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The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. REFERENCESCoburn, R.F., R.E. Forster, and P.B. Kane. 1965. Comparison of the physiological variables that determine the blood carboxyhemoglobin concentration in man J. Clin. Invest. 44(11):1899-1910. NRC (National Research Council). 2008. Combined Exposures to Hydrogen Cyanide and Carbon Monoxide in Army Operations: Initial Report. Washington, DC: The National Academies Press. Peterson, J.E., and R.D. Stewart. 1970. Absorption and elimination of carbon monoxide by inactive young men. Arch. Environ. Health 21(2):165-171. Peterson, J.E., and R.D. Stewart. 1975. Predicting the carboxyhemoglobin levels resulting from carbon monoxide exposures. J. Appl. Physiol. 39(4):633-638. Tikuisis, P., F. Buick, and D.M. Kane. 1987a. Percent carboxyhemoglobin in resting humans exposed repeatedly to 1,500 and 7,500 ppm CO. J. Appl. Physiol.63(2):820-827. Tikuisis, P., M.D. Madill, B.J. Gill, W.F. Lewis, K.M. Cox, and D.M. Kane. 1987b. A critical analysis of the use of the CFK equation in predicting COHb formation. Am. Ind. Hyg. Assoc. J. 48(3):208-213. Tikuisis, P., D.M. Kane, T.M. McLellan, F. Buick, and S.M. Fairburn. 1992. Rate of formation of carboxyhemoglobin in exercising humans exposed to carbon monoxide. J. Appl. Physiol. 72(4):1311-1319.
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