Assessment of oxidative stress among refueling workers in an Egyptian setting.

BACKGROUND

Unlike developing countries, in Egypt, gasoline is dispensed at dedicated stations by gasoline filling workers. This leads to high levels of exposure to the aromatic compounds in gasoline [principally benzene, toluene, ethyl benzene, and xylene (BTEX)] with the consequences of adverse health effects including oxidative stress.

OBJECTIVE(S): To assess oxidative stress and trace metal levels among Egyptian gas filling workers.

METHODS

A cross-sectional study was conducted among 50 gasoline filling station workers (exposed group) and a matched group of 50 clerical workers (non-exposed group). Trace metal levels (Cu, Zn, Fe, and Mn) and the activities of the antioxidant enzymes superoxide dismutase (SOD) and glutathione peroxidase (GPx) were measured in sera of all enrolled participants using atomic absorption spectroscopy. BTEX levels were assessed in the environment of the studied gas filling stations using the MIRAN IR system.

RESULTS

All the measured trace metal levels and antioxidant enzyme activities were significantly lower among the exposed workers than among the non-exposed workers. All trace metals decreased significantly in relation to SOD activity among the exposed workers, whereas only Zn and Cu decreased in relation to SOD and GPx activity among the non-exposed workers. The exposed workers did not comply with the use of the required personal protective equipment (PPE) to avoid the dangerous effects of BTEX exposure. Among BTEX components, benzene exceeded the allowable Egyptian TLV in the studied gasoline stations (110.4 mg/m3 versus 1.6 mg/m3, respectively). The hygienic effect (HE) of the BTEX pollutant mixture exceeded the allowed borderline HE in Egypt although it did not show a significant correlation with different oxidative stress biomarkers and trace metals.

CONCLUSION

Exposure to BTEX at gasoline filling stations lowers the levels of antioxidant enzyme activities and trace metals due to the strong hygienic effect of BTEX. Individual protection using the proper PPE should therefore be enforced. Research assessing the need of providing refueling workers with supplements of necessary trace metals and antioxidants is warranted.