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Some government regulations and rules exist for upper limits of hystamine in meet and fish (although these limits could be applied to other food products). For example, histamine levels in meet and fish must be less than 50 mg/kg in the US and less than 200 mg/kg in the UK <ref>[https://www.mdpi.com/2304-8158/8/2/62/htm Impact of Biogenic Amines on Food Quality and Safety. Claudia Ruiz-Capillas and Ana M. Herrero. 2019. DOI: https://doi.org/10.3390/foods8020062.]</ref>. Some countries have set an upper limit of histamine in wine to be anywhere from 2-10 mg/l <ref>[https://ifst.onlinelibrary.wiley.com/doi/abs/10.1111/ijfs.12833 Biogenic amines in wine: a review. Yan‐Yun Guo, Yan‐Ping Yang, Qian Peng, Ye Han. 2015.]</ref>. Loret et al. (2005) quotes the upper limit of individual amines to generally be safe for consumption to be 10 mg/l <ref name="loret_2005" />.
Loret et al (2005) examined the levels of biogenic amines in Belgian beers, including lagers, traditional ales, bottle conditioned ales, and spontaneously fermented beer (presumably lambic). They found that spontaneously fermented beers, which were 42 samples out of the total 297 samples and from 10 different breweries, generally contained the most biogenic amines, namely tyramine (associated with hypertension), histamine (associated with hypotension), and cadaverine. However, not all of these breweries produced higher levels of amines, suggesting that processing in some breweries is limiting the biogenic amine production (this process was not identified in the Loret et al study, but the process is likely to be the lowering of the wort pH to 4.5 to limit the enterobacteria phase). For example, 6 of the spontaneous fermentation breweries had levels of histamine as an average between 20-45 mg/l, and levels of tyamine between 30-60 mg/l, which is higher than the upper limit that is generally considered to be safe for consumers (this upper limit was stated as 10 mg/l by Loret et al.). The other 4 breweries had levels of histamine and tyramine between 0-20 mg/L, as an average. Interestingly, they also found that a small number of ales and bottle conditioned ales, 21 out of 220 samples, also had levels of tyamine above the upper limit of 10 mg/l. None of the lagers sampled had biogenic amines above 10 mg/l <ref name="loret_2005" />.
De Roos et al. (2018) measured biogenic amines over the fermentation lifespan of Belgian lambic beers that were pre-acidified to a pH of 4.5 before being cooled in a coolship and spontaneously fermented. They found that the initial wort had low concentrations of some biogenic amines, such as agmatine (9 mg/l), putrescine (8 mg/l), and cadaverine (3 mg/l). In one cask, the agmatine remained stable while in the second cask the agmatine declined to zero during the maturation phase, and then slightly increased to less than 5 mg/l. Cadaverine was produced during the first three weeks of fermentation and remained steady throughout the fermentation process at about 30 mg/l. Histamine was produced during the acidification phase by ''Pediococcus damnosus'' between 3 and 9 months and ended up at around 15 mg/l. Tyramine had final concentrations of around 30-40 mg/l and was formed either during the acidification phase (6 months) or the late maturation phase (18-24 months), potentially by ''P. damnosus'' or some other LAB that was at too low of a population to detect, or maybe as a result of autolysis of dead yeast cells. 2-Phenylethylamine and tryptamine were never found in the lambic beers <ref name="Roos_2018_2" />.