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J Toxicol Environ Health A


Title:"The uptake, distribution, metabolism, and excretion of methyl tertiary-butyl ether inhaled alone and in combination with gasoline vapor"
Author(s):Benson JM; Tibbetts BM; Barr EB;
Address:"Lovelace Respiratory Research Institute, Albuquerque, New Mexico 87108, USA. jbenson@lrri.org"
Journal Title:J Toxicol Environ Health A
Year:2003
Volume:66
Issue:11
Page Number:1029 - 1052
DOI: 10.1080/15287390306398
ISSN/ISBN:1528-7394 (Print) 0098-4108 (Linking)
Abstract:"The purpose of these studies was to evaluate the tissue uptake, distribution, metabolism, and excretion of methyl tertiary-butyl ether (MTBE) in rats and to determine the effects of coinhalation of the volatile fraction of unleaded gasoline on these parameters. Male F344 rats were exposed nose-only once for 4 h to 4, 40, or 400 ppm 14C-MTBE and to 20 and 200 ppm of the light fraction of unleaded gasoline (LFG) containing 4 and 40 ppm 14C-MTBE, respectively. To evaluate the effects of repeated inhalation of LFG on the fate of inhaled MTBE, rats were exposed for 7 consecutive days to 20 and 200 ppm LFG followed on d 8 by exposure to LFG containing 14C-MTBE. Three subgroups of rats were included for evaluation of respiratory parameters, rates and routes of excretion, and tissue distribution and elimination. MTBE and its chief metabolite, tertiary-butyl alcohol, were quantitated in blood and kidney (immediately after exposure), and the major urinary metabolites, 2-hydroxyisobutyric acid and 2-methyl-1,2- propanediol, were identified and quantified in urine. Inhalation of MTBE alone or as a component of LFG had no concentration-dependent effect on respiratory minute volume. The initial body burdens (IBBs) of MTBE equivalents achieved after 4 h of exposure to MTBE did not increase linearly with exposure concentration. MTBE equivalents rapidly distributed to all tissues examined, with the largest percentages distributed to liver. Between 40 and 400 ppm, there was a significant reduction in percentage of the IBB present in the major organs examined, both immediately and 72 h after exposure. At 400 ppm, the elimination rates of MTBE equivalents from tissues changed significantly. Furthermore, at 400 ppm there was a significant decrease in the elimination half-time of volatile organic compounds (VOCs) in breath and a significant increase in the percentage of the IBB of MTBE equivalents eliminated as VOCs in breath. LFG coexposure significantly decreased the percentage of the MTBE equivalent IBBs in tissues and increased rates of elimination of MTBE equivalents. The study results indicate that the uptake and fate of inhaled MTBE are altered upon increasing exposure levels from 4 to 400 ppm, suggesting that toxic effects observed previously upon repeated inhalation of concentrations of 400 ppm or greater may not necessarily be linearly extrapolated to effects that might occur at lower concentrations. Furthermore, coexposure to LFG, whether acute or repeated, decreases tissue burdens of MTBE equivalents and enhances the elimination rate of MTBE and its metabolites, thereby potentially reducing the toxic effects of the MTBE compared to when it is inhaled alone"
Keywords:"Air Pollutants/blood/*pharmacokinetics/urine Analysis of Variance Animals *Gasoline Inhalation Exposure Kidney/metabolism Male Methyl Ethers/blood/*pharmacokinetics/urine Rats Rats, Inbred F344 Tissue Distribution Volatilization;"
Notes:"MedlineBenson, Janet M Tibbetts, Brad M Barr, Edward B eng Research Support, Non-U.S. Gov't Research Support, U.S. Gov't, Non-P.H.S. England 2003/05/31 J Toxicol Environ Health A. 2003 Jun 13; 66(11):1029-52. doi: 10.1080/15287390306398"

 
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