Assessing Environmental Expsoures Associated with Solid Waste Open Pit Burning in Deployed Service Members

Background: Deployment environmental exposures may pose long-term health risks for US Service Members. Breathing zone air sampling data is usually not collected because of logistical problems related to collection in a war zone. We attempted to validate metabolomics and inflammatory biomarkers in serum as surrogates of exposure because breathing zone samples are rarely available. Chemicals identified adjacent to burn pits in Iraq and Afghanistan and responses to chemical exposures were studied in stored sera of deployed forces.

Methods: Pre- and post-deployment stored sera from 200 exposed Service Members deployed to Balad, Iraq, and Bagram, Afghanistan, and sera from 200 Service Members who never deployed were studied and compared. Serum samples were analyzed for differences in environmental chemicals and inflammatory and metabolomics biomarkers.  

Results: Serum sample analyses detected inflammatory biomarkers, micro-RNAs, dioxins, polycyclic aromatic hydrocarbons (PAHs) and a Benzo(a)Pyrene altered metabolic pathway.  Burn pit air sampling data and serum biomarker levels were related.  Among the exposed, cardiovascular inflammatory markers decreased, micro-RNA levels were altered in response to PAH levels and the Benzo(a)Pyrene metabolic pathway intermediates were altered. Serum cotinine levels were used to adjust for smoking.

Discussion: This study described the association of serum biomarkers with breathing zone air sampling data to assess the utility of serum biomarkers as surrogates for air sampling data in the future.  In the absence of breathing zone air sampling data, biomarkers may permit researchers to assess health risks of environmental exposure(s) and long-term health outcome(s), such as respiratory illness and cancers.