F D Dick1, S E Semple, M van Tongeren, B G Miller, P Ritchie, D Sherriff, J W Cherrie. 1. Environmental and Occupational Medicine, Population Health Section, Division of Applied Health Sciences, School of Medicine and Dentistry, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, UK. f.dick@abdn.ac.uk
Abstract
INTRODUCTION: Pesticides have been associated with increased risks for a range of conditions including Parkinson's disease, but identifying the agents responsible has proven challenging. Improved pesticide exposure estimates would increase the power of epidemiological studies to detect such an association if one exists. METHODS: Categories of pesticide use were identified from the tasks reported in a previous community-based case-control study in Scotland. Typical pesticides used in each task in each decade were identified from published scientific and grey literature and from expert interviews, with the number of potential agents collapsed into 10 groups of pesticides. A pesticide usage database was then created, using the task list and the typical pesticide groups employed in those tasks across seven decades spanning the period 1945-2005. Information about the method of application and concentration of pesticides used in these tasks was then incorporated into the database. RESULTS: A list was generated of 81 tasks involving pesticide exposure in Scotland covering seven decades producing a total of 846 task per pesticide per decade combinations. A Task-Exposure Matrix for PESTicides (TEMPEST) was produced by two occupational hygienists who quantified the likely probability and intensity of inhalation and dermal exposures for each pesticide group for a given use during each decade. CONCLUSIONS: TEMPEST provides a basis for assessing exposures to specific pesticide groups in Scotland covering the period 1945-2005. The methods used to develop TEMPEST could be used in a retrospective assessment of occupational exposure to pesticides for Scottish epidemiological studies or adapted for use in other countries.
INTRODUCTION: Pesticides have been associated with increased risks for a range of conditions including Parkinson's disease, but identifying the agents responsible has proven challenging. Improved pesticide exposure estimates would increase the power of epidemiological studies to detect such an association if one exists. METHODS: Categories of pesticide use were identified from the tasks reported in a previous community-based case-control study in Scotland. Typical pesticides used in each task in each decade were identified from published scientific and grey literature and from expert interviews, with the number of potential agents collapsed into 10 groups of pesticides. A pesticide usage database was then created, using the task list and the typical pesticide groups employed in those tasks across seven decades spanning the period 1945-2005. Information about the method of application and concentration of pesticides used in these tasks was then incorporated into the database. RESULTS: A list was generated of 81 tasks involving pesticide exposure in Scotland covering seven decades producing a total of 846 task per pesticide per decade combinations. A Task-Exposure Matrix for PESTicides (TEMPEST) was produced by two occupational hygienists who quantified the likely probability and intensity of inhalation and dermal exposures for each pesticide group for a given use during each decade. CONCLUSIONS: TEMPEST provides a basis for assessing exposures to specific pesticide groups in Scotland covering the period 1945-2005. The methods used to develop TEMPEST could be used in a retrospective assessment of occupational exposure to pesticides for Scottish epidemiological studies or adapted for use in other countries.
Authors: Javier Vila; Joseph D Bowman; Jordi Figuerola; David Moriña; Laurel Kincl; Lesley Richardson; Elisabeth Cardis Journal: J Expo Sci Environ Epidemiol Date: 2016-11-09 Impact factor: 5.563
Authors: Sara N Lupolt; Jacqueline Agnew; Gurumurthy Ramachandran; Thomas A Burke; Ryan David Kennedy; Keeve E Nachman Journal: J Expo Sci Environ Epidemiol Date: 2022-10-17 Impact factor: 6.371
Authors: C Quinot; O Dumas; P K Henneberger; R Varraso; A S Wiley; F E Speizer; M Goldberg; J P Zock; C A Camargo; N Le Moual Journal: Occup Environ Med Date: 2016-08-26 Impact factor: 4.402
Authors: Martie van Tongeren; Laurel Kincl; Lesley Richardson; Geza Benke; Jordi Figuerola; Timo Kauppinen; Ramzan Lakhani; Jérôme Lavoué; Dave McLean; Nils Plato; Elisabeth Cardis Journal: Ann Occup Hyg Date: 2013-03-06
Authors: Mario Fargnoli; Mara Lombardi; Daniele Puri; Laura Casorri; Eva Masciarelli; Stefan Mandić-Rajčević; Claudio Colosio Journal: Int J Environ Res Public Health Date: 2019-01-23 Impact factor: 3.390