Inhalation Toxicity of Carbon Monoxide and Hydrogen Cyanide Gases Released During the Thermal Decomposition of Polymers

The acute lethality of thermal decomposition products of various polymeric materials was investigated using bioassay procedures and a small scale com bustion apparatus. The concentrations of pertinent fire gases individually and in various combinations and the amount of combusted material needed to cause 50% lethality (LC50) during a planned 30 minute exposure and 10 minute recovery period were determined along with the lethal blood cyanide and car boxyhemoglobin (COHb) concentrations. Also, the results of controlled pure gas experiments with CO, HCN, CO2, or low O2 singly or in combination are used in an attempt to explain their role during intoxication by smoke from a variety of polymeric materials, particularly those containing nitrogen and yielding HCN during thermal decomposition. These data gathered in controlled and combustion experiments using mice are compared to toxicological findings in human fire fatalities in an attempt to establish a threshold value for fatal cyanide concentrations in the blood of fire fatalities.

[1]  W. Harland,et al.  Fire Deaths in the Glasgow Area: III the Role of Hydrogen Cyanide , 1982, Medicine, science, and the law.

[2]  J. E. Peterson,et al.  Experimental human exposure to high concentrations of carbon monoxide. , 1973, Archives of environmental health.

[3]  C. L. Winek,et al.  A comparative study of analytical methods to determine postmortem changes in carbon monoxide concentration. , 1981, Forensic science international.

[4]  Wetherell Hr,et al.  The occurrence of cyanide in the blood of fire victims. , 1966 .

[5]  C. F. Cullis,et al.  The combustion of organic polymers , 1981 .

[6]  S. J. Moore,et al.  Synergistic lethality induced by the combination of carbon monoxide and cyanide. , 1986, Toxicology.

[7]  J. Swarbrick Clarke's Isolation and Identification of Drugs , 1987 .

[8]  N. Tietz Fundamentals of Clinical Chemistry , 1970 .

[9]  W A Harland,et al.  Fire Deaths in the Glasgow Area: II the Role of Carbon Monoxide , 1981, Medicine, science, and the law.

[10]  H. Wetherell The occurrence of cyanide in the blood of fire victims. , 1966, Journal of forensic sciences.

[11]  Carrol S. Weil,et al.  Tables for Convenient Calculation of Median-Effective Dose (LD50 or ED50) and Instructions in their Use. , 1952 .

[12]  Effects of Oxygen and Carbon Dioxide on Carbon Monoxide Toxicity , 1979 .

[13]  Y C Alarie,et al.  Toxicologic and acute lethal hazard evaluation of thermal decomposition products of synthetic and natural polymers. , 1979, Toxicology and applied pharmacology.

[14]  M Paabo,et al.  Effects of exposure to single or multiple combinations of the predominant toxic gases and low oxygen atmospheres produced in fires. , 1987, Fundamental and applied toxicology : official journal of the Society of Toxicology.

[15]  E. O'flaherty,et al.  Cytochrome c oxidase activity in tissues of rats exposed to polyurethane pyrolysis fumes. , 1979, Toxicology and applied pharmacology.

[16]  Y. Alarie,et al.  Toxicity of carbon monoxide, hydrogen cyanide and low oxygen , 1982 .

[17]  M. F. Stock,et al.  Toxicity of Thermal Decomposition Products from Composites , 1987 .

[18]  R C Anderson,et al.  Toxicologic classification of thermal decomposition products of synthetic and natural polymers. , 1981, Toxicology and applied pharmacology.

[19]  B Ballantyne,et al.  In vitro production of cyanide in normal human blood and the influence of thiocyanate and storage temperature. , 1977, Clinical toxicology.

[20]  D. Rodgerson,et al.  Fundamentals of clinical chemistry: Norbert W. Tietz (editor) third edition W.B. Saunders Company, Philadelphia, PA., 19105, 1987, 1,044 pp. $44.95 , 1987 .

[21]  Randall C. Baselt,et al.  Disposition of toxic drugs and chemicals in man , 1982 .

[22]  M. Erecińska,et al.  Inhibitors of Mitochondrial Function , 1981 .

[23]  W. D. Woolley,et al.  Biological Studies of Combustion Atmospheres , 1983 .

[24]  M. M. Birky,et al.  Fire fatality study , 1979 .

[25]  Gordon E. Hartzell,et al.  Modeling of Toxicological Effects of Fire Gases: Ii. Mathematical Modeling of Intoxication of Rats By Carbon Monoxide and Hydrogen Cyanide , 1985 .

[26]  C. Herpol Biological evaluation of the toxicity of products of pyrolysis and combustion of materials , 1976 .