Urinary biomarkers of occupational jet fuel exposure among air force personnel

There is a potential for widespread occupational exposure to jet fuel among military and civilian personnel. Urinary metabolites of naphthalene have been suggested for use as short-term biomarkers of exposure to jet fuel (jet propulsion fuel 8 (JP8)). In this study, urinary biomarkers of JP8 were evaluated among US Air Force personnel. Personnel (n=24) were divided a priori into high, moderate, and low exposure groups. Pre- and post-shift urine samples were collected from each worker over three workdays and analyzed for metabolites of naphthalene (1- and 2-naphthol). Questionnaires and breathing-zone naphthalene samples were collected from each worker during the same workdays. Linear mixed-effects models were used to evaluate the exposure data. Post-shift levels of 1- and 2-naphthol varied significantly by a priori exposure group (levels in high group>moderate group>low group), and breathing-zone naphthalene was a significant predictor of post-shift levels of 1- and 2-naphthol, indicating that for every unit increase in breathing-zone naphthalene, there was an increase in naphthol levels. These results indicate that post-shift levels of urinary 1- and 2-naphthol reflect JP8 exposure during the work-shift and may be useful surrogates of JP8 exposure. Among the high exposed workers, significant job-related predictors of post-shift levels of 1- and 2-naphthol included entering the fuel tank, repairing leaks, direct skin contact with JP8, and not wearing gloves during the work-shift. The job-related predictors of 1- and 2-naphthol emphasize the importance of reducing inhalation and dermal exposure through the use of personal protective equipment while working in an environment with JP8.

[1]  G. Bieniek The presence of 1-naphthol in the urine of industrial workers exposed to naphthalene. , 1994, Occupational and environmental medicine.

[2]  Keith T Palmer,et al.  IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Volume 98: Painting, Firefighting and Shiftwork. International Agency for Research on Cancer , 2011 .

[3]  Peter P. Egeghy,et al.  Dermal Exposure to Jet Fuel JP-8 Significantly Contributes to the Production of Urinary Naphthols in Fuel-Cell Maintenance Workers , 2005, Environmental health perspectives.

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

[5]  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.

[6]  M. Bekkedal,et al.  Biological And Health Effects Of Exposure To Kerosene-Based Jet Fuels And Performance Additives , 2003, Journal of toxicology and environmental health. Part B, Critical reviews.

[7]  K. Kelsey,et al.  Inhalation and dermal exposure among asphalt paving workers. , 2004, The Annals of occupational hygiene.

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

[9]  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.

[10]  Louise Ryan,et al.  Mixed Models for Assessing Correlation in the Presence of Replication , 2003, Journal of the Air & Waste Management Association.

[11]  L. Kupper,et al.  Investigation of PAH biomarkers in the urine of workers exposed to hot asphalt. , 2009, The Annals of occupational hygiene.

[12]  Melvin E Andersen,et al.  Dermal absorption and penetration of jet fuel components in humans. , 2006, Toxicology letters.

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

[14]  A. Ferioli,et al.  Biological Monitoring of Pesticide Exposure: a review. Introduction. , 2000, Toxicology.

[15]  Samuel P. Caudill,et al.  Urinary Creatinine Concentrations in the U.S. Population: Implications for Urinary Biologic Monitoring Measurements , 2004, Environmental health perspectives.

[16]  S. Proctor,et al.  Inhalation Exposure to Jet Fuel (JP8) Among U.S. Air Force Personnel , 2010, Journal of occupational and environmental hygiene.

[17]  A. Zuckerman,et al.  IARC Monographs on the Evaluation of Carcinogenic Risks to Humans , 1995, IARC monographs on the evaluation of carcinogenic risks to humans.

[18]  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.

[19]  S. Rappaport,et al.  Simultaneous determination of urinary 1- and 2-naphthols, 3- and 9-phenanthrols, and 1-pyrenol in coke oven workers , 2003, Biomarkers : biochemical indicators of exposure, response, and susceptibility to chemicals.

[20]  Roger Gibson,et al.  Dose-dependent production of urinary naphthols among workers exposed to jet fuel (JP-8). , 2004, American journal of industrial medicine.

[21]  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.

[22]  Leena A Nylander-French,et al.  Dermal exposure to jet fuel (JP-8) in US Air Force personnel. , 2005, The Annals of occupational hygiene.