For a better understanding of absorption, distribution, excretion, and metabolism of trichloroethylene the time-course of blood concentration of the vapour and urinary excretion of its metabolites was examined using a pharmacokinetic model. After a single experimental exposure in which four men inhaled 100 parts per million (ppm) of trichloroethylene for four hours an elimination curve showed three exponential components, that is, x = 1 005e-16.71t + 0.449e-1. 710t + 0.255e-0.2027t, where x is the blood concentration in mg/l and t the time in hours from 0 to 10. The overall rate constant for the disappearance of trichloroethylene was found to agree with the theoretical one, estimated by means of a mathematical model for the blood concentration data. A D.O-XD plot, developed from a mathematical model for urinary excretion, could also give a good estimate of rate constants for the transfer of trichloroethylene in the body. The rate constant thus estimated from urinary excretion was consistent with data on the blood concentration.As industrial exposure to trichloroethylene vapour is liable to vary, air analysis does not necessarily give a real indication of the true exposure. A quantitative index of a worker's exposure can be estimated according to the amount of trichloroethylene being absorbed in his body (Roach, 1966;Elkins, 1967). Monitoring trichloroethylene levels in blood or expired air and measuring urinary metabolites of trichloroethylene are currently the most common techniques for determining the body burden of the vapour (Ahlmark and Forssman, 1951;Stewart et al., 1962Stewart et al., ,1970Stewart et al., ,1974Morgan et al., 1970;Nomiyama, 1971 chronic exposure, which is a common situation in a work place (Sato and Nakajima, 1977).In the current study a mathematical model was developed to simulate the processes of absorption, distribution, excretion, and metabolism of trichloroethylene, the rate constants for each process being estimated from the time-course data of the vapour concentration in blood and the urinary excretion of its metabolites.
Experiments SOLUBILITY OF TRICHLOROETHYLENE IN TISSUES OF RATSThe blood/air and tissue/blood partition coefficients were determined according to the method of Sato et al. (1974) with minor modifications. Tissue excised from a freshly killed rat was stripped of capsular and vascular connective tissues and weighed. The tissue was then homogenised with a known volume of 0-9 % saline. Five vials of equal size, each 16-5 ml on average and containing 1 ml of the tissue homogenates, were used as test vessels. 0-1 ml of a trichloroethylene solution in saline containing 10 ,ll/l was put into the vials on which rubber and aluminium-foil stoppers were placed as quickly as
