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This story was printed from Biological and
Chemical Agents,
located at /27393/dreamwvr/agents/cyanide1.htm
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CYANIDE
INTRODUCTION
Hydrogen cyanide is usually included among the CW agents causing
general poisoning. Hydrogen cyanide has high toxicity and in sufficient
concentrations it rapidly leads to death. At room temperature, hydrogen cyanide
is a colorless liquid which boils at 26 degrees Celsius. The most important
route of poisoning is through inhalation. Both gaseous and liquid hydrogen
cyanide, as well as cyanide salts in solution, can also be taken up through the
skin. Its high volatility probably makes hydrogen cyanide difficult to use in
warfare since there are problems in achieving sufficiently high concentrations
outdoors.
On the other hand, the concentration of hydrogen cyanide may rapidly reach
lethal levels if it is released in confined spaces. The most important toxic
effect of hydrogen cyanide is by inhibiting the metal-containing enzymes. One
such enzyme is cytochromoxidase, containing iron. This enzyme system is
responsible for the energy-providing processes in the cell where oxygen is
utilized, i.e., cell respiration. When cell respiration ceases, it is no longer
possible to maintain normal cell functions, which may lead to cell mortality.
Symptoms of cyanide poisoning vary and depend on, for example, route of
poisoning, total dose and the exposure time. If hydrogen cyanide has been
inhaled, the initial symptoms are restlessness and increased respiratory rate.
Other early symptoms are giddiness, headache, palpitations and respiratory
difficulty. These are later followed by vomiting, convulsions, respiratory
failure and unconsciousness. If the poisoning occurs rapidly, e.g., as a result
of extremely high concentrations in the air, there is no time for symptoms to
develop and exposed persons may then suddenly collapse and die.
PRECAUTIONS
Today, there is no medical antidote against cyanide poisoning within
the Swedish Armed Forces. The treatment given to civilians is based on
encouraging and speeding-up the body's own ability to excrete cyanide and to
bind cyanide in the blood. The enzyme rhodanese is present in the body, mainly
in the liver, and together with sulfur transforms cyanide into thiocyanate,
which is passed out in the urine. By supplying sulfur in the form of sodium
thiosulphate (Na2S2O3) the detoxification can be speeded up. The cyanide ion has
high affinity to trivalent iron (Fe3+). The divalent iron in blood haemoglobin
can be oxidized to trivalent, which leads to the formation of methaemoglobin
which binds cyanide ions. The formation of methaemoglobin can be achieved by
supplying sodium nitrite (NaNO2) or dimethylaminophenol (DMAP).Cyanide can also
be bound by metallic ions supplied to the blood in suitable form. Among others,
cobalt can be supplied in the form of a cobalt complex or as hydroxycobalamin
(vitamin B12). In cases of poisoning with hydrogen cyanide it is of the utmost
importance that countermeasures are immediately introduced. For this reason, a
medical antidote (PAPP, para-aminopropiophenone) for use as a pretreatment is
being developed in the United Kingdom.
CHEMICAL WARFARE AND CYANIDE
There is no confirmed information on this substance being used in
chemical warfare. However, it has been reported that hydrogen cyanide was used
by Iraq in the war against Iran and against the Kurds in northern Iraq during
the 1980's. During the Second World War, a form of hydrogen cyanide (Zyklon B)
was used in the Nazi gas chambers.
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