These are exposure studies associated with the chemical and all of its children.
|Reference||Associated Study Title||Author's Summary||Study Factors||Stressor||Receptors||Country||Medium||Exposure Marker||Measurements||Outcome|
|1.||Fan R, et al. (2012).||Consistent with results from previous studies in other case populations, traditional Chinese medicine appeared to have a direct or indirect protective effect against diffuse large B-cell lymphoma.||Drugs, Chinese Herbal||Controls for disease:Lymphoma, Large B-Cell, Diffuse | Subjects with disease:Lymphoma, Large B-Cell, Diffuse||China||Details||Lymphoma, Large B-Cell, Diffuse|
|2.||Fan Z, et al. (2016).||The prevalence of brick tea-type dental and skeletal fluorosis is high in Tibet because of the habit of drinking brick tea in this region; the altitude and occupational factors are important risk factors, with herdsmen having the highest fluoride exposure and the most severe skeletal fluorosis.||diet||Fluorides | Tea||Children | Study subjects||China||tea | tea, brick | urine | water, drinking||Fluorides||Details||Fluorosis, Dental|
|3.||Shojaeepour S, et al. (2018).||Use of lead-adulterated opium causes high frequency of lead toxicity symptoms, hematological and biochemical abnormalities, and oxidative stress which are associated with blood level level (BLL). Route of opioid use and the polymorphism of rs1800435 in ALAD gene are the major determinants of BLL in lead-adulterated opium users.||Lead | Opium||Subjects with disease:Opium Dependence||Iran, Islamic Republic of||blood||Lead | Opium||Details||Lead Poisoning | lipid metabolic process | response to oxidative stress|