Office of Aerospace Medicine Technical Reports
FAA Office of Aerospace Medicine
Civil Aerospace Medical Institute
Report No: DOT/FAA/AM-89/4
Title and Subtitle: Inhalation toxicology: IX. Times-to-incapacitation for rats exposed to carbon monoxide alone, to hydrogen cyanide alone, and to mixtures of carbon monoxide and hydrogen cyanide.
Report Date: January 1989
Authors: Crane CR, Sanders DC, Endecott BR.
Abstract: Laboratory rats were exposed to experimental atmospheres that contained a) carbon monoxide in air, b) hydrogen cyanide in air, and c) mixtures of CO and HCN in air. The toxic potency of each of the three types of environments was evaluated toxico-kinetically be measurement of time-to- incapacitation as a function of toxic gas concentrations. Regression equations were derived that describe those relationships for exposure to CO or HCN alone.
Analysis of the data from the combined-gas exposures, and comparison of that data with the results obtained from the exposures to each gas alone, lead to the conclusion that the toxicity of the combination is definitely greater than would be produced by either gas alone. There was, however, no evidence for a synergistic action--in which thE Effect of the combination would have been greater than that predicted from the sum of the two individual effects. An empirical equation was derived that allows calculation of a predicted time-to- incapacitation for any combination of CO and HCN concentrations that are within the ranges utilized in the experimental exposures.
Key Words: Combustion toxicology; Smoke; Aircraft cabin fire.
No. of Pages: 27
Civil Aerospace Medical Institute
Report No: DOT/FAA/AM-89/4
Title and Subtitle: Inhalation toxicology: IX. Times-to-incapacitation for rats exposed to carbon monoxide alone, to hydrogen cyanide alone, and to mixtures of carbon monoxide and hydrogen cyanide.
Report Date: January 1989
Authors: Crane CR, Sanders DC, Endecott BR.
Abstract: Laboratory rats were exposed to experimental atmospheres that contained a) carbon monoxide in air, b) hydrogen cyanide in air, and c) mixtures of CO and HCN in air. The toxic potency of each of the three types of environments was evaluated toxico-kinetically be measurement of time-to- incapacitation as a function of toxic gas concentrations. Regression equations were derived that describe those relationships for exposure to CO or HCN alone.
Analysis of the data from the combined-gas exposures, and comparison of that data with the results obtained from the exposures to each gas alone, lead to the conclusion that the toxicity of the combination is definitely greater than would be produced by either gas alone. There was, however, no evidence for a synergistic action--in which thE Effect of the combination would have been greater than that predicted from the sum of the two individual effects. An empirical equation was derived that allows calculation of a predicted time-to- incapacitation for any combination of CO and HCN concentrations that are within the ranges utilized in the experimental exposures.
Key Words: Combustion toxicology; Smoke; Aircraft cabin fire.
No. of Pages: 27
Last updated: Friday, June 1, 2012