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Illuminating how chemicals affect human health.
AntigensThese 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. | Belanger K, et al. (2003). | In a cohort of 849 infants with an asthmatic sibling, the authors examined the relations of exposure to allergens (dust mite, cockroach, cat, and dog), nitrogen dioxide, and mold with symptoms of wheeze and persistent cough in the first year of life (1998-2000). | disease | race | sex | socioeconomic status | allergen Bla g 1 | Allergens | Nitrogen Dioxide | Infants or newborns | United States | Details | Cough | Respiratory Sounds | |||
| 2. | Williams DL, et al. (2011). | These findings demonstrate that dairy operations increase community exposures to agents with known human health effects. This study also provides evidence that airborne biological contaminants (i.e. cow allergen) associated with airborne particulate matter are statistically elevated at distances up to three miles (4.8 km) from dairy operations. | Ammonia | Bos d 2 allergen | Dust | United States | air, indoor | air, outdoor | Ammonia | Bos d 2 allergen | Dust | Details | ||||
| 3. | Tischer C, et al. (2016). | Lifestyle-Related factors on the Immune System and the Development of Allergies in Childhood plus the influence of traffic emissions and genetics (LISAplus) | We observed a significant reduced risk for developing specific allergic sensitization to aeroallergens in early childhood after exposure to higher fungal diversity around birth, but with attenuated effects until later childhood. | Antigens, Bacterial | Antigens, Fungal | Children | Germany | dust | Antigens, Bacterial | Antigens, Fungal | Details | Respiratory Hypersensitivity | Respiratory Sounds | sensitization | |
| 4. | Stamp LK, et al. (2015). | We have replicated findings identifying dust exposure (grain and silica) and farm exposure as risk factors for granulomatosis with polyangiitis; we have shown activities associated with exposure to inhaled antigens (in particular those related to farming or gardening) may increase the risk of the disease. | Antigens | Dust | Silicon Dioxide | Controls for disease:Granulomatosis with Polyangiitis | Subjects with disease:Granulomatosis with Polyangiitis | New Zealand | Details | Granulomatosis with Polyangiitis | ||||
| 5. | Loo CK, et al. (2010). | Toronto Child Health Evaluation Questionnaire (TCHEQ) | Questionnaire reports of a cat, of a gas stove, of mice as pests, of musty odours, and of the home's age predicted objectively measured concentrations of pollutants in the home at levels that may be associated with adverse health outcomes. | Antigens, Dermatophagoides | Nitrogen Dioxide | Particulate Matter | Canada | air | dust | Antigens, Dermatophagoides | Nitrogen Dioxide | Particulate Matter | Details | |||
| 6. | Brough HA, et al. (2015). | Consortium of Food Allergy Research Observational Study (CoFAR) | Exposure to peanut antigen in dust through an impaired skin barrier in atopically inflamed skin is a plausible route for peanut skin sensitization and peanut allergy. | diet | disease | Antigens, Plant | Children | Subjects with disease:Dermatitis, Atopic | United States | dust | Antigens, Plant | Details | Peanut Hypersensitivity |