McMaster researchers have developed a novel new gel made entirely from bacteria-killing viruses.
The anti-bacterial gel, which can be targeted to attack specific forms of bacteria, holds promise for numerous beneficial applications in medicine and environmental protection.
Among many possibilities, it could be used as an antibacterial coating for implants and artificial joints, as a sterile growth scaffold for human tissue, or in environmental cleanup operations, says chemical engineer Zeinab Hosseini-Doust.
Her lab, which specializes in developing engineering solutions for infectious disease, grew, extracted and packed together so many of the viruses — called bacteriophages, or simply phages — that they assembled themselves spontaneously into liquid crystals and, with the help of a chemical binder, formed into a gelatin-like substance that can heal itself when cut.
Quality Assurance Mag
What if you could kill 99% of the potentially harmful bacteria on the surface of your fresh produce in one minute with just the flip of a switch? Consumers could have devices similar in size and operation to a microwave oven, while restaurants and food processors could have larger devices built into their production and processing lines – no water, no waste, no antimicrobial resistance, minimal chemical residues, and completely sustainable with only a small amount of electricity and air needed. This has become plausible due to research at the University of Maryland (UMD) focused on innovative work in low-temperature plasma science.
The 414 cases notified in 2017 were the highest number of salmonellosis cases reported
in Ireland since 2008
International travel is a large contributor to the overall burden of salmonellosis in Ireland (40%), in particular in summer months
The most common serotypes reported in Ireland and internationally are S. Enteritidis and S. Typhimurium, with S. Typhimurium the more prevalent among cases acquired in
The highest reported incidence was in children under five years, with this effect being
more pronounced among cases acquired in Ireland
A large outbreak of S. Brandenburg in HSE-E resulted in this serotype being the third
most common serotype in Ireland this year. This highlights the continued potential for
foodborne outbreaks of salmonellosis
The introduction of WGS at the NSSLRL has contributed to confirmation of suspected
outbreaks and to the identification of outbreaks which may not have been recognised on
epidemiological grounds alone
WGS has also enabled a small cluster of cases in Ireland to be recognised as being part
of a much larger EU incident
Posted in food bourne outbreak, food contamination, Food Hygiene, Food Illness, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Pathogen, Food Safety, Food Testing, foodborne outbreak, foodbourne outbreak, outbreak, Research, Salmonella, Uncategorized
Wherever there’s water, there’s bound to be bubbles floating at the surface. From standing puddles, lakes, and streams, to swimming pools, hot tubs, public fountains, and toilets, bubbles are ubiquitous, indoors and out.
A new MIT study shows how bubbles contaminated with bacteria can act as tiny microbial grenades, bursting and launching microorganisms, including potential pathogens, out of the water and into the air.
In the study, published in the journal Physical Review Letters, the researchers found that bacteria can affect a bubble’s longevity: A bacteria-covered bubble floating at the water’s surface can last more than 10 times longer than an uncontaminated one can, persisting for minutes instead of seconds. During this time, the cap of the contaminated bubble thins. The thinner the bubble, the higher the number of droplets it can launch into the air when the bubble inevitably bursts. A single droplet, the researchers estimate, can carry up to thousands of microorganisms, and each bubble can emit hundreds of droplets.
Birds are important intermediated hosts of Toxoplasma gondii. Consumption of chicken meat and its infected products is one of the main sources of human infection with T. gondii. However, little information is available about T. gondii infection in egg. In this study, the contamination of industrial and local eggs with Toxoplasma was investigated by PCR method targeting the RE gene in two tropical cities of Iran. Genotypes of T. gondii were determined by PCR‐RFLP method targeting the SAG3 gene. T. gondii DNA was detected in 11% (22/200) of the eggs. Genotyping of 14 T. gondii isolates revealed that all of the isolates were belonged to genotype III of T. gondii. Sequencing of the isolates by the SAG3 gene showed 95%–100% similarity with the T. gondii isolates in GenBank.
The findings of this study suggested that consumption of raw or undercooked eggs might play a role in human infection with Toxoplasma. Hence, consumption of adequately cooked eggs should be considered for prevention of human toxoplasmosis.
Posted in food contamination, Food Hygiene, Food Inspections, Food Micro Blog, Food Microbiology, Food Microbiology Blog, Food Safety, Food Testing, Parasite, Research, Toxoplasma gondii, Toxoplasmosis, Uncategorized
Journal of Food Protection
A sampling method that represents a greater proportion of the beef trimmings in a 900-kg combo bin should improve the current pathogen sampling and detection programs used by fresh beef processors. This study compared two novel, nondestructive sampling methodologies (a continuous sampling device [CSD] and a manual sampling device [MSD]) with the current industry methodologies, the N60 Excision (the “gold standard”) and N60 Plus, for collection of trim samples. Depending on the experiment, samples were analyzed for naturally occurring Escherichia coli O157:H7 or Salmonella, inoculated surrogates, or indicator organisms in multiple plants, on multiple days, across multiple lean percentage mixtures. Experiments 1A and 1B with natural contamination found no E. coli O157:H7 but similar (P > 0.05) prevalence of Salmonella (CSD 9.2% versus N60 Excision 6.0%) and similar (P > 0.05) levels of indicator organisms for CSD compared with both N60 methodologies. In experiments 2 and 3, CSD cloth sampling had the same or higher prevalence of naturally occurring E. coli O157:H7 and E. coli O157:H7 surrogate organisms, as well as similar levels of indicator organisms compared with the N60 methodologies. In experiment 4, MSD cloth sampling detected similar (P > 0.05) prevalence of E. coli O157:H7 surrogate organisms, as well as slightly lower (P < 0.05) levels of indicator organisms compared with N60 Plus. In experiment 5, the MSD found similar (P > 0.05) prevalence of naturally occurring E. coli O157:H7 and the same or slightly higher (P < 0.05) levels of naturally occurring indicator organisms compared with N60 Plus. In experiment 6, the MSD detected the same (P > 0.05) prevalence of naturally occurring Salmonella as did N60 Excision. The results of these experiments collectively demonstrate that sampling beef trim using either the CSD or MSD provides organism recovery that is similar to or better than the N60 Excision or the N60 Plus methodologies.
We have today published the results of a survey we commissioned to assess the amount of antimicrobial resistance (AMR) in bacteria in fresh pork mince and fresh and frozen chicken on sale in shops in the UK. These findings will help to establish a baseline of the occurrence, types and levels of AMR in bacteria found in these UK retail meats which will inform future surveillance on AMR in these foods.
This survey follows on from an authoritative report by a group established by the Advisory Committee on Microbiological Safety of Food (ACMSF) to advise us on research questions and potential approaches to AMR in the food chain.
The survey involved the testing of Campylobacter in chicken samples and Salmonella in pork mince samples for the occurrence of antimicrobial resistant bacteria. The survey also looked for AMR in other bacteria in both types of meat including Enterococci, Klebsiella and Escherichia coli. Read the final report of the survey.