María G Rodríguez-Zamora1, Lourdes Medina-Escobar2, Glend Mora2, Jan-Paul Zock3, Berna van Wendel de Joode4, Ana M Mora5. 1. Escuela de Ingeniería en Seguridad Laboral e Higiene Ambiental (EISLHA), Instituto Tecnológico de Costa Rica, Cartago, Costa Rica. Electronic address: garodriguez@itcr.ac.cr. 2. Escuela de Ingeniería en Seguridad Laboral e Higiene Ambiental (EISLHA), Instituto Tecnológico de Costa Rica, Cartago, Costa Rica. 3. ISGlobal, Centre for Research in Environmental Epidemiology (CREAL), Barcelona, Spain; University Pompeu Fabra (UPF), Barcelona, Spain; Biomedical Research Center Network for Epidemiology and Public Health (CIBERESP), Madrid, Spain. 4. Central American Institute for Studies on Toxic Substances (IRET), Universidad Nacional, Heredia, Costa Rica. 5. Central American Institute for Studies on Toxic Substances (IRET), Universidad Nacional, Heredia, Costa Rica; Center for Environmental Research and Children's Health (CERCH), School of Public Health, University of California, Berkeley, CA, United States.
Abstract
BACKGROUND: About 12 million workers are involved in the production of basic grains in Central America. However, few studies in the region have examined the occupational factors associated with inhalable dust exposure. OBJECTIVES: (i) To assess the exposure to inhalable dust in workers from rice, maize, and wheat storage facilities in Costa Rica; (ii) to examine the occupational factors associated with this exposure; and (iii) to measure concentrations of respirable and thoracic particles in different areas of the storage facilities. METHODS: We measured inhalable (<100μm) dust concentrations in 176 personal samples collected from 136 workers of eight grain storage facilities in Costa Rica. We also measured respirable (<4μm) and thoracic (<10μm) dust particles in several areas of the storage facilities. RESULTS: Geometric mean (GM) and geometric standard deviation (GSD) inhalable dust concentrations were 2.0mg/m3 and 7.8 (range=<0.2-275.4mg/m3). Personal inhalable dust concentrations were associated with job category [GM for category/GM for administrative staff and other workers (95% CI)=4.4 (2.6, 7.2) for packing; 20.4 (12.3, 34.7) for dehulling; 109.6 (50.1, 234.4) for unloading in flat bed sheds; 24.0 (14.5, 39.8) for unloading in pits; and 31.6 (18.6, 52.5) for drying], and cleaning task [15.8 (95% CI: 10.0, 26.3) in workers who cleaned in addition to their regular tasks]. Higher area concentrations of thoracic dust particles were found in wheat (GM and GSD=4.3mg/m3 and 4.5) and maize (3.0mg/m3 and 3.9) storage facilities, and in grain drying (2.3mg/m3 and 3.1) and unloading (1.5mg/m3 and 4.8) areas. CONCLUSIONS: Operators of grain storage facilities showed elevated inhalable dust concentrations, mostly above international exposure limits. Better engineering and administrative controls are needed.
BACKGROUND: About 12 million workers are involved in the production of basic grains in Central America. However, few studies in the region have examined the occupational factors associated with inhalable dust exposure. OBJECTIVES: (i) To assess the exposure to inhalable dust in workers from rice, maize, and wheat storage facilities in Costa Rica; (ii) to examine the occupational factors associated with this exposure; and (iii) to measure concentrations of respirable and thoracic particles in different areas of the storage facilities. METHODS: We measured inhalable (<100μm) dust concentrations in 176 personal samples collected from 136 workers of eight grain storage facilities in Costa Rica. We also measured respirable (<4μm) and thoracic (<10μm) dust particles in several areas of the storage facilities. RESULTS: Geometric mean (GM) and geometric standard deviation (GSD) inhalable dust concentrations were 2.0mg/m3 and 7.8 (range=<0.2-275.4mg/m3). Personal inhalable dust concentrations were associated with job category [GM for category/GM for administrative staff and other workers (95% CI)=4.4 (2.6, 7.2) for packing; 20.4 (12.3, 34.7) for dehulling; 109.6 (50.1, 234.4) for unloading in flat bed sheds; 24.0 (14.5, 39.8) for unloading in pits; and 31.6 (18.6, 52.5) for drying], and cleaning task [15.8 (95% CI: 10.0, 26.3) in workers who cleaned in addition to their regular tasks]. Higher area concentrations of thoracic dust particles were found in wheat (GM and GSD=4.3mg/m3 and 4.5) and maize (3.0mg/m3 and 3.9) storage facilities, and in grain drying (2.3mg/m3 and 3.1) and unloading (1.5mg/m3 and 4.8) areas. CONCLUSIONS: Operators of grain storage facilities showed elevated inhalable dust concentrations, mostly above international exposure limits. Better engineering and administrative controls are needed.
Authors: Federico Castillo; Ana M Mora; Georgia L Kayser; Jennifer Vanos; Carly Hyland; Audrey R Yang; Brenda Eskenazi Journal: Annu Rev Public Health Date: 2021-01-04 Impact factor: 21.981
Authors: Samuel Fuhrimann; Mirko S Winkler; Philipp Staudacher; Frederik T Weiss; Christian Stamm; Rik Il Eggen; Christian H Lindh; José A Menezes-Filho; Joseph M Baker; Fernando Ramírez-Muñoz; Randall Gutiérrez-Vargas; Ana M Mora Journal: JMIR Res Protoc Date: 2019-01-25