Dose-dependent production of urinary naphthols among workers exposed to jet fuel (JP-8).

BACKGROUND Jet propulsion fuel-8 (JP-8) is one of the largest sources of chemical exposures among Air Force personnel. Urinary naphthols have been suggested as useful biomarkers of exposure to JP-8. METHODS Multivariate linear regression models were applied to evaluate the effects of environmental and work-related factors upon production of urinary naphthols among 323 Air Force personnel. RESULTS Naphthalene exposure, smoking status, and their interaction, plus self-reported skin irritation explained about two-thirds of the variation in naphthol levels. The exposure-smoking interaction was consistent with induction by smoking of one or more steps in the metabolism of naphthalene and naphthalene-1,2-oxide (NapO). A supralinear dose-response relationship was observed between urinary naphthols and naphthalene exposure. CONCLUSIONS Urinary naphthols were associated with specific sources of exposure to JP-8, arising from both inhalation and dermal contact. Smokers and nonsmokers metabolized naphthalene at different rates, consistent with induction of at least two metabolic pathways by smoking.

[1]  Leslie T. Stayner,et al.  IARC Monographs on the evaluation of carcinogenic risks to humans: Some traditional herbal medicines, some mycotoxins, naphthalene and styrene , 2002 .

[2]  L K Lowry,et al.  Interpretation of urine results used to assess chemical exposure with emphasis on creatinine adjustments: a review. , 1993, American Industrial Hygiene Association journal.

[3]  A R Buckpitt,et al.  Naphthalene metabolism by human lung microsomal enzymes. , 1986, Toxicology.

[4]  Y. D. Kim,et al.  Effects of occupation, lifestyle and genetic polymorphisms of CYP1A1, CYP2E1, GSTM1 and GSTT1 on urinary 1-hydroxypyrene and 2-naphthol concentrations. , 2001, Carcinogenesis.

[5]  B. Hammock,et al.  Cytotoxicity of 1,2-epoxynaphthalene is correlated with protein binding and in situ glutathione depletion in cytochrome P4501A1 expressing Sf-21 cells. , 2000, Toxicological sciences : an official journal of the Society of Toxicology.

[6]  H. Bartsch,et al.  Carcinogen mmetabolism and DNA adducts in human lung tissues as affected by tobacco smoking or metabolic phenotype: a case-control study on lung cancer patients , 1991 .

[7]  M Pirmohamed,et al.  Characterisation of the toxic metabolite(s) of naphthalene. , 1996, Toxicology.

[8]  T. Kawamoto,et al.  Urinary 1-hydroxypyrene and 2-naphthol concentrations in male Koreans , 2000, International archives of occupational and environmental health.

[9]  Sanford D Zelnick,et al.  Personal exposure to JP-8 jet fuel vapors and exhaust at air force bases. , 2000, Environmental health perspectives.

[10]  S M Rappaport,et al.  Benzene and naphthalene in air and breath as indicators of exposure to jet fuel , 2003, Occupational and environmental medicine.

[11]  T. Kawamoto,et al.  A Study for the Proper Application of Urinary Naphthols, New Biomarkers for Airborne Polycyclic Aromatic Hydrocarbons , 1999, Archives of environmental contamination and toxicology.

[12]  Porter Ho Aviators intoxicated by inhalation of JP-5 fuel vapors. , 1990 .

[13]  Roger Gibson,et al.  Urinary biomarkers of exposure to jet fuel (JP-8). , 2003, Environmental health perspectives.

[14]  Wade H. Weisman,et al.  Assessment of skin absorption and penetration of JP-8 jet fuel and its components. , 2000, Toxicological sciences : an official journal of the Society of Toxicology.

[15]  D. Jerina,et al.  1,2-naphthalene oxide as an intermediate in the microsomal hydroxylation of naphthalene. , 1970, Biochemistry.

[16]  B. Knave,et al.  Long-term exposure to jet fuel: an investigation on occupationally exposed workers with special reference to the nervous system. , 1976, Scandinavian journal of work, environment & health.

[17]  James N McDougal,et al.  Assessment of dermal absorption and penetration of components of a fuel mixture (JP-8). , 2002, The Science of the total environment.

[18]  Les Smith,et al.  Jet Fuel Exposure in the United States Air Force , 1997 .

[19]  H. Haussmann,et al.  Evaluation of the potential effects of ingredients added to cigarettes. Part 2: chemical composition of mainstream smoke. , 2002, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[20]  P. Mindus,et al.  Neuropsychiatric symptoms in workers occupationally exposed to jet fuel — a combined epidemiological and casuistic study , 1983, Acta Psychiatrica Scandinavica Supplementum.

[21]  A Bhattacharya,et al.  Effect of chronic low-level exposure to jet fuel on postural balance of US Air Force personnel. , 1997, Journal of occupational and environmental medicine.

[22]  M. Pirmohamed,et al.  An investigation of the formation of cytotoxic, genotoxic, protein-reactive and stable metabolites from naphthalene by human liver microsomes. , 1993, Biochemical pharmacology.

[23]  L. Alessio,et al.  Reliability of urinary creatinine as a parameter used to adjust values of urinary biological indicators , 1985, International archives of occupational and environmental health.

[24]  G. B. Bartolucci,et al.  Adjustment to concentration-dilution of spot urine samples: correlation between specific gravity and creatinine , 2000, International archives of occupational and environmental health.

[25]  M. Singh,et al.  Percutaneous absorption and skin irritation of JP-8 (jet fuel). , 2001, Toxicology.

[26]  G N Carlton,et al.  Exposures to jet fuel and benzene during aircraft fuel tank repair in the U.S. Air Force. , 2000, Applied occupational and environmental hygiene.