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Chemical Free Radicals

These are exposure studies associated with the chemical and all of its children.

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1–30 of 30 results.
  Reference Associated Study Title Author's Summary Study Factors Stressor Receptors Country Medium Exposure Marker Measurements Outcome
1. Robinson O, et al. (2015). INfancia y Medio Ambiente (INMA) Project In summary, the correlation analysis presented here of multiple environmental exposures among pregnant women provide a first picture of the structure of the exposome during the crucial in utero period. 2,2',3,4,4',5',6-heptabromodiphenyl ether | 2,2',3',4,4',5-hexachlorobiphenyl | 2,2',4,4',5-brominated diphenyl ether | 2,2',4,4'-tetrabromodiphenyl ether | 2,4,5,2',4',5'-hexachlorobiphenyl | Antimony | Arsenic | Benzene | beta-hexachlorocyclohexane | bisphenol A | Cadmium | Cesium | Chloroform | Cobalt | Copper | Cotinine | decabromobiphenyl ether | Dichlorodiphenyl Dichloroethylene | hexabrominated diphenyl ether 153 | hexabromodiphenyl ether 154 | Hexachlorobenzene | Lead | Mercury | Molybdenum | mono(2-ethyl-5-hydroxyhexyl) phthalate | mono(2-ethyl-5-oxohexyl)phthalate | mono-(2-ethylhexyl)phthalate | mono-benzyl phthalate | monobutyl phthalate | monoethyl phthalate | mono-isobutyl phthalate | Nickel | Nitric Oxide | Nitrogen Dioxide | Nitrogen Oxides | Particulate Matter | PCB 180 | pentabrominated diphenyl ether 100 | pentabromodiphenyl ether | perfluorohexanesulfonic acid | perfluorononanoic acid | perfluorooctane sulfonic acid | perfluorooctanoic acid | Pesticides | Phthalic Acids | Selenium | Thallium | Tobacco Smoke Pollution | Trihalomethanes | Zinc Pregnant females Spain air | blood, cord | colostrum | serum | urine | water 2,2',3,4,4',5',6-heptabromodiphenyl ether | 2,2',3',4,4',5-hexachlorobiphenyl | 2,2',4,4',5-brominated diphenyl ether | 2,2',4,4'-tetrabromodiphenyl ether | 2,4,5,2',4',5'-hexachlorobiphenyl | Antimony | Arsenic | Benzene | beta-hexachlorocyclohexane | bisphenol A | Cadmium | Cesium | Chloroform | Cobalt | Copper | Cotinine | decabromobiphenyl ether | Dichlorodiphenyl Dichloroethylene | hexabrominated diphenyl ether 153 | hexabromodiphenyl ether 154 | Hexachlorobenzene | Lead | Mercury | Molybdenum | mono(2-ethyl-5-hydroxyhexyl) phthalate | mono(2-ethyl-5-oxohexyl)phthalate | mono-(2-ethylhexyl)phthalate | mono-benzyl phthalate | monobutyl phthalate | monoethyl phthalate | mono-isobutyl phthalate | Nickel | Nitric Oxide | Nitrogen Dioxide | Nitrogen Oxides | Particulate Matter | PCB 180 | pentabrominated diphenyl ether 100 | pentabromodiphenyl ether | perfluorohexanesulfonic acid | perfluorononanoic acid | perfluorooctane sulfonic acid | perfluorooctanoic acid | Pesticides | Phthalic Acids | Selenium | Thallium | Tobacco Smoke Pollution | Trihalomethanes | Zinc Details
2. Clark NA, et al. (2010). We observed a statistically significantly increased risk of asthma diagnosis with increased early life exposure to carbon monoxide, nitric oxide, nitrogen dioxide, particulate matter (PM10), sulfur dioxide, and black carbon and proximity to point sources. age Air Pollutants Controls for disease:Asthma | Subjects with disease:Asthma Canada Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Soot | Sulfur Dioxide Details Asthma
3. Shankardass K, et al. (2009). Children's Health Study (CHS) These results suggest that children from stressful households are more susceptible to the effects of traffic-related pollution and in utero tobacco smoke on the development of asthma. race | socioeconomic status | tobacco Air Pollutants Children United States Nitric Oxide Details Asthma
4. Altemose B, et al. (2017). Health Effects of an Air Pollution Reduction Trial (HEART) Using data collected before, during, and after the 2008 Summer Olympics (Beijing, China), this study examines associations between sources of air pollution and biomarkers of blood coagulation (VWF, SELP, and CD40LG), pulmonary inflammation (exhaled nitrites), and systemic oxidative stress (8-oxo-7-hydrodeoxyguanosine). Air Pollutants Study subjects China air, breath, exhaled | blood | urine 8-oxo-7-hydrodeoxyguanosine | CD40LG | Nitric Oxide | Nitrites | SELP | VWF Details
5. Brüske I, et al. (2011). Air Pollution and Inflammatory Response in Myocardial Infarction Survivors: Gene-Environment Interaction in a High Risk Group (AIRGENE) These preliminary findings should be replicated in other study populations because they suggest that the accumulation of acute and subacute effects or the chronic exposure to ambient particulate and gaseous air pollution may result in the promotion of atherosclerosis, mediated, at least in part, by increased levels of lipoprotein-associated phospholipase A2. Air Pollutants | Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Sulfur Dioxide Subjects with disease:Myocardial Infarction Germany air, ambient | plasma Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | PLA2G7 | Sulfur Dioxide Details Atherosclerosis
6. Sarnat SE, et al. (2012). The results indicate adverse effects of air pollution on the subclinical respiratory health of asthmatic children in this region and provide preliminary support for the use of air pollution monitors close to schools to track exposure and potential health risk in this population. disease Air Pollutants | Nitrogen Dioxide | Ozone | Particulate Matter | Soot | Vehicle Emissions Subjects with disease:Asthma | Children Mexico|United States air | air, ambient | air, indoor | air, outdoor Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Soot Details
7. Krämer U, et al. (2010). Study on the Influence of Air Pollution on Lung, Inflammation, and Aging (SALIA) Traffic-related air pollution is associated with incident type 2 diabetes among elderly women. Air Pollutants | Vehicle Emissions Study subjects Germany air, ambient Nitric Oxide | Particulate Matter Details Diabetes Mellitus, Type 2
8. Goldman GT, et al. (2010). Ambient air pollutant measurement error due to instrument imprecision and spatial variability is characterized and its impacts on health risk estimates are assessed. Carbon | Carbon Monoxide | Nitrates | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Quaternary Ammonium Compounds | Soot | Sulfates | Sulfur Dioxide United States air Carbon | Carbon Monoxide | Nitrates | Nitrogen Dioxide | Ozone | Particulate Matter | Quaternary Ammonium Compounds | Soot | Sulfates | Sulfur Dioxide Details
9. Ritz B, et al. (2016). We found ambient air pollution from traffic sources to be associated with risk of Parkinson's Disease, with a 9% higher risk (95% CI: 3, 16.0%) per interquartile range increase (2.97 micrograms per cubic meter) in modeled nitrogen dioxide. Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide Controls for disease:Parkinson Disease | Subjects with disease:Parkinson Disease Denmark Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide Details Parkinson Disease
10. Laurent O, et al. (2013). In the present work, we studied the relationships between birth weight and air pollution, characterized using complementary metrics: measurements from ambient monitoring stations, predictions from dispersion and land use regression (LUR) models, traffic density, and distance to roadways. Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Nitrogen Oxides | Ozone | Particulate Matter Pregnant females United States air Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Nitrogen Oxides | Ozone | Particulate Matter Details Birth Weight
11. Adar SD, et al. (2007). Fine particle exposures resulted in increased levels of exhaled nitric oxide in elderly adults, suggestive of increased airway inflammation. Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Soot | Sulfur Dioxide | Vehicle Emissions Controls for disease:Asthma | Subjects with disease:Asthma | Controls for disease:Pulmonary Disease, Chronic Obstructive | Subjects with disease:Pulmonary Disease, Chronic Obstructive | Study subjects United States Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Soot | Sulfur Dioxide Details Pneumonia
12. Tseng CY, et al. (2012). The current study suggests that Sulfur Dioxide exposure as an air pollutant may increase female lung cancer incidence and the associations with female lung cancer is much stronger for squamous cell carcinoma than for adenocarcinoma. Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Sulfur Dioxide Subjects with disease:Lung Neoplasms China air Carbon Monoxide | Nitric Oxide | Nitrogen Dioxide | Ozone | Particulate Matter | Sulfur Dioxide Details Adenocarcinoma | Carcinoma, Squamous Cell
13. Balsa AI, et al. (2016). Taking advantage of a natural experiment, we found evidence that exposure to high levels of PM10 during the third trimester of pregnancy may have increased preterm births among women in Montevideo, Uruguay. Carbon Monoxide | Nitric Oxide | Particulate Matter | Sulfur Dioxide Pregnant females Uruguay air Carbon Monoxide | Nitric Oxide | Particulate Matter | Sulfur Dioxide Details Premature Birth
14. Pollard SL, et al. (2014). Indoor air concentrations associated with biomass smoke were six-fold greater in rural vs. urban households. Carbon Monoxide | Particulate Matter Study subjects Peru air | breath Carbon Monoxide | Nitric Oxide | Particulate Matter Details
15. Hahn S, et al. (2010). Exposure to biocides from household products may contribute to induction of sensitization in the population. Disinfectants Germany 1,2-benzisothiazoline-3-one | 2-Propanol | Benzalkonium Compounds | Benzoates | bronopol | chloroacetamide | Chlorpyrifos | d,d-T80-prallethrin | Dichlorvos | Formaldehyde | Glutaral | Hydrogen Peroxide | phenoxyethanol | phoxim | picaridin | Sodium Hypochlorite | Thiazoles | trichloroisocyanuric acid | Triclosan | troclosene Details
16. Antoniewicz L, et al. (2016). In healthy volunteers, ten puffs of e-cigarette vapor inhalation caused an increase in endothelial progenitor cells. Ethanol | Glycerol | Nicotine | Propylene Glycol | Tobacco Smoke Pollution Study subjects Sweden breath | plasma Cotinine | Nitric Oxide Details stem cell population maintenance
17. Kasperczyk S, et al. (2014). We examined the effects of N-acetylcysteine administration on the non-enzymatic defense systems (e.g., uric acid, albumin, bilirubin and alpha-tocopherol) in male workers exposed to lead, over a 12 week study period. Lead Workers Poland blood ALB | alpha-Tocopherol | Bilirubin | Lead | Lipid Peroxides | Uric Acid | zinc protoporphyrin Details
18. Gan WQ, et al. (2011). This large, population-based cohort study demonstrated that long-term exposure to higher concentrations of black carbon was associated with an increased risk of coronary heart disease hospitalization and mortality in an exposure-response fashion. Nitric Oxide | Nitrogen Dioxide | Particulate Matter | Soot Study subjects Canada air Nitric Oxide | Nitrogen Dioxide | Particulate Matter | Soot Details Coronary Disease
19. Liu LJ, et al. (2007). Swiss study on Air Pollution and Lung Diseases In Adults (SAPALDIA) In this article we provide a comprehensive evaluation of the dispersion modeling estimates for all and for traffic-specific sources. Nitric Oxide | Nitrogen Dioxide | Particulate Matter | Soot Switzerland air Nitric Oxide | Nitrogen Dioxide | Particulate Matter | Soot Details
20. Filleul L, et al. (2005). Pollution Atmospherique et Affections Respiratoires Chroniques/Air pollution and chronic respiratory diseases (PAARC) Urban air pollution assessed in the 1970s was associated with increased mortality over 25 years in France. sex | tobacco Nitric Oxide | Nitrogen Dioxide | Smoke | Sulfur Dioxide Study subjects France air Nitrogen Dioxide | Smoke | Sulfur Dioxide Details Cardiovascular Diseases | Death | Lung Neoplasms
21. Marshall JD, et al. (2009). We found that neighborhoods with high walkability tend to have high levels of primary traffic-related pollution (nitric oxide) but low concentrations of ozone. Nitric Oxide | Ozone Study subjects Canada Nitric Oxide | Ozone Details
22. Mar TF, et al. (2005). The objective of this study was to evaluate associations between short-term (hourly) exposures to particulate matter with aerodynamic diameters < 2.5 microm (PM2.5) and the fractional concentration of nitric oxide in exhaled breath (FE(NO) in children with asthma participating in an intensive panel study in Seattle, Washington. Nitric Oxide | Particulate Matter Subjects with disease:Asthma | Children United States air Nitric Oxide Details inflammatory response | response to chemical
23. Adar SD, et al. (2015). Multi-Ethnic Study of Atherosclerosis (MESA) We examined associations of particulate matter (PM2.5, PM10) and nitrogen oxides (NOx) with percent emphysema-like lung on computed tomography (CT). Nitric Oxide | Particulate Matter Study subjects United States air Nitric Oxide | Particulate Matter Details Emphysema | respiratory system process
24. Wu J, et al. (2009). Exposure to local traffic-generated air pollution during pregnancy increases the risk of preeclampsia and preterm birth in Southern California women. Nitric Oxide | Particulate Matter | Vehicle Emissions Pregnant females United States air Nitric Oxide | Particulate Matter | Vehicle Emissions Details Pre-Eclampsia | Premature Birth
25. Raaschou-Nielsen O, et al. (2011). Diet, Cancer and Health Study This study supports that risk for lung cancer is associated with different markers of air pollution from traffic near the residence. Nitrogen Oxides Study subjects Denmark Nitric Oxide Details Lung Neoplasms
26. Jacobs L, et al. (2010). Traffic-related exposure to particles during exercise caused a small increase in the distribution of inflammatory blood cells in healthy subjects. The health significance of this isolated change is unclear. Particulate Matter Study subjects Belgium air | breath Nitric Oxide | Particulate Matter Details neutrophil homeostasis
27. Marini S, et al. (2014). Statistical tests performed on exhaled Nitric Oxide data showed statistically significant differences between smoking/vaping sessions and the control session, thus confirming a similar effect on human airways whatever the cigarette smoked/vaped, the nicotine content, and the particle dose received. tobacco Particulate Matter Study subjects Italy cigarette | e-cigarette Nitric Oxide | Particulate Matter Details respiratory gaseous exchange
28. Maikawa CL, et al. (2016). This study investigated the association between airway inflammation in asthmatic children and oxidative burden of PM2.5 personal exposure. Particulate Matter Subjects with disease:Asthma | Children Canada air | air, breath Nitric Oxide | Particulate Matter Details inflammatory response
29. Nethery E, et al. (2012). Study to identify polycyclic aromatic hydrocarbons in the urine of pregnant women as biomarkers of exposure in air Polycyclic Aromatic Hydrocarbons Pregnant females Canada urine 1-hydroxyphenanthrene | 1-hydroxypyrene | 1-naphthol | 2-hydroxyfluorene | 2-naphthol | 4-hydroxyphenanthrene | fluoren-9-ol | Nitric Oxide | Nitrogen Dioxide | Particulate Matter Details
30. Eckel SP, et al. (2011). Southern California Children's Health Study (CHS) Length of road was the only indicator of residential traffic-related pollution exposure associated with airway inflammation in children with asthma, as measured by fractional concentration of nitric oxide in exhaled air. disease Vehicle Emissions Controls for disease:Asthma | Subjects with disease:Asthma | Children Canada air, breath, exhaled Nitric Oxide Details inflammatory response
1–30 of 30 results.