/suy"euh nuyd', -nid/, n., v., cyanided, cyaniding.n.1. Also, cyanid /suy"euh nid/. Chem.a. a salt of hydrocyanic acid, as potassium cyanide, KCN.b. a nitrile, as methyl cyanide, C2H3N.v.t.2. to treat with a cyanide, as an ore in order to extract gold.[1820-30; CYAN-3 + -IDE]
* * *Any chemical compound containing the combining group CN. Ionic (see ion; ionic bond) and organic cyanide compounds differ in chemical properties, but both are toxic, especially the ionic ones.Cyanide poisoning inhibits cells' oxidative (see oxidation-reduction) processes; its action is extremely rapid, and an antidote must be given promptly. Cyanides occur naturally in certain seeds (e.g., apple seeds, wild cherry pits). Cyanides, including hydrogen cyanide (HCN, or hydrocyanic acid), are used industrially in the production of acrylic fibres, synthetic rubbers, and plastics as well as in electroplating, case-hardening of iron and steel, fumigation, and concentration of ores.
* * *any compound containing the monovalent combining group CN. In inorganic cyanides, such as sodium cyanide, NaCN, this group is present as the negatively charged cyanide ion; these compounds, which are regarded as salts of hydrocyanic acid, are highly toxic. Organic cyanides are usually called nitriles; in these, the CN group is linked by a covalent bond to a carbon-containing group, such as methyl (CH3) in methyl cyanide (acetonitrile).Hydrocyanic acid, also known as hydrogen cyanide, or HCN, is a highly volatile liquid used to prepare acrylonitrile, which is used in the production of acrylic fibres, synthetic rubber, and plastics. Cyanides are employed in a number of chemical processes, including fumigation, case hardening of iron and steel, electroplating, and the concentration of ores. In nature, substances yielding cyanide are present in certain seeds, such as the pit of the wild cherry.cyanide poisoning results from inhaling hydrogen cyanide or ingesting the salts of hydrogen cyanide. Hydrogen cyanide is highly toxic because it inhibits the oxidative processes of the cells. Acute poisoning from hydrogen cyanide or the cyanides is manifested by dizziness, nausea, staggering, and loss of consciousness. Death may occur rapidly after swallowing as little as 300 milligrams of the salts or inhaling as little as 100 milligrams of hydrogen cyanide. Exposure to concentrations of 200–500 parts of hydrogen cyanide per 1,000,000 parts of air for 30 minutes is also usually fatal. In sublethal doses, the cyanide is rapidly detoxified by the human body through combination with sulfur to form nontoxic sulfocyanides, and recovery is usually complete within a few hours, with no permanent aftereffects.Because the poison acts with extreme rapidity, recovery from poisoning depends upon the promptness with which antidotes are administered. Fatalities may be prevented by the administration of such antidotes as amyl nitrite, sodium nitrite, and 25 percent sodium thiosulfate solution.
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