In this article, we discuss the enumerative analysis for Escherichia coli O157 in two raw milk Gouda cheese products (A and B), implicated in an outbreak of 29 cases of E. coli O157:H7 illness that occurred across Canada in 2013. Samples were enumerated for E. coli O157 by most probable number (MPN) over a period of 30 to 60 days after the end of the outbreak. Samples (55.55 g) of product A (n = 14) were analyzed at 146 to 180 days postproduction. E. coli O157 was isolated from six samples at 19.9 to 44.6 MPN/kg. The E. coli O157 concentration of product A estimated from the results of all 14 samples was 9.5 MPN/kg. Samples (55.55 g) of product B (n = 20) were analyzed at 133 to 149 days postproduction. E. coli O157 was isolated from four samples at 19.9 MPN/kg. The E. coli O157 concentration of product B estimated from the results of all 20 samples was 3.7 MPN/kg. Analysis of a 305-g sample of product A (n = 1) stored at 4°C until 306 days postproduction revealed that the E. coli O157 concentration had declined to 3.6 MPN/kg. E. coli O157 could not be isolated from 555-g samples of product B (n = 5) after 280 days postproduction. The physicochemical parameters (pH, water activity, percent moisture, and percent salt) of both cheese products were found to be in the normal range for this type of product. The results of this study demonstrate that E. coli O157 could not replicate during storage at 4°C in the products tested but was capable of survival following aging and prolonged storage. This indicates that, if contaminated, the minimum 60-day aging period, which is required for raw milk Gouda cheeses, is not sufficient in all cases to ensure that the product does not contain viable cells of E. coli O157. The results also indicate that samples sizes greater than 100 g may be required to reliably detect E. coli O157 in cheese products associated with outbreaks.
A simple dot blot enzyme immunoassay was developed to screen enrichment broth cultures for the presence of Salmonella. This unique system utilizes macroporous polyester cloth (Polymacron) with an inexpensive hemoglobin coating to provide a high-affinity adsorbent for lipopolysaccharide (LPS) antigens in test samples. Bound LPS antigens are then detected using a monoclonal antibody conjugate recognizing a core oligosaccharide epitope common to all salmonellae frequently found in foods and related samples. The entire test (not including enrichment culture) could be completed in less than 1 h. The performance of this assay was evaluated in the analysis of enrichment broth cultures from a variety of egg and dairy products, chicken carcasses, animal feeds, and food-processing plant environmental samples for the presence of Salmonella.
Shellfish are an important cause of foodborne viral illness. Consumer-friendly cooking recommendations for shellfish could improve food safety and decrease the risk for infection from contaminated products. Thermal inactivation parameters were established for hepatitis A virus (HAV) in mussels and validated with cooking experiments. Steaming for only 2-5 min was not sufficient to inactivate HAV in mussels in all layers of a steamer. Steaming mussels for 6 min was sufficient to inactivate HAV in all layers. These cooking guidelines produce shellfish with a reduced risk for foodborne virus transmission.
Despite the increasing popularity of sprouted chia and flax seed powders, no data have been reported on their intrinsic physicochemical properties and background microflora. Here, we report the moisture content, water activity, pH, and fatty acid methyl ester and bacteriological profiles of 19 sprouted chia and flax seed samples, 10 of which were associated with an outbreak of salmonellosis in Canada and the United States. The physicochemical parameters of the Salmonella-positive samples did not differ significantly from those of the negative samples. However, the higher Enterobacteriaceae and coliform levels on the contaminated powders were associated with the presence of Salmonella. Enumeration of Salmonella by the most probable number (MPN) method revealed concentrations ranging from 1 MPN per 3 g of powder to 1 MPN per 556 g of powder. The results of this study demonstrate that low numbers of Salmonella may be linked to foodborne outbreaks.
The affinity of hemoglobin for lipopolysaccharides (LPS) was exploited in its use as an inexpensive capture agent for LPS antigens in the enzyme immunoassay (EIA) of Gram negative bacteria. Two EIA formats were examined. In one, the macroporous solid phase PolymacronTM coated with hemoglobin was used to capture cholate‐heat extracted LPS antigens from broth cultures of representative Gram negative bacteria, including different Salmonella serotypes, which were then detected immunoenzymatically using specific antibodies. This provided a rapid, simple and inexpensive dot blot assay for these bacteria which minimized the requirement for laboratory equipment. In another format, a microtiter plate EIA was developed in which cholate‐heat extracted Salmonella. LPS antigens were captured in hemoglobin‐coated wells. The microtiter plate format is automatable and will therefore be useful in laboratories with high sample throughputs. While most of the results reported here focus on the detection of Salmonella spp., we also demonstrate the applicability of this system in the assay of Escherichia coli O157 LPS antigens.
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