Toxicological interactions between carbon monoxide and carbon dioxide

Abstract

Fischer 344 male rats were subjected to 30-min individual or combined exposures of carbon monoxide (CO) and carbon dioxide (CO 2). All deaths from CO occurred during the exposures, and the LC 50 values were 4600 and 5000 ppm, depending on experimental conditions. Animals exposed to CO 2 concentrations ranging from 1.3 to 14.7% for 30 min were neither incapacitated nor fatally injured. The addition of nonlethal concentrations of CO 2 (1.7 to 17.3%) to sublethal concentrations of CO (2500 to 4000 ppm) caused deaths of the exposed rats both during and following (up to 24 h) the 30-min exposures. The most toxic combination of these two gases (2500 ppm CO plus 5% CO 2) increased the rate of carboxyhemoglobin (COHb) formation 1.5 times that found in rats exposed to 2500 ppm of CO alone. The COHb equilibrium levels were the same. Exposure to both CO and CO 2 produced a greater degree of acidosis and a longer recovery time than that observed with either single gas. The results fit a mathematical model indicating a synergistic interaction. Combustion of 11 materials at their LC 50 values indicated that CO was probably the primary toxicant in one case and that the combined CO plus CO 2 was the cause of the deaths in three other cases. Additional fire gases need to be studied to explain deaths from the other materials.