141 research outputs found
Update on Biogenic Amines in Fermented and Non-Fermented Beverages
The formation of biogenic amines in food and beverages is mainly due to the presence of
proteins and/or free amino acids that represent the substrates for microbial or natural enzymes with
decarboxylation or amination activity. Fermentation occurring in many alcoholic beverages, such
as wine, beer, cider, liqueurs, as well as coffee and tea, is one of the main processes affecting their
production. Some biogenic amines can also be naturally present in some fruit juices or fruit-based
drinks. The dietary intake of such compounds should consider all their potential sources by both
foods and drinks, taking in account the health impact on some consumers that represent categories
at risk for a deficient metabolic activity or assuming inhibiting drugs. The most important tool to
avoid their adverse effects is based on prevention through the selection of lactic acid bacteria with
low decarboxylating activity or good manufacturing practices hurdling the favoring conditions on
biogenic amines’ production
Trends of Major Foodborne Outbreaks in the European Union during the Years 2015–2019
The incidence of themost common foodborne outbreaks reported by the European Food Safety
Authority and the European Centre for Disease Prevention and Control during the years 2015–2019 is
described. Campylobacter spp., Salmonella spp., Listeria monocytogenes, and Yersinia enterocolitica are
the investigated microorganisms, and symptomatology, food categories responsible for human disease,
as well as some prevention measures are the most important information schedules supplied to
the readers. Campylobacteriosis and salmonellosis are the most common zoonoses with a notification
rate of 59.7 and 20.0 per 100,000 population, respectively, in the year 2019. Good hygienic practices
both at farm and domestic level could prevent such infections. The highest number of deaths is
reported for listeriosis, corresponding to 31 fatal events in the year 2019. Therefore, awareness of
the hazards linked to L. monocytogenes is particularly recommended amongst high-risk groups. By
contrast, most cases of yersiniosis are sporadic and the most important prophylactic measures include
adequate sanitation in pork chain, personnel hygiene, and protection of water supplies
An overview of histamine and other biogenic amines in fish and fish products
The occurrence of biogenic amines in fish is directly associated with microorganisms with
decarboxylase activity. These compounds are generally detoxified by oxidases in the intestinal tract of humans, but some conditions, such as alcohol consumption, enzyme deficiency, or monoamino-oxidase antidepressant use, can make their intake by food dangerous. Due to its toxicity, histamine is a unique biogenic amine with regulatory limits for fishery products. This review focuses on biogenic amines in fish, with a detailed picture of the number of alert notifications or intoxication events reported in the last years. The favoring conditions for their formation, as well as the main preventive and control measures to ensure public health, are also reviewed
Prodotti della tradizione e contenuto di amine biogene alternative alla Low tyramine diet per la sostenibilità dei prodotti di nicchia e la salubrità del consumatore
Biogenic amines (BA) are present in a wide range of foods and mainly can be produced in high amounts by microorganisms through the activity of amino acid decarboxylases. Excessive consumption of foods with large concentrations of these compounds can induce adverse reactions such as nausea, headaches, rashes and changes in blood pressure. These problems are more severe in consumers with less efficient detoxification systems because of their genetic constitution or their medical treatments. The most common and powerful BA found in foods are histamine, tyramine and putrescine. Actually, there is no specific legislation regarding BA content in many fermented products, except for histamine; it is the only BA for which maximum levels in fish products have been set. So, it is generally assumed that these compounds should not be allowed to accumulate. Many factors such as bacterial density, synergistic effects between microorganisms, level of proteolysis (availability of substrate), pH, salt, use of starter cultures, sanitization procedures adopted and conditions and time of ripening process are found to have limiting effects on the build-up of amines. Moreover, improved knowledge of the factors involved in the synthesis and accumulation of BA should lead to reduce in their incidence in foods
Influence of Indigenous Starter Cultures on the Free Fatty Acids Content During Ripening in Artisan Sausages Produced in the Basilicata Region
The influence of indigenous starter cultures on the free fatty acids content during ripening of »salsiccia«, a typical dry fermented sausage produced in the Basilicata region, was studied. Three batches of »salsiccia« were produced using different starter mixtures
(Lactobacillus sakei G20 and Staphylococcus xylosus S81; L. sakei G20 and S. xylosus S142; L. sakei G20 and S. xylosus S206), while the control batch was produced without a starter. The amounts of free fatty acids present in the samples at the end of the ripening period were not significantly different, suggesting that the lipolytic enzymes naturally occurring in meat could play a predominant role in the free fatty acids release. Oleic and linoleic acids were present in the highest concentrations, while only small quantities of short chain fatty acids were detected, with acetic acid being the most representative one
Biogenic Amines in Raw and Processed Seafood
The presence of biogenic amines (BAs) in raw and processed seafood, associated with either time/temperature conditions or food technologies is discussed in the present paper from a safety and prevention point of view. In particular, storage temperature, handling practices, presence of microbial populations with decarboxylase activity and availability of free amino acids are considered the most important factors affecting the production of BAs in raw seafood. On the other hand, some food technological treatments such as salting, ripening, fermentation, or marination can increase the levels of BAs in processed seafood. The consumption of high amount of BAs, above all histamine, can result in food borne poisoning which is a worldwide problem. The European Regulation established as maximum limits for histamine, in fishery products from fish species associated with high histidine amounts, values ranging from 100 to 200 mg/kg, while for products which have undergone enzyme maturation treatment in brine, the aforementioned limits rise to 200 and 400 mg/kg. Preventive measures and emerging methods aiming at controlling the production of BAs are also reported for potential application in seafood industries
Biogenic Amines in Italian Pecorino Cheese
The quality of distinctive artisanal cheeses is closely associated with the territory of production and its traditions. Pedoclimatic characteristics, genetic autochthonous variations, and anthropic components create an environment so specific that it would be extremely difficult to reproduce elsewhere. Pecorino cheese is included in this sector of the market and is widely diffused in Italy (∼62.000t of production in 2010). Pecorino is a common name given to indicate Italian cheeses made exclusively from pure ewes’ milk characterized by a high content of fat matter and it is mainly produced in the middle and south of Italy by traditional procedures from raw or pasteurized milk. The microbiota plays a major role in the development of the organoleptic characteristics of the cheese but it can also be responsible for the accumulation of undesirable substances, such as biogenic amines (BA). Bacterial amino acid decarboxylase activity and BA content have to be investigated within the complex microbial community of raw milk cheese for different cheese technologies. The results emphasize the necessity of controlling the indigenous bacterial population responsible for high production of BA and the use of competitive adjunct cultures could be suggested. Several factors can contribute to the qualitative and quantitative profiles of BA’s in Pecorino cheese such as environmental hygienic conditions, pH, salt concentration, water activity, fat content, pasteurization of milk, decarboxylase microorganisms, starter cultures, temperature and time of ripening, storage, part of the cheese (core, edge), and the presence of cofactor (pyridoxal phosphate, availability of aminases and deaminases). In fact physico-chemical parameters seem to favor biogenic amine-positive microbiota; both of these environmental factors can easily be modulated, in order to control growth of undesirable microorganisms. Generally, the total content of BA’s in Pecorino cheeses can range from about 100–2400 mg/kg, with a prevalence of toxicologically important BA’s, tyramine and histamine. The presence of BA is becoming increasingly important to consumers and cheese-maker alike, due to the potential threats of toxicity to humans and consequent trade implications
Biogenic Amines in Meat and Meat Products: A Review of the Science and Future Perspectives
Biogenic amines (BAs) can be found in a wide range of meat and meat products, where they
are important as an index for product stability and quality, but also for their impact on public health.
This review analyzes the scientific evidence gathered so far on the presence and role of biogenic
amines in meat and meat products, also considering the effect of technological conditions on BAs
accumulation or decrease. The data provided can be useful for developing solutions to control BAs
formation during the shelf-life, for example by novel starters for dry cured products, as well as by
packaging technologies and materials for fresh meats. Further research, whose trends are reviewed
in this paper, will fill the knowledge gaps, and allow us to protect such perishable products along the
distribution chain and in the home environment
Multistarter from Organic Viticulture for Red Wine Montepulciano d’Abruzzo Production
In the last years the use of a multistarter fermentation process has been proposed to improve the organoleptic characteristics of wines. In the present study the fermentation performances and the interactions of mixed and sequential cultures of Hanseniaspora
uvarum, Candida zemplinina, and a strain of Saccharomyces
cerevisiae isolated from organic musts were investigated. To evaluate the oenological performances of the tested strains microvinifications in pasteurized red grape juice from Montepulciano d’Abruzzo cultivar were compared. The course of fermentation has been controlled through classical determinations (CO2 evolution, ethanol, glycerol, pH, total titratable acidity, sugar content, free sulfur dioxide (SO2), dry extract, sugars, organic acids, and volatile compounds). Moreover, the yeast population was determined by both culture-dependent and independent approaches. In particular, the pure culture of H. uvarum and C. zemplinina did not end the fermentation. On the contrary, when S. cerevisiae was added, fermentations were faster confirming that yeast interactions influence the fermentation kinetics. Moreover, C. zemplinina showed a good interaction with S. cerevisiae by increasing the fermentation kinetic in high gravity Montepulciano must, with low ethyl acetate and acetic acid production. This study confirmed that non-Saccharomyces yeasts play a crucial role also in organic wines and their activity could be modulated through the selection of appropriate strains that correctly interact with S. cerevisiae
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