These are exposure studies associated with the disease and all of its children.
|Reference||Associated Study Title||Author's Summary||Study Factors||Stressor||Receptors||Country||Medium||Exposure Marker||Measurements||Outcome|
|1.||Sexton K, et al. (2007).||Our aim was to compare and rank relative health risks of 179 air pollutants in Houston using an evidence-based approach supplemented by the expert judgment of a panel of academic scientists.||1,1,2,2-tetrachloroethane | 1,3-butadiene | 1,6-hexamethylene diisocyanate | Acetaldehyde | Acrolein | acrylic acid | Acrylonitrile | Arsenicals | Benzene | Carbon Tetrachloride | Chlorine | chromium hexavalent ion | Ethylene Dibromide | ethylene dichloride | Ethylene Oxide | Formaldehyde | naphthalene | Ozone | Particulate Matter | Vehicle Emissions | Vinyl Chloride||Study subjects||United States||Details||Disorders of Environmental Origin | Neoplasms|
|2.||Remy LL, et al. (2014).||Using a cross-sequential design, we tested if Willits had an excess rate of adverse health conditions classified using standard federal definitions, when compared to people of the same sex and cohort in the rest of county (ROC).||chromium hexavalent ion||Study subjects||United States||Details||Environmental Illness | Pathological Conditions, Signs and Symptoms|
|3.||Laumbach RJ, et al. (2011).||These results suggest that exposure to Diesel Exhaust can cause acute sickness response symptoms and that these symptoms are also associated with increased levels of self-reported chemical intolerance.||Vehicle Emissions||Study subjects||United States||Details||Environmental Illness|