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Latex allergens in tire dust and airborne particles.
The prevalence and severity of latex allergy has increased dramatically in the last 15 years due to exposure to natural rubber products. Although historically this health risk has been elevated in hospital personnel and patients, a recent survey has indicated a significant potential risk for the gen...
Autores principales: | , , , |
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Formato: | Texto |
Lenguaje: | English |
Publicado: |
1996
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Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1469526/ https://www.ncbi.nlm.nih.gov/pubmed/8959407 |
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author | Miguel, A G Cass, G R Weiss, J Glovsky, M M |
author_facet | Miguel, A G Cass, G R Weiss, J Glovsky, M M |
author_sort | Miguel, A G |
collection | PubMed |
description | The prevalence and severity of latex allergy has increased dramatically in the last 15 years due to exposure to natural rubber products. Although historically this health risk has been elevated in hospital personnel and patients, a recent survey has indicated a significant potential risk for the general population. To obtain a wide-spread source for latex exposure, we have considered tire debris. We have searched for the presence of latex allergens in passenger car and truck tire tread, in debris deposited from the atmosphere near a freeway, and in airborne particulate matter samples representative of the entire year 1993 at two sites in the Los Angeles basin (California). After extraction of the samples with phosphate buffered saline, a modified-ELISA inhibition assay was used to measure relative allergen potency and Western blot analyses were used to identify latex allergens. The inhibition studies with the human IgE latex assay revealed inhibition by the tire tread source samples and ambient freeway dust, as well as by control latex sap and latex glove extracts. Levels of extractable latex allergen per unit of protein extracted were about two orders of magnitude lower for tire tread as compared to latex gloves. Western blot analyses using binding of human IgE from latex-sensitive patients showed a band at 34-36 kDa in all tire and ambient samples. Long Beach and Los Angeles, California, air samples showed four additional bands between 50 and 135 kDa. Alternative Western blot analyses using rabbit IgG raised against latex proteins showed a broad band at 30-50 kDa in all samples, with additional bands in the urban air samples similar to the IgE results. A latex cross-reactive material was identified in mountain cedar. In conclusion, the latex allergens or latex cross-reactive material present in sedimented and airborne particulate material, derived from tire debris, and generated by heavy urban vehicle traffic could be important factors in producing latex allergy and asthma symptoms associated with air pollution particles. |
format | Text |
id | pubmed-1469526 |
institution | National Center for Biotechnology Information |
language | English |
publishDate | 1996 |
record_format | MEDLINE/PubMed |
spelling | pubmed-14695262006-06-01 Latex allergens in tire dust and airborne particles. Miguel, A G Cass, G R Weiss, J Glovsky, M M Environ Health Perspect Research Article The prevalence and severity of latex allergy has increased dramatically in the last 15 years due to exposure to natural rubber products. Although historically this health risk has been elevated in hospital personnel and patients, a recent survey has indicated a significant potential risk for the general population. To obtain a wide-spread source for latex exposure, we have considered tire debris. We have searched for the presence of latex allergens in passenger car and truck tire tread, in debris deposited from the atmosphere near a freeway, and in airborne particulate matter samples representative of the entire year 1993 at two sites in the Los Angeles basin (California). After extraction of the samples with phosphate buffered saline, a modified-ELISA inhibition assay was used to measure relative allergen potency and Western blot analyses were used to identify latex allergens. The inhibition studies with the human IgE latex assay revealed inhibition by the tire tread source samples and ambient freeway dust, as well as by control latex sap and latex glove extracts. Levels of extractable latex allergen per unit of protein extracted were about two orders of magnitude lower for tire tread as compared to latex gloves. Western blot analyses using binding of human IgE from latex-sensitive patients showed a band at 34-36 kDa in all tire and ambient samples. Long Beach and Los Angeles, California, air samples showed four additional bands between 50 and 135 kDa. Alternative Western blot analyses using rabbit IgG raised against latex proteins showed a broad band at 30-50 kDa in all samples, with additional bands in the urban air samples similar to the IgE results. A latex cross-reactive material was identified in mountain cedar. In conclusion, the latex allergens or latex cross-reactive material present in sedimented and airborne particulate material, derived from tire debris, and generated by heavy urban vehicle traffic could be important factors in producing latex allergy and asthma symptoms associated with air pollution particles. 1996-11 /pmc/articles/PMC1469526/ /pubmed/8959407 Text en |
spellingShingle | Research Article Miguel, A G Cass, G R Weiss, J Glovsky, M M Latex allergens in tire dust and airborne particles. |
title | Latex allergens in tire dust and airborne particles. |
title_full | Latex allergens in tire dust and airborne particles. |
title_fullStr | Latex allergens in tire dust and airborne particles. |
title_full_unstemmed | Latex allergens in tire dust and airborne particles. |
title_short | Latex allergens in tire dust and airborne particles. |
title_sort | latex allergens in tire dust and airborne particles. |
topic | Research Article |
url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1469526/ https://www.ncbi.nlm.nih.gov/pubmed/8959407 |
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