Simultaneous detection of mycotoxins and pesticides in human urine samples: A 24-h diet intervention study comparing conventional and organic diets in Spain
Metadatos
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Gallardo Ramos, Jose A.; Marín Sáez, Jesús; Sanchis, Vicente; Gámiz Gracia, Laura; García Campaña, Ana María; Hernández Mesa, Maykel; Cano-Sancho, GermánEditorial
Elsevier
Materia
Mycotoxins urine samples pesticides mass spectrometry liquid chromatography biomarkers
Fecha
2024-04-09Referencia bibliográfica
J.A. Gallardo-Ramos et al. Food and Chemical Toxicology Volume 188, June 2024, 114650. https://doi.org/10.1016/j.fct.2024.114650
Patrocinador
Andalusian Government (PROYEXCEL_00195); MCIN/AEI/10.13039/501100011033 PID 2021-127804OB-I00, IJC 2019-040989-I; Catalonian Government (2022FI_B100033 and 2023FI-300033); European funds; University of Granada (FQM302); University of Almería; Spanish Ministry of Universities; European Union's NextGenerationEUResumen
Pesticides and mycotoxins, prominent chemical hazards in the food chain, are commonly found in plant-based foods, contributing to their pervasive presence in the human body, as evidenced by biomonitoring programs. Despite this, there is limited knowledge about their co-occurrence patterns. While intervention studies have demonstrated that organic diets can significantly reduce pesticide levels, their impact on mycotoxin exposure has been overlooked.
To address this gap, this study pursued two objectives: first, to characterize the simultaneous presence of mycotoxins and pesticides in human urine samples by means of the control of the biomarkers of exposure, and second, to investigate the influence of consuming organic foods on these co-exposure patterns. A pilot study involving 20 healthy volunteers was conducted, with participants consuming either exclusively organic or conventional foods during a 24-hour diet intervention in autumn 2021 and spring 2022 to account for seasonal variability. Participants provided detailed 24-hour dietary records, and their first-morning urine samples were collected, minimally treated and analyzed using LC-Q-ToF-MS by means of a multitargeted method in order to detect the presence of these residues.
Results indicated that among the 52 screened compounds, four mycotoxins and seven pesticides were detected in over 25% of the samples. Deoxynivalenol (DON) and the non-specific pesticide metabolite diethylphosphate (DEP) exhibited the highest frequency rates (100%) and concentration levels. Correlations were observed between urine levels of mycotoxins (DON, ochratoxin alpha [OTα], and enniatin B [ENNB]) and organophosphate pesticide metabolites DEP and 2-diethylamino-6-methyl-4-pyrimidinol (DEAMPY). The pilot intervention study suggested a reduction in ENNB and OTα levels and an increase in β-zearalenol levels in urine after a short-term replacement with organic food. However, caution is advised due to the study's small sample size and short duration, emphasizing the need for further research to enhance understanding of the human chemical exposome and refine chemical risk assessment.