Food Biochemistry and Food Processing (2 edition)

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BLBS102-c43 BLBS102-Simpson March 21, 2012 14:30 Trim: 276mm X 219mm Printer Name: Yet to Come


828 Part 8: Food Safety and Food Allergens

histamine poisoning occurs following ingestion of foods that
have large quantities of histamine (Stratton et al. 1991). Scom-
broid fish if not handled properly can accumulate high quantities
of histamine, and such products can pose a health hazard when
consumed. Other fermented foods, such as cheese, wine, dry
sausage, sauerkraut, miso, and soy sauce have also been linked
with biogenic amines poisoning. Histamine and tyramine toxi-
cities have been extensively investigated, and biogenic amines
such asβ-phenylethylamine and tyramine have been linked to
hypertensive crises (Shalaby 1996) and migraines. Other bio-
genic amines such as the HCAs have also been implicated in the
formation of mutagenic or carcinogenic nitrosamines (Stratton
et al. 1991), and the potential health risks of these compounds
are areas of active research to better understand the extent of the
health hazards posed by these compounds in food products.

Health Effects

Biogenic amines participate in various functions connected with
cell growth and metabolism in humans. For example, spermine
and spermidine are involved in free radicals scavenging, cell
membrane channels modulation, and in DNA synthesis. How-
ever, the compounds must be present in minute quantities to
carry out useful functions, because they can be toxic in high
quantities. Other biogenic amines, such as histamine and tyra-
mine, occur naturally in small quantities and participate in al-
lergic and inflammatory responses (Khan et al. 1992, Ha et al.
1998, Schneider et al. 2002). The metabolism of histamine en-
tails absorption by active or passive transport through the lu-
men of the GIT. During this passage, most of the histamine
is broken down by the enzymes diamine oxidase (DAO) and
histamine-N-methyltransferase (HNMT) into useful intermedi-
ates like imidazoleacetic acid andN-methyl histamine. These
molecules together with the residual histamine are transported
in the blood to the liver where they are degraded further. In the
body, histamine binds to receptors to initiate various responses,
including smooth muscle contraction, vasodilation, alteration
of blood pressure, and enhancing vascular permeability. Never-
theless, high levels of histamine are potentially toxic and this
intoxication manifests itself within 2 hours after ingestion and
may last up to 16 hours. The symptoms include allergic-type
reactions and gastrointestinal problems in the form of nausea,
cramps, vomiting, and diarrhea (Izquierdo-Pulido et al. 1999,
Attaran and Probst 2002, Maintz and Novak 2007). Histamine
intoxication can also manifest as neurological and cutaneous
disorders in the form of dizziness, flushing, headache, rash, and
itchy eyes. These symptoms are attributed to the release of nitric
oxide from vascular endothelial cells to bring about vasodilation
(Becker et al. 2001, Predy et al. 2003, Borade et al. 2007). In
rare cases, histamine poisoning could cause severe hypotension,
atrial arrhythmias, and loss of consciousness (McInerney et al.
1996).
Various factors may influence histamine toxicity. These in-
clude the use of drugs that inhibit mono- and DAO enzymes,
thereby preventing detoxification of histamine by deamination,
gastrointestinal diseases, alcohol consumption, and bacteria en-
dotoxins. Other biogenic amines like putrescine and cadaverine

can also compete for the same catabolic enzymes as histamine,
thus inhibiting the effectiveness of histamine detoxification and
making the toxic compounds accumulate highly in the plasma.
Although histamine intoxication is the type most commonly
associated with biogenic amines, tyramine also has high toxic-
ity. Ingestion of large quantities of tyramine-containing cheeses,
alcohol, chocolate, and other dairy products can elicit tyramine
intoxication, which manifests as headaches and elevated blood
pressure (Millichap and Yee 2003, Panconesi 2008). Tyramine
is catabolized rapidly in the small intestine by MAOs, and mon-
itoring tyramine ingestion is crucial for individuals on MAO-
inhibiting drugs as their ingestion could bring on hypertensive
crisis (Schmidt and Ferger 2004, Vlieg-Boerstra et al. 2005).
Tyramine poisoning can also cause nausea, vomiting, and even
death from intracranial hemorrhage. There are also emerging
concerns with nitrosamines because they can form carcinogenic
nitrosamines with cadaverine and putrescine by reacting with ni-
trites (used to cure meats) or by serving as precursor molecules
(Bover-Cid et al. 1999).
Certain drugs, for example, ephedrine and related compounds
(amphetamines, phentermine, mazindol, and fenfluramine) can
block the uptake of the biogenic amines NE and serotonin. Thus,
they are able to suppress appetite and food intake, and there is
interest in the development of thermogenic drugs that could act
on appropriate biogenic amines to control obesity safely without
increasing heart rate and blood pressure.

Quality Indicators

Biogenic amines are of interest and use to food scientists/food
technologists due to their use as food quality indicators. Aqueous
solutions of putrescine and cadaverine impart discernible and
objectionable odors at levels of 22 ppm and 190 ppm, respec-
tively. The relative contribution of flavor from biogenic amines
to the overall food quality is not well established; rather, the
main focus has been on their possible use as chemical indica-
tors of food quality. The relationship between the amounts of
particular biogenic amines in a food product and the extent of
food spoilage has been used to estimate a parameter known as
the chemical quality index (CQI) or the biogenic amines index
(BAI) for fish, and this takes into account the concentrations of
putrescine, cadaverine, histamine, spermine, and spermidine in
the fish sample (Mietz and Karmas 1977). On the basis of this,
the CQI is calculated as

Chemical Quality Index [CQI]=

Histamine+Putrescine+
Cadaverine
1 +Spermine+Spermidine

and a CQI value below 1 denotes a good quality product, a value
between 1 and 10 is considered mediocre, while a value≥ 10
connotes spoilage. The CQI or BAI concept was extended further
as the beer BAI by taking into consideration the concentrations
of other biogenic amines, tyramine,β-phenylethylamine, and
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