Microbiological Analyses

The total plate count is a general indicator of the total amount of aerobic bacteria present.  As the total aerobic bacterial count increases beyond several hundred thousands counts, decomposition develops rapidly as bacterial growth enters the logarithmic phase.  This decomposition is apparent by the off-odor produced.

Coliforms and gram negative bacterial organisms are indicators of poor sanitation or food product handling.  Coliforms are found in nature and man as well as animals.  Fecal coliforms are found in mammals.

E. coli is considered a human fecal coliform marker and is HACCP (Hazard Analysis Critical Control Point) regarded organism.  The presence in a ready to eat food product is a serious health problem.   E. coli should not be detected in normal, fresh, wholesome, non-meat products.  Hands – feces – hand product contact is the primary vector suspected when E. coli is present in a finished ready to eat or seafood product.

There is no regulatory tolerence for salmmonella/25 grams and listeria/ 25 grams.  The state of Florida considers listeria monocytogenes to be a human pathogen, but the USDA considers the presence of Listeria to be unacceptable.  Production plant remediation of listeria may be a difficult process and should be fully understood in order to eradicate and control this bacteria.

Mold and yeast are spoilage organisms.  The presence of visable mold growth in the vegetative state is considered a form of decomposition.

A series of microbiological tests are used to assess the overall quality and projected shelf life of a food product.

Testing is performed to measure the bacterial integrity of a finished product.  Demonstrating the absence of pathogenic bacteria in the product is the safest way of avoiding consumer cases regarding food borne illness.  The finished report is an excellent sales tool as it indicates that the product is shelf stable and free of pathogenic bacteria for the specified period of time.

A projected shelf life period should include a reasonable time for production, distribution, sale and consumption.  The stability study should also establish product safety for an acceptable time beyond the actual recommended expiration date.  The laboratory will assist you in setting up a shelf life study to meet your specific needs.  Most importantly, if a problem is identified, the study is halted.  Any issue is immediately communicated so it can be addressed prior to repeating the study.  Our process lends itself to be an iterative part of your product development.

Kappa Labs offers microbiological, chemical and physical types of shelf life testing.  Microbiological testing, the most common method in the food industry, measures the product’s resistance to microbial growth.  Test results show how well the product safety is retained by comparing the overall bacterial growth during the testing period to established acceptable limits.  Chemical testing measures the degree to which the product retains it chemical integrity and potency, within specified limits.  Physical testing evaluates how well the product’s original physical properties, including appearance, palatability, odor, and wholesomeness are retained.