Literature DB >> 843464

A pharmacokinetic model to study the excretion of trichloroethylene and its metabolites after an inhalation exposure.

A Sato, T Nakajima, Y Fujiwara, N Murayama.   

Abstract

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=1-0005e(-16.71t)+0-449e(-1.710t)+0-255e(-0.2027t), where X is that 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 a agree with the theoretical one, estimated by means of a mathematical model for the blood concentration data. A D8- XD plot, developed from a mathematical model for urinary excretion, could also give a good estimate of rate constant for the transfer of trichloroethylene in the body. The rate constant thus estimated from urinary excretion was consistent with data on the blood concentration.

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Year:  1977        PMID: 843464      PMCID: PMC1008172          DOI: 10.1136/oem.34.1.56

Source DB:  PubMed          Journal:  Br J Ind Med        ISSN: 0007-1072


  28 in total

1.  THE METABOLISM OF 36C1-LABELLED TRICHLOROETHYLENE AND TETRACHLOROETHYLENE IN THE RAT.

Authors:  J W DANIEL
Journal:  Biochem Pharmacol       Date:  1963-08       Impact factor: 5.858

2.  Observations on the concentrations of trichloroethylene in blood and expired air following exposure of humans.

Authors:  R D STEWART; H H GAY; D S ERLEY; C L HAKE; J E PETERSON
Journal:  Am Ind Hyg Assoc J       Date:  1962 Mar-Apr

3.  Metabolism and excretion of trichloroethylene after inhalation by human subjects.

Authors:  V BARTONICEK
Journal:  Br J Ind Med       Date:  1962-04

4.  The theory and applications of the exchange of inert gas at the lungs and tissues.

Authors:  S S KETY
Journal:  Pharmacol Rev       Date:  1951-03       Impact factor: 25.468

5.  Evaluating trichloroethylene exposures by urinalyses for trichloroacetic acid.

Authors:  A AHLMARK; S FORSSMAN
Journal:  AMA Arch Ind Hyg Occup Med       Date:  1951-04

6.  Metabolism of trichloroethylene in man. II. Pharmacokinetics of metabolites.

Authors:  G Müller; M Spassovski; D Henschler
Journal:  Arch Toxicol       Date:  1974       Impact factor: 5.153

7.  Biological indicators of occupational exposure to trichloroethylene.

Authors:  L K Lowry; R Vandervort; P L Polakoff
Journal:  J Occup Med       Date:  1974-02

8.  Use of breath analysis to monitor trichloroethylene exposures.

Authors:  R D Stewart; C L Hake; J E Peterson
Journal:  Arch Environ Health       Date:  1974-07

9.  Urinary excretion of total trichloro-compounds, trichloroethanol, and trichloroacetic acid as a measure of exposure to trichloroethylene and tetrachloroethylene.

Authors:  M Ikeda; H Otsuji; T Imamura; Y Komoike
Journal:  Br J Ind Med       Date:  1972-07

10.  Excretion of organic chlorine compounds in the urine of persons exposed to vapours of trichloroethylene and tetrachloroethylene.

Authors:  M Ogata; Y Takatsuka; K Tomokuni
Journal:  Br J Ind Med       Date:  1971-10
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  11 in total

1.  A simulation study of physiological factors affecting pharmacokinetic behaviour of organic solvent vapours.

Authors:  A Sato; K Endoh; T Kaneko; G Johanson
Journal:  Br J Ind Med       Date:  1991-05

2.  Physiologicomathematical model for studying human exposure to organic solvents: kinetics of blood/tissue n-hexane concentrations and of 2,5-hexanedione in urine.

Authors:  L Perbellini; P Mozzo; F Brugnone; A Zedde
Journal:  Br J Ind Med       Date:  1986-11

3.  Differences following skin or inhalation exposure in the absorption and excretion kinetics of trichloroethylene and toluene.

Authors:  A Sato; T Nakajima
Journal:  Br J Ind Med       Date:  1978-02

4.  Intra and interindividual variability in the kinetics of a poorly and highly metabolising solvent.

Authors:  J J Opdam
Journal:  Br J Ind Med       Date:  1989-12

5.  Effects of ethanol and phenobarbital treatments on the pharmacokinetics of toluene in rats.

Authors:  R S Wang; T Nakajima
Journal:  Br J Ind Med       Date:  1992-02

6.  Effect of various exposure scenarios on the biological monitoring of organic solvents in alveolar air. II. 1,1,1-Trichloroethane and trichloroethylene.

Authors:  S Laparé; R Tardif; J Brodeur
Journal:  Int Arch Occup Environ Health       Date:  1995       Impact factor: 3.015

7.  Acute effects of trichloroethylene on blood concentrations and performance decrements in rats and their relevance to humans.

Authors:  R Kishi; I Harabuchi; T Ikeda; Y Katakura; H Miyake
Journal:  Br J Ind Med       Date:  1993-05

Review 8.  Physiologically based pharmacokinetic models for trichloroethylene and its oxidative metabolites.

Authors:  J W Fisher
Journal:  Environ Health Perspect       Date:  2000-05       Impact factor: 9.031

Review 9.  Development of a physiologically based pharmacokinetic model of trichloroethylene and its metabolites for use in risk assessment.

Authors:  H J Clewell; P R Gentry; T R Covington; J M Gearhart
Journal:  Environ Health Perspect       Date:  2000-05       Impact factor: 9.031

10.  Statistical analysis of Clewell et al. PBPK model of trichloroethylene kinetics.

Authors:  F Y Bois
Journal:  Environ Health Perspect       Date:  2000-05       Impact factor: 9.031
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