RESUMO
Pyrethroids are synthetic insecticides commonly used in agriculture and homes due to their low toxicity to mammals and effectiveness at low doses. However, exposure to pyrethroids can cause various symptoms, depending on the route of exposure. To measure human exposure to pyrethroids, researchers used wastewater-based epidemiology (WBE) with polar organic chemical integrative samplers (POCIS) sampling. This approach is a cost-effective and efficient way to assess exposure to pyrethroids. The study aimed to evaluate the exposure of an urban population in Brazil to pyrethroids during the COVID-19 pandemic using WBE with POCIS sampling. Researchers analyzed 3-phenoxybenzoic acid (3-PBA) in wastewater using passive sampling with POCIS, which was extracted with methanol and analyzed using UPLC-MS/MS. The range of CTWA concentrations of 3-PBA in wastewater was 24.3-298.2 ng L-1, with a mean value of 134 ± 76.5 ng L-1. The values were used to estimate the exposure of the population to pyrethroid insecticides. Three different conversion factors were applied to determine the range of exposure to at least 20 different pyrethroid insecticides. The exposure values ranged from 18.08 to 1441.49 mg day-1 per 1000 inhabitants. The toxicological risk posed to the exposed population was evaluated by calculating the WBE toxicological level (WBE-TL). Lambda-cyhalothrin was used as a reference for risk assessment, and the WBE-TL values for lambda-cyhalothrin ranged from 0.5 to 8.29 (considering the high CF). We compared mobility trends to 3-PBA exposure during the COVID-19 pandemic. The study highlighted the effectiveness of POCIS sampling in WBE and provided useful information for policymakers and regulatory agencies. POCIS sampling has practical advantages, including analyte pre-concentration, low operational cost, and ease of use. Overall, the study shows the importance of monitoring and understanding the exposure of the population to pyrethroid insecticides, especially during the pandemic when people may be spending more time at home.
Assuntos
COVID-19 , Inseticidas , Piretrinas , Humanos , Brasil/epidemiologia , Pandemias , Vigilância Epidemiológica Baseada em Águas Residuárias , População Urbana , Águas Residuárias , Cromatografia Líquida , Espectrometria de Massas em Tandem , COVID-19/epidemiologia , Medição de RiscoRESUMO
Los piretroides son insecticidas ampliamente usados no sólo en el ámbito agropecuario y doméstico sino también en salud pública. Una vez absorbidos, son rápidamente metabolizados a compuestos polares eliminados por vía renal. Uno de los metabolitos común a un gran número de piretroides es el ácido 3-fenoxibenzoico (3-PBA) el cual es utilizado como marcador de exposición. Se presenta en este trabajo, la validación de una metodología analítica para la determinación del 3-PBA utilizando QuEChERS acoplado a microextracción líquido-líquido dispersiva con tricloroetileno como disolvente extractivo y cromatografía líquida de alta resolución con detector de foto-arreglo de diodos. La validación se realizó con muestras aisladas de orina de voluntarios adultos de ambos sexos sin exposición conocida y orina sintética. El método resultó lineal en el intervalo 9 μg L-1-79 μg L-1; los límites de detección y cuantificación fueron de 3 μg L-1 y 9 μg L-1, respectivamente. No se observaron señales de interferentes a los tiempos de retención del 3-PBA y del ácido 2-fenoxibenzoico (2-PBA), estándar interno, en las muestras de orina blanco. Las señales cromatográficas en las muestras enriquecidas fueron espectralmente homogéneas. Las precisiones intradiarias (RSDr%) (n= 5) para 9 μg L-1 estuvieron comprendidas entre 9,3%-9,9% y para 27 μg L-1 entre 5,9%-10,6%. Las precisiciones interdiarias (RSDint%) (n=15) para los mismos niveles de concentración fueron de 11,8% y 9,1%, respectivamente. El rango de porcentajes de recuperación para 9 μg L-1 fue de 87%-119% y para 27 μg L-1 de 70%-91%. Se evaluó la estabilidad del analito en la muestra y en el extracto. El analito resultó estable a -20 °C durante 7 días en la muestra y durante 1 día en el extracto. Los valores de incertidumbre relativa e incertidumbre expandida fueron evaluados mediante la ecuación de Horwitz, los resultados obtenidos fueron para el nivel 9 μg L-1 de 33% y 65% y para el nivel 27 μg L-1 de 28% y 55%. La aplicabilidad del método validado fue evaluada con muestras reales de personas sin exposición laboral conocida, quienes declararon haber usado insecticidas piretroides. El método resultó sensible y selectivo.
Pyrethroid insecticides are used not only in the agricultural and domestic environment, but also in public health. Once absorbed, they are rapidly metabolized into polar compounds eliminated by the kidneys. One of the metabolites common to many pyrethroids is 3-phenoxybenzoic acid (3-PBA) which are used to evaluate exposure. We present in this paper the validation of an analytical methodology for the determination of 3-PBA using QuEChERS coupled to dispersive liquid-liquid microextraction with trichloroethylene as an extractive solvent and high-performance liquid chromatography with a photodiode array detector. Validation was carried out with isolated samples of urine from adult volunteers of both sexes without exposure and synthetic urine. The method was linear in the interval 9 μg L-1-79 μg L-1; the limit of detection and quantitation were 3 μg L-1 and 9 μg L-1, respectively. Interfering signals were not observed in the blank urine samples and the chromatographic signals in the enriched samples were spectrally homogeneous. The within-run precision (RSDr%) (n = 5) for 9 μg L-1 were between 9.3%-9.9% and for 27 μg L-1 between 5.9%-10.6%. The between-run precision (RSDint%) (n = 15) for the same concentration levels were 11.8% and 9.1%, respectively. The recovery for 9 μg L-1 ranged from 87%-119% and for 27 μg L-1 from 70%-91 %. The stability of the analyte was evaluated in the sample and in the extract. The analyte in the sample was stable at -20 °C for 7 days and in the extract was stable for 1 day. The values of relative uncertainty and expanded uncertainty obtained by the Horwitz equation were 33% and 65% for 9 μg L-1, and 28% and 55% for 27 μg L-1. The applicability of the validated method was evaluated with real samples of people without known occupational exposure, who declared having used pyrethroid insecticides. The method was sensitive and selective.