Korean J Occup Environ Med.  2002 Jun;14(2):143-153.

Effect of Toluene on Phenol and S-phenylmercapturic Acid Excretion as Urinary Metabolites of Benzene in Rats

Affiliations
  • 1Department of Public Health, The Graduate School, Yonsei University, Korea. jhroh@yumc.yonsei.ac.kr
  • 2Institute for Occupational Health, College of Medicine, Yonsei University, Korea.

Abstract


OBJECTIVES
This study was conducted to provide accurate exposure evaluation of workers in a biologicallymonitored state who were simultaneously exposed to benzene and toluene. For the purpose of this study, an animal experiment was conducted.
METHODS
The following concentrations of solvents were administered orally to Sprague-Dawley rats : benzene at 2.26 mg/kg body weight (equivalent concentration to the 2.5 ppm, Threshold Limit Value-ShortTerm Exposure Limit, in the USA) and 9.02 mg/kg body weight (equivalent concentration to the 10 ppm, Threshold Limit Value-TimeWeighted Average in Korea), simultaneously with toluene at 106.42 mg/kg body weight (equivalent concentration to the 100 ppm, Threshold Limit Value-TimeWeighted
RESULTS
The following results were obtained from the analysis of reading taken at 3hour intervals of S-phenylmercapturic acid (SPMA) and phenol concentration in urine metabolites of benzene after oral administration for 30 hours. 1. The concentrations of phenol and SPMA in urine were markedly decreased in the initial phase of the mixed group (both benzene and toluene administered group) as compared with the benzeneonly administered group, and the concentrations were slightly elevated. 2. The total excreted amounts of phenol and SPMA in urine decreased in the mixed group compared with the benzene-only group, and these decreases were more remarkable at the benzene administration concentration of 9.02 mg/kg than at 2.26 mg/kg. 3. The urinary excretions of phenol and SPMA were delayed in the case of the mixed group, and the extent of the delay was dependent on the amount of benzene administrat
CONCLUSIONS
Benzene metabolism was suppressed by toluene, and hence the excretion of phenol and SPMA as urinary metabolites of benzene was delayed. This result will have applications in the interpretation of results from future biological monitoring of workers exposed to mixed solvents. We should not underestimate the importance of carefully interpreting the results of biological monitoring data when workers are exposed to mixed solvents. We should not underestimate the importance of carefully interpreting the results of biological monitoring data when workers are exposed to mixed benzene and toluene.

Keyword

Benzene; Toluene; Phenol; S-phenylmercapturic acid; Biological monitoring; Exposure assessment of benzene

MeSH Terms

Administration, Oral
Animal Experimentation
Animals
Benzene*
Body Weight
Environmental Monitoring
Metabolism
Phenol*
Rats*
Rats, Sprague-Dawley
Solvents
Toluene*
Benzene
Phenol
Solvents
Toluene
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