| Autor: |
Varona-Uribe ME; School of Medicine and Health Sciences, Universidad del Rosario, Bogotá D.C. 111221, Colombia., Díaz SM; School of Medicine and Health Sciences, Universidad del Rosario, Bogotá D.C. 111221, Colombia., Palma RM; Environmental and Occupational Health Group, National Institute of Health, Bogotá D.C. 111321, Colombia., Briceño-Ayala L; School of Medicine and Health Sciences, Universidad del Rosario, Bogotá D.C. 111221, Colombia., Trillos-Peña C; School of Medicine and Health Sciences, Universidad del Rosario, Bogotá D.C. 111221, Colombia., Téllez-Avila EM; Environmental and Occupational Health Group, National Institute of Health, Bogotá D.C. 111321, Colombia., Espitia-Pérez L; Grupo de Investigación Biomédicas y Biología Molecular, Universidad del Sinú, Montería 230001, Colombia., Pastor-Sierra K; Grupo de Investigación Biomédicas y Biología Molecular, Universidad del Sinú, Montería 230001, Colombia., Espitia-Pérez PJ; Grupo de Investigación Biomédicas y Biología Molecular, Universidad del Sinú, Montería 230001, Colombia., Idrovo AJ; Public Health Department, School of Medicine, Universidad Industrial de Santander, Bucaramanga 680002, Colombia. |
| Abstrakt: |
The contexts where there are mining and agriculture activities are potential sources of risk to human health due to contamination by chemical mixtures. These contexts are frequent in several Colombian regions. This study explored the potential association between the frequency of micronuclei and pesticides and elements in regions with ferronickel (Montelibano, Córdoba) and gold (Nechí, Antioquia) mining, and a closed native mercury mine (Aranzazu, Caldas), with an emphasis in the potential effect of selenium as a potential chelator. A cross-sectional study was carried out with 247 individuals. Sociodemographic, occupational, and toxicological variables were ascertained. Blood and urine samples were taken for pesticide analysis (5 organophosphates, 4 organochlorines, and 3 carbamates), 68 elements were quantified in hair, and micronuclei were quantified in lymphocytes. The mixtures of elements were grouped through principal component analysis. Prevalence ratios were estimated with robust variance Poisson regressions to explore associations. Interactions of selenium with toxic elements were explored. The highest concentrations of elements were in the active mines. The potentially most toxic chemical mixture was observed in the ferronickel mine. Pesticides were detected in a low proportion of participants (<2.5%), except paraoxon-methyl in blood (27.55%) in Montelibano and paraoxon-ethyl in blood (18.81%) in Aranzazu. The frequency of micronuclei was similar in the three mining contexts, with means between 4 to 7 ( p = 0.1298). There was great heterogeneity in the exposure to pesticides and elements. The "hormetic effect" of selenium was described, in which, at low doses, it acts as a chelator in Montelibano and Aranzazu, and at high doses, it can enhance the toxic effects of other elements, maybe as in Nechí. Selenium can serve as a protective agent, but it requires adaptation to the available concentrations in each region to avoid its toxic effects. |
