| Literature DB >> 29019346 |
Camille Carles1,2,3, Ghislaine Bouvier1,3, Yolande Esquirol4,5, Camille Pouchieu1,3, Lucile Migault1,3, Clément Piel1,3, Pascale Fabbro-Peray5, Séverine Tual6, Pierre Lebailly6,7,8, Isabelle Baldi1,2,3.
Abstract
Occupational exposure to pesticides concerns a wide population of workers not only in agriculture. The reliability of self-reported information on pesticide use is questionable because of the diversity of use. The PESTIPOP job-exposure matrix has been designed to assess pesticide occupational exposure in the general population. The matrix is composed of two axes: the first axis corresponding to jobs (combinations of occupations and industries) and the second one to pesticide exposure. The estimated exposure metric is the probability of exposure coupled with a reliability assessment (low, medium or high). These metrics were defined by combining different sources: (1) an a priori expert assessment (Agricultural industry experts); (2) data from a multicenter case-control study on brain tumors in the general population (occupational history, specific questionnaires); and (3) an a posteriori expert assessment based on the data of a case-control study. So far, 2559 jobs have been identified and 209 (8%) were found to be exposed to pesticides. Jobs with agricultural exposure had a higher exposure probability than jobs with non-agricultural exposure (wood preservation, park maintenance, pest control). Indirect exposure was more frequent than direct exposure. The PESTIPOP matrix will be transcoded into international classifications for use in epidemiological studies.Entities:
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Year: 2017 PMID: 29019346 DOI: 10.1038/jes.2017.26
Source DB: PubMed Journal: J Expo Sci Environ Epidemiol ISSN: 1559-0631 Impact factor: 5.563