assessment, CHOCOLATE, STORAGE, Food Science
Abstract

Management of microbiological food safety is largely based on good design of processes, products and procedures. Finished product testing may be considered as a control measure at the end of the production process. However, testing gives only very limited information on the safety status of a food. If a hazardous organism is found it means something, but absence in a limited number of samples is no guarantee of safety of a whole production batch. Finished product testing is often too little and too late. Therefore most attention should be focussed on management and control of the hazards in a more pro-active way by implementing an effective food safety management system. For verification activities in a food safety management system, finished product testing may however be useful. For three cases studies; canned food, chocolate and cooked ham, the relevance of testing both of finished products and the production environment is discussed. Since the level of control of different processes can be largely different it is beneficial if the frequency of sampling of finished products and production environments would be related to the associated human health risk, which can be assessed on the basis of risk assessment and epidemiological data. Keywords: Sampling; Verification; Microbiological food safety

Published
2016
Full Text
View/download PDF

184. Insight on Incorporation of Essential Oils as Antimicrobial Substances in Biopolymer-Based Active Packaging.

Author

Tomić, Ana, Šovljanski, Olja, and Erceg, Tamara

Subjects
ESSENTIAL oils, FOOD quality, PACKAGING, FOOD preservation, FOOD waste
Abstract

The increasing interest in microbiological food safety requires the development of sensitive and reliable analyses and technologies for preserving food products' freshness and quality. Different types of packaging systems are one of the solutions for controlling microbiological activity in foods. During the last decades, the development of biopolymer-based active packaging with essential oil incorporation systems has resulted in technologies with exceptional application potential, primarily in the food industry. There is no doubt that this principle can facilitate food status monitoring, reduce food waste, extend the shelf life, improve the overall quality of food, or indicate a larger problem during the storage, production, and distribution of foodstuffs. On the other hand, most antimicrobial packaging systems are in the development phase, while the sensitivity, selectivity, complexity, and, above all, safety of these materials are just some of the essential questions that need to be answered before they can be widely used. The incorporation of essential oils as antimicrobial substances in biopolymer-based active packaging holds significant promise for enhancing food safety, extending shelf life, and offering more sustainable packaging solutions. While challenges exist, ongoing research and innovation in this field are likely to lead to the development of effective and environmentally friendly packaging systems with enhanced antimicrobial properties. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

186. Prevalence and growth potential of Listeria monocytogenes in innovative, pre-packed, plant-based ready-to-eat food products on the Belgian market.

Author

Van Paepeghem, Charlie, Taghlaoui, Fatima, De Loy-Hendrickx, Anja, Vermeulen, An, Devlieghere, Frank, Jacxsens, Liesbeth, and Uyttendaele, Mieke

Subjects
*LISTERIA monocytogenes, *EDIBLE greens, *LACTIC acid bacteria, *LITERATURE reviews, *PRODUCT attributes, *VEGETARIAN foods
Abstract

In recent years, pre-packed ready-to-eat (RTE) food products on the Belgian market have shifted to a more plant-based composition due to a variety of reasons, including consumer concerns about health, animal welfare, and sustainability. However, similar to animal-based RTE foods, plant-based RTE foods can be susceptible to the presence and outgrowth of Listeria monocytogenes (L. monocytogenes). Three innovative, pre-packed, plant-based RTE food product categories on the Belgian market were identified based upon data gaps regarding the prevalence and growth potential of this pathogen. These were vegetarian and vegan deli sandwich slices (category 1), fresh-cut (mixes of) leafy vegetables (category 2), and multi-ingredient salad bowls (category 3). Reports on associated listeriosis outbreaks and recalls were collected and a comprehensive literature review on the prevalence of L. monocytogenes (i.e. detection in 25 g food) was performed. In addition, the prevalence of L. monocytogenes was also determined through an exploratory retail survey of ca. 50 different RTE products of each category. A batch was considered positive if L. monocytogenes was detected in a food item, either on the day of purchase, at the end of shelf life, or both. During the retail survey, L. monocytogenes was not detected in category 2 (0 out of 51 batches), while 1 out of 51 and 6 out of 48 batches were found positive for respectively category 1 and 3. The observed L. monocytogenes concentration did not exceed 10 CFU/g at any point in time in any batch. Furthermore, challenge tests were performed to determine the growth potential of L. monocytogenes in nine pre-packed, plant-based RTE food products (two to four different products of each category, and three different batches per product). After inoculation, products were stored for half of their shelf life at 7 °C and half of their shelf life at 9 °C (simulation of resp. retail and consumer storage). In six of the nine challenge tests executed, growth of L. monocytogenes was supported (i.e. growth potential ≥0.50 log 10 CFU/g during shelf life). The highest growth potential was observed for fresh-cut iceberg lettuce (3.60 log 10 CFU/g in 9 days), but a large variation regarding the growth potential of L. monocytogenes was noted both between and within the three studied pre-packed, plant-based RTE food product categories. This variation was mainly caused by differences in product composition, physicochemical product characteristics, present (competitive) microbiota such as lactic acid bacteria, applied preservation techniques, and shelf life. • Prevalence and growth potential of L. monocytogenes in plant-based RTE deli sandwich slices, leafy vegetables and salad bowls • The overall L. monocytogenes prevalence amounted to 4.6 % (7 out of 150 batches) • The L. monocytogenes concentration did not exceed 10 CFU/g at any time in any batch. • In 6 out of 9 challenge tests, growth of L. monocytogenes was supported. • Highest growth potential for fresh-cut iceberg lettuce: 3.6 log 10 CFU/g in 9 days [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

187. Application of a transmission model to estimate Performance Objectives for Salmonella in the broiler supply chain

Author

van der Fels-Klerx, H.J., Tromp, S., Rijgersberg, H., and van Asselt, E.D.

Subjects
*SALMONELLA, *PERFORMANCE standards, *SUPPLY chains, *BROILER chickens, *PATHOGENIC bacteria, *FOOD safety, *FOOD industry, *DECISION making
Abstract

Abstract: The aim of the present study was to demonstrate how Performance Objectives (POs) for Salmonella at various points in the broiler supply chain can be estimated, starting from pre-set levels of the PO in finished products. The estimations were performed using an analytical transmission model, based on prevalence data collected throughout the chain in The Netherlands. In the baseline (current) situation, the end PO was set at 2.5% of the finished products (at end of processing) being contaminated with Salmonella. Scenario analyses were performed by reducing this baseline end PO to 1.5% and 0.5%. The results showed the end PO could be reduced by spreading the POs over the various stages of the broiler supply chain. Sensitivity analyses were performed by changing the values of the model parameters. Results indicated that, in general, decreasing Salmonella contamination between points in the chain is more effective in reducing the baseline PO than increasing the reduction of the pathogen, implying contamination should be prevented rather than treated. Application of both approaches at the same time showed to be most effective in reducing the end PO, especially at the abattoir and during processing. The modelling approach of this study proved to be useful to estimate the implications for preceding stages of the chain by setting a PO at the end of the chain as well as to evaluate the effectiveness of potential interventions in reducing the end PO. The model estimations may support policy-makers in their decision-making process with regard to microbiological food safety. [Copyright &y& Elsevier]

Published
2008
Full Text
View/download PDF

188. A Risk–Benefit Analysis of First Nation's Traditional Smoked Fish Processing.

Author

Kitts, David D., Pratap-Singh, Anubhav, Singh, Anika, Chen, Xiumin, and Wang, Siyun

Subjects
BENZOPYRENE, FISHERY processing, RISK assessment, ESSENTIAL fatty acids, SMOKE, LISTERIA innocua, FISH as food
Abstract

First Nations (FN) communities have traditionally used smoke to preserve fish for food security purposes. In this study, an assessment of chemical and microbiological food safety, together with nutritional quality, was conducted on fish preserved using traditional smoke processing. High-molecular-weight polycyclic aromatic hydrocarbons (PAH) residues accounted for only 0.6% of the total PAH in traditionally fully smoked salmon, and Benzo(a)pyrene (B(a)P) was not detected in the FN smoked or commercial smoked fish, respectively. The antimicrobial activity of the solvent extracts derived from smoked fish towards Listeria innocua was very low but detectable. The practice of using full and half-smoked processing for fish reduced all of the fatty acid concentrations and also minimized the further loss of essential omega-3 fatty acids to a greater extent than non-smoked fish during storage (p < 0.05). This finding corresponded to lower (p < 0.05) lipid oxidation in smoked fish. We conclude that the benefits of reducing lipid oxidation and retaining essential fatty acids during storage, together with a potentially significant reduction in Listeria contamination, are notable benefits of traditional smoke processing. Although B(a)P was not detected in FN smoked fish, attention should be given to controlling the temperature and smoking period applied during this processing to minimize potential long-term risks associated with PAH exposure. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

189. Genetic, physiological, and cellular heterogeneities of bacterial pathogens in food matrices: Consequences for food safety.

Author

Martin, Cédric Saint, Jubelin, Grégory, Darsonval, Maud, Leroy, Sabine, Leneveu‐Jenvrin, Charlène, Hmidene, Ghaya, Omhover, Lysiane, Stahl, Valérie, Guillier, Laurent, Briandet, Romain, Desvaux, Mickaël, and Dubois‐Brissonnet, Florence

Subjects
FOOD pathogens, FOOD safety, HETEROGENEITY, HELPING behavior, FOOD contamination
Abstract

In complex food systems, bacteria live in heterogeneous microstructures, and the population displays phenotypic heterogeneities at the single‐cell level. This review provides an overview of spatiotemporal drivers of phenotypic heterogeneity of bacterial pathogens in food matrices at three levels. The first level is the genotypic heterogeneity due to the possibility for various strains of a given species to contaminate food, each of them having specific genetic features. Then, physiological heterogeneities are induced within the same strain, due to specific microenvironments and heterogeneous adaptative responses to the food microstructure. The third level of phenotypic heterogeneity is related to cellular heterogeneity of the same strain in a specific microenvironment. Finally, we consider how these phenotypic heterogeneities at the single‐cell level could be implemented in mathematical models to predict bacterial behavior and help ensure microbiological food safety. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

190. Photodynamic inactivation of edible photosensitizers for fresh food preservation: Comprehensive mechanism of action and enhancement strategies.

Author

Li H, Ni Y, Zhao J, Li Y, and Xu B

Subjects
Food Microbiology, Bacteria drug effects, Bacteria radiation effects, Photosensitizing Agents pharmacology, Photosensitizing Agents chemistry, Food Preservation methods
Abstract

Foodborne harmful bacteria not only cause waste of fresh food, but also pose a major threat to human health. Among many new sterilization and preservation technologies, photodynamic inactivation (PDI) has the advantages of low-cost, broad-spectrum, energy-saving, nontoxic, and high efficiency. In particular, PDI based on edible photosensitizers (PSs) has a broader application prospect due to edible, accessible, and renewable features, it also can maximize the retention of the nutritional characteristics and sensory quality of the food. Therefore, it is meaningful and necessary to review edible PSs and edible PSs-mediated PDI, which can help to arouse interest and concern and promote the further development of edible PSs-mediated PDI in the future field of nonthermally sterilized food preservation. Herein, the classification and modification of edible PSs, PS-mediated in vivo and PS-mediated in vitro mechanism of PDI, strengthening strategy to improve PDI efficiency by the structure change synergistic and multitechnical means, as well as the application in fresh food preservation were reviewed systematically. Finally, the deficiency and possible future perspectives of edible PSs-mediated PDI were articulated. This review aimed to provide new perspective for the future food preservation and microbial control., (© 2024 Institute of Food Technologists®.)

Published
2024
Full Text
View/download PDF

191. Growth prediction and time–temperature criteria model of Vibrio parahaemolyticus on traditional Korean raw crab marinated in soy sauce (ganjang-gejang) at different storage temperatures.

Author

Chung, Kye-Hun, Park, Myoung Su, Kim, Hae-Yeong, and Bahk, Gyung Jin

Subjects
*VIBRIO parahaemolyticus, *SOY sauce, *SEAFOOD poisoning, *FOOD storage, *FOOD pathogens
Abstract

Abstract Vibrio parahaemolyticus is one of the most common causes of seafood-borne illnesses in South Korea and is typically found on traditional Korean raw crab marinated in soy sauce (ganjang-gejang). In this study, we investigated the growth of a cocktail of three V. parahaemolyticus strains (NCCP13712, NCCP13714, and NCCP14551) from ganjang-gejang stored at different temperatures (5 °C, 10 °C, 15 °C, 20 °C, 25 °C, and 30 °C) for up to 144 h. The growth data were fitted to a curve to estimate primary kinetic parameters including lag time (LT), specific growth rate (SGR), and maximum population density (MPD) using DMFit. The model performance was evaluated by calculating bias (B f) (1.0002–1.0032) and accuracy (A f) (1.0226–1.0431). A secondary model of LT, SGR, and MPD was developed as the four-parameter polynomial model (all R 2 = 1). Based on the developed predictive model, we established the time-temperature criteria (TTC) model for determining the time and temperature for ensuring microbiological food safety. According to the model, V. parahaemolyticus on ganjang-gejang increases about 1 log growth ratio (LGR) from the initial cell number after storage for 10.8, 5.2, and 4.7 h at 16 °C, 22 °C, and 28 °C, respectively. If 1 LGR is set as the food safety standard, these time and temperature values are recommended as the appropriate TTC values for V. parahaemolyticus on ganjang-gejang. Thus, the predictive TTC model can provide a guideline for safe storage parameters that ensure microbiological food safety in the context of certain foodborne pathogens. Highlights • Vibrio parahaemolyticus on ganjang-gejang is a major cause of foodborne disease. • We developed a predictive growth model for V. parahaemolyticus. • The time-temperature criteria (TTC) model establishes microbiological food safety. • The model can prevent of foodborne illness caused by inappropriate food storage. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

192. Development of Desiccation-Tolerant Probiotic Biofilms Inhibitory for Growth of Foodborne Pathogens on Stainless Steel Surfaces.

Author

Kim, Jong-Hui, Lee, Eun-Seon, Song, Kyoung-Ja, Kim, Bu-Min, Ham, Jun-Sang, and Oh, Mi-Hwa

Subjects
STAINLESS steel, FOOD pathogens, ESCHERICHIA coli O157:H7, LACTIC acid bacteria, BIOFILMS, LISTERIA monocytogenes, FOOD contamination
Abstract

Lactic acid bacteria biofilms can be used to reduce foodborne pathogen contamination in the food industry. However, studies on growth inhibition of foodborne pathogens by inducing biofilm formation of antagonistic microorganisms on abiotic surfaces are rare. We developed a desiccation-tolerant antimicrobial probiotic biofilm. Lactobacillus sakei M129-1 and Pediococcus pentosaceus M132-2 isolated from fermented Korean foods were found to exhibit broad-spectrum antibacterial activity against Bacillus cereus, Escherichia coli O157:H7, Staphylococcus aureus, Listeria monocytogenes, and Salmonella enterica. Their biofilm levels were significantly (p < 0.05) higher on stainless steel than on polyethylene or ceramic. Biofilms of both isolates showed significantly (p < 0.05) enhanced resistance against desiccation (exposure to 43% atmospheric relative humidity) as compared with the isolates not in the biofilm form. The antimicrobial activity of the isolates was sustained in dried biofilms on stainless steel surface; the initial number of foodborne pathogens (average 7.0 log CFU/mL), inoculated on stainless steel chips containing L. sakei M129-1 or P. pentosaceus M132-2 biofilm decreased to less than 1.0 log CFU within 48 h. The lactic acid bacteria antibacterial biofilms developed in this study may be applied to desiccated environmental surfaces in food-related environments to improve microbiological food safety. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

193. Adoptable Interventions, Human Health, and Food Safety Considerations for Reducing Sodium Content of Processed Food Products.

Author

Allison, Abimbola and Fouladkhah, Aliyar

Subjects
FOOD safety, SODIUM content of food, PROCESSED foods, HYPERTENSION, PATIENTS, PREHYPERTENSION, PHYSIOLOGY
Abstract

Although vital formaintaining healthwhen consumed inmoderation, various epidemiological studies in recent years have shown a strong association between excess dietary sodium with an array of health complications. These associations are robust and clinically significant for development of hypertension and prehypertension, two of the leading causes of preventable mortality worldwide, in adults with a high-sodium diet. Data from developed nations and transition economies show worldwide sodium intake of higher than recommended amounts in various nations. While natural foods typically contain a moderate amount of sodium, manufactured food products are the main contributor to dietary sodium intake, up to 75% of sodium in diet of American adults, as an example. Lower cost in formulation, positive effects on organoleptic properties of food products, effects on food quality during shelf-life, and microbiological food safety, make sodium chloride a notable candidate and an indispensable part of formulation of various products. Although low-sodium formulation of each product possesses a unique set of challenges, review of literature shows an abundance of successful experiences for products of many categories. The current study discusses adoptable interventions for product development and reformulation of products to achieve a modest amount of final sodium content while maintaining taste, quality, shelf-stability, and microbiological food safety. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

194. Reduction of Salmonella enterica and Pathogenic Escherichia coli in Pasta by Using Common Cooking Methods.

Author

de Senna, Toni, Abd, Shirin J., Borjas, Eva, Nillo, Anne, and Ferstl, Carrie

Subjects
SALMONELLA enterica, ESCHERICHIA coli, PASTA, MICROWAVE cooking, FOOD safety
Abstract

Recent outbreaks and recalls associated with Salmonella enterica and pathogenic Escherichia coli in flour, a major ingredient in pasta, have prompted assessment of the microbiological lethality of cooking methods used to prepare dry pasta products for consumption. In this study, three types of dry pasta inoculated with multistrain cocktails of S. enterica and pathogenic E. coli were subjected to typical cooking treatments: elbow noodles were exposed to microwave cooking (2.5 min on high setting; minimum power output of 720 W) as part of an "elbow noodles in a cup" product, flat noodles were cooked on a stovetop in boiling water (6 min in boiling water), and no-boil lasagna noodles were exposed to baking as part of a three-layer lasagna (50 min in an oven preheated to 204°C). The average population levels of S. enterica and pathogenic E. coli in all three types of the dry noodles were >6.5 log most probable number per gram. Each cooking method evaluated reduced S. enterica and pathogenic E. coli population levels to <0.5 log most probable number per gram, resulting in >6-log reductions. The results of this study demonstrate that the cooking processes evaluated are capable of mitigating the microbiological food safety risks associated with dry pasta. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

195. Relevance of microbial finished product testing in food safety management

Author

Zwietering, M.H., Jacxsens, L., Membre, J.M., Nauta, M., Peterz, M., Zwietering, M.H., Jacxsens, L., Membre, J.M., Nauta, M., and Peterz, M.

Abstract

Management of microbiological food safety is largely based on good design of processes, products and procedures. Finished product testing may be considered as a control measure at the end of the production process. However, testing gives only very limited information on the safety status of a food. If a hazardous organism is found it means something, but absence in a limited number of samples is no guarantee of safety of a whole production batch. Finished product testing is often too little and too late. Therefore most attention should be focussed on management and control of the hazards in a more pro-active way by implementing an effective food safety management system. For verification activities in a food safety management system, finished product testing may however be useful. For three cases studies; canned food, chocolate and cooked ham, the relevance of testing both of finished products and the production environment is discussed. Since the level of control of different processes can be largely different it is beneficial if the frequency of sampling of finished products and production environments would be related to the associated human health risk, which can be assessed on the basis of risk assessment and epidemiological data. Keywords: Sampling; Verification; Microbiological food safety

Published
2016

196. Guidance on date marking and related food information: part 2 (food information)

Author

Koutsoumanis, Konstantinos, Allende, Ana, Alvarez‐Ordóñez, Avelino, Bolton, Declan, Bover‐Cid, Sara, Chemaly, Marianne, Davies, Robert, De Cesare, Alessandra, Herman, Lieve, Hilbert, Friederike, Nauta, Maarten, Peixe, Luisa, Ru, Giuseppe, Simmons, Marion, Skandamis, Panagiotis, Suffredini, Elisabetta, Jacxsens, Liesbeth, Skjerdal, Taran, Da Silva Felício, Maria Teresa, and Hempen, Michaela

Abstract

A risk‐based approach was used to develop guidance to be followed by food business operators (FBOs) when deciding on food information relating to storage conditions and/or time limits for consumption after opening a food package and thawing of frozen foods. After opening the package, contamination may occur, introducing new pathogens into the food and the intrinsic (e.g. pH and aw), extrinsic (e.g. temperature and gas atmosphere) and implicit (e.g. interactions with competing background microbiota) factors may change, affecting microbiological food safety. Setting a time limit for consumption after opening the package (secondary shelf‐life) is complex in view of the many influencing factors and information gaps. A decision tree (DT) was developed to assist FBOs in deciding whether the time limit for consumption after opening, due to safety reasons, is potentially shorter than the initial ‘best before’ or ‘use by’ date of the product in its unopened package. For products where opening the package leads to a change of the type of pathogenic microorganisms present in the food and/or factors increasing their growth compared to the unopened product, a shorter time limit for consumption after opening would be appropriate. Freezing prevents the growth of pathogens, however, most pathogenic microorganisms may survive frozen storage, recover during thawing and then grow and/or produce toxins in the food, if conditions are favourable. Moreover, additional contamination may occur from hands, contact surfaces or contamination from other foods and utensils. Good practices for thawing should, from a food safety point of view, minimise growth of and contamination by pathogens between the food being thawed and other foods and/or contact surfaces, especially when removing the food from the package during thawing. Best practices for thawing foods are presented to support FBOs. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

197. Modeling Bacillus cereus Growth and Cereulide Formation in Cereal-, Dairy-, Meat-, Vegetable-Based Food and Culture Medium.

Author

Ellouze, Mariem, Buss Da Silva, Nathália, Rouzeau-Szynalski, Katia, Coisne, Laura, Cantergiani, Frédérique, and Baranyi, József

Subjects
BACILLUS cereus, SQUARE root, BACTERIAL growth, SHELLFISH, INDEPENDENT sets, FOOD safety
Abstract

This study describes the simultaneous Bacillus cereus growth and cereulide formation, in culture medium and cereal-, dairy-, meat-, and vegetable-based food matrices. First, bacterial growth experiments were carried out under a wide range of temperatures (from 9 to 45°C), using the emetic reference strain F4810/72, in the above-mentioned matrices. Then, the generated data were put in a modeling framework where the response variable was a vector of two components: the concentration of B. cereus and that of its toxin, cereulide. Both were considered time-, temperature- and matrix-dependent. The modeling was carried out in a series of steps: the parameters fitted in one step became the response variable of the following step. Using the square root link function, the maximum specific growth rate of the organism and the time to the appearance of quantifiable cereulide were modeled against temperature by cardinal parameters models (CPM), for each matrix. Finally, a validation study was carried out on an independent data set obtained in the same matrices and using various Bacillus cereus strains. Results showed that both growth and toxin-formation depended on the food matrix and on the environment but not in the same way. Thus, the matrix (culture medium), where the highest growth rate of B. cereus was observed, was not the medium where the shortest time to quantifiable cereulide occurred. While the cereal-based matrix generated the smallest growth rates (0.41-times smaller than culture medium did), quantifiable cereulide appeared in it at earlier times compared to the other tested matrices. In fact, three groups of matrices could be distinguished based on their ability to support cereulide formation (1) the cereal-based matrix (highest), (2) the culture medium and the dairy-based matrix (intermediate), and (3) the meat- and vegetable-based matrices (lowest). This ranking between the matrices is quite different from that based on their suitability to the growth of the organism. Our models can be used in HACCP studies, to improve shelf-life predictions and, generally, microbiological food safety assessments of products for which B. cereus is the main concern. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

198. Implementation of the hazard analysis critical control point (HACCP) method to improve microbiological food safety in peri-urban Mali

Author

Toure, Ousmane

Subjects
615.9
Abstract

Diarrhoeal diseases remain a main cause of preventable death, particularly among children under five years of age in developing countries. In addition, many studies related to infant diarrhoea causation have demonstrated that the level of contamination is higher in weaning foods than in drinking water. Furthermore, many studies addressed food microbiological contamination and its role in diarrhoea causation. But few of them resulted in an intervention. Although the Hazard Analysis, Critical Control Point (HACCP) approach has been developed and widely applied to food promotion in industrialised countries, and adapted to small and/or less Developed Businesses, few studies have examined its relevance to domestic preparation of food. However, these latter predicted that the implementation of the approach could lead to an improvement of household bacteriological food safety, but none of them completed the approach to find out how effective it is. Therefore, this study aimed to take that work one step further, and carried out a small-scale intervention developed on the basis of the HACCP approach. This latter has been extended to health district level in order to find out its impact on microbial reduction in weaning food. Experiment: The HACCP approach has been applied step by step, to two selected weaning foods prepared by 15 volunteer mothers in peri urban Mali. After setting Critical Control Point (CCP), actions were taken to control, reduce or eliminate microbial growth at these points. 432 food samples were collected and analysed in local Laboratory for FC count to assess the effectiveness of the approach. Lessons learnt were translated into messages delivered in a pilot study. Pilot study: Sample of 60 volunteer mothers selected randomly was split into two groups of 30, the first undergoing messages directed to actions implementation, and the second standing as a control. Bacteriological samples were taken and analysed and physical parameters were measured,· as in the experiment, in 60 households before the intervention and data collected set as baseline. After three weeks training, alongside with observations, foods samples were taken in both intervention and control households for Fe count in local Laboratory. Flow diag~ams of foods, Moni and Fish Soup indicated that they were exposed to contamination at all steps of their preparation and handling. The hazard analysis confirmed FC contamtnation of all suspected steps except cooking. Four CCPs were identified for each food (cooking, reheating, child service with cooled food after cooking, and child service with cooled food after reheating). The experiment showed that traditional cooking was very effective in FC elimination; reheating was as effective as cooking when adopted, because no difference existed between two operations' temperatures (P

Published
2009

199. A Microbial Assessment Scheme to measure microbial performance of Food Safety Management Systems

Author

Jacxsens, L., Kussaga, J., Luning, P.A., Van der Spiegel, M., Devlieghere, F., and Uyttendaele, M.

Subjects
*FOOD safety, *FOOD microbiology, *FOOD industry, *HEALTH risk assessment, *MICROORGANISM populations, *PERFORMANCE evaluation, *STATISTICAL sampling, *MEAT microbiology
Abstract

Abstract: A Food Safety Management System (FSMS) implemented in a food processing industry is based on Good Hygienic Practices (GHP), Hazard Analysis Critical Control Point (HACCP) principles and should address both food safety control and assurance activities in order to guarantee food safety. One of the most emerging challenges is to assess the performance of a present FSMS. The objective of this work is to explain the development of a Microbial Assessment Scheme (MAS) as a tool for a systematic analysis of microbial counts in order to assess the current microbial performance of an implemented FSMS. It is assumed that low numbers of microorganisms and small variations in microbial counts indicate an effective FSMS. The MAS is a procedure that defines the identification of critical sampling locations, the selection of microbiological parameters, the assessment of sampling frequency, the selection of sampling method and method of analysis, and finally data processing and interpretation. Based on the MAS assessment, microbial safety level profiles can be derived, indicating which microorganisms and to what extent they contribute to food safety for a specific food processing company. The MAS concept is illustrated with a case study in the pork processing industry, where ready-to-eat meat products are produced (cured, cooked ham and cured, dried bacon). [Copyright &y& Elsevier]

Published
2009
Full Text
View/download PDF

200. Data from Warsaw University of Life Sciences Advance Knowledge in Enterobacter (Biological Characterization and Genomic Analysis of Three Novel Serratia - and Enterobacter -Specific Virulent Phages).

Subjects
ENTEROBACTER, GENOMICS, SERRATIA, BACTERIOPHAGES, GRAM-negative anaerobic bacteria, LIFE sciences
Abstract

A recent report from Warsaw University of Life Sciences discusses the potential use of bacteriophages, or phages, as natural enemies of bacteria to ensure microbiological food safety. The study focused on the biological and genomic characterization of three newly isolated phages that specifically target Serratia and Enterobacter bacteria. The phages were found to be active over a wide temperature and pH range and did not contain virulence, toxins, or antibiotic resistance genes. The researchers concluded that these phages could be potential candidates for food biocontrol. [Extracted from the article]

Published
2024

Catalog

Books, media, physical & digital resources
See catalog results