Use of Starter Cultures in Foods from Animal Origin to Improve Their Safety
- PMID: 33806611
- PMCID: PMC7967642
- DOI: 10.3390/ijerph18052544
Use of Starter Cultures in Foods from Animal Origin to Improve Their Safety
Abstract
Starter cultures can be defined as preparations with a large number of cells that include a single type or a mixture of two or more microorganisms that are added to foods in order to take advantage of the compounds or products derived from their metabolism or enzymatic activity. In foods from animal origin, starter cultures are widely used in the dairy industry for cheese, yogurt and other fermented dairy products, in the meat industry, mainly for sausage manufacture, and in the fishery industry for fermented fish products. Usually, microorganisms selected as starter culture are isolated from the native microbiota of traditional products since they are well adapted to the environmental conditions of food processing and are responsible to confer specific appearance, texture, aroma and flavour characteristics. The main function of starter cultures used in food from animal origin, mainly represented by lactic acid bacteria, consists in the rapid production of lactic acid, which causes a reduction in pH, inhibiting the growth of pathogenic and spoilage microorganisms, increasing the shelf-life of fermented foods. Also, production of other metabolites (e.g., lactic acid, acetic acid, propionic acid, benzoic acid, hydrogen peroxide or bacteriocins) improves the safety of foods. Since starter cultures have become the predominant microbiota, it allows food processors to control the fermentation processes, excluding the undesirable flora and decreasing hygienic and manufacturing risks due to deficiencies of microbial origin. Also, stater cultures play an important role in the chemical safety of fermented foods by reduction of biogenic amine and polycyclic aromatic hydrocarbons contents. The present review discusses how starter cultures contribute to improve the microbiological and chemical safety in products of animal origin, namely meat, dairy and fishery products.
Keywords: cheese; chemical food safety; fermented fish; fermented meats; foodborne pathogens; microbial food safety; starter cultures; yogurt.
Conflict of interest statement
The authors declare that they have no conflict of interest.
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References
-
- Fox P.F., Guinee T.P., Cogan T.M., McSweeney P.L.H. Pathogens in Cheese and Foodborne Illnesses. In: Fox P.F., Guinee T.P., Cogan T.M., McSweeney P.L.H., editors. Fundamental of Cheese Science. Springer; New York, NY, USA: 2017. pp. 681–713. - DOI
-
- Laranjo M., Elias M., Fraqueza M.J. The use of starter cultures in traditional meat products. J. Food Qual. 2017;2017:9546026. doi: 10.1155/2017/9546026. - DOI
-
- Romano P., Capece A. Wine microbiology. In: Speranza B., Bevilacqua A., Corbo M.R., Sinigaglia M., editors. Starter Cultures in Food Production. John Wiley & Sons, Ltd; West Sussex, UK: 2017. pp. 255–282. Chapter 13.
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