Phthalate and DINCH metabolites in the urine of Hungarian schoolchildren: Cumulative risk assessment and exposure determinants.

A human biomonitoring study was conducted to assess the exposure of Hungarian children aged 8-11 years to ten phthalate esters (PEs) and DINCH between 2017 and 2018. In addition to collecting urine samples from 262 participants, a questionnaire was completed by the parents or legal guardians to identify potential determinants of exposure. The highest geometric mean concentration was observed for MiBP, followed by MBP, cx- MEHP, OH-MEHP and MEP. Three out of the four DINCH metabolites were detected in more than 90% of the samples. The comparison of the urinary concentrations measured in this study with those observed in the DEMOCOPHES study revealed a significant decreasing trend in all PE metabolites investigated in both studies between 2011/2012 and 2017/2018. Different approaches were used to assess the health risks associated with the exposure to PEs and DINCH. Our results highlighted that the hazard index (HI) values were higher than 1 in 17.6% of the children when the human biomonitoring guidance values were applied. In contrast, less than 3% of the children had HI values exceeding 1 when other sources of reference values were used. By applying a safety factor of 10 for the risk assessment, 17.6-91.6% of the children were characterized by HI values higher than 0.1, indicating the need for risk reduction measures. Overall, DnBP, DiBP and DEHP were identified as the main drivers of the mixture risk. Although PEs and DINCH are ubiquitous contaminants, there are still inconsistencies and gaps in our understanding of the determinants of exposure. The results of the multivariate regression analysis showed significant associations between PE or DINCH metabolite concentrations and certain individual characteristics, use of personal care products, home and school environment and food and beverages consumption 24 h prior to sample collection.

Indoor air quality and the associated health risk in primary school buildings in Central Europe - The InAirQ study.

The indoor air quality (IAQ) was investigated in sixty-four primary school buildings in five Central European countries (Czech Republic, Hungary, Italy, Poland, and Slovenia). The concentration of volatile organic compounds, aldehydes, PM2.5 mass, carbon dioxide, radon, as well as physical parameters were investigated during the heating period of 2017/2018. Significant differences were identified for the majority of the investigated IAQ parameters across the countries. The median indoor/outdoor ratios varied considerably. A comprehensive evaluation of IAQ in terms of potential health effects and comfort perception was performed. Hazard quotient values were below the threshold value of 1 with one exception. In contrast, 31% of the school buildings were characterized by hazard index values higher than 1. The maximum cumulative ratio approach highlighted that the concern for non-carcinogenic health effects was either low or the health risk was driven by more substances. The median excess lifetime cancer risk values exceeded the acceptable value of 1 × 10-6 in the case of radon and formaldehyde. PM2.5 mass concentration values exceeded the 24 h and annual guideline values set by the World Health Organization in 56 and 85% of the cases, respectively. About 80% of the schools could not manage to comply with the recommended concentration value for carbon dioxide (1000 ppm).

Time Patterns in Internal Human Exposure Data to Bisphenols, Phthalates, DINCH, Organophosphate Flame Retardants, Cadmium and Polyaromatic Hydrocarbons in Europe.

Human biomonitoring (HBM) data in Europe are often fragmented and collected in different EU countries and sampling periods. Exposure levels for children and adult women in Europe were evaluated over time. For the period 2000-2010, literature and aggregated data were collected in a harmonized way across studies. Between 2011-2012, biobanked samples from the DEMOCOPHES project were used. For 2014-2021, HBM data were generated within the HBM4EU Aligned Studies. Time patterns on internal exposure were evaluated visually and statistically using the 50th and 90th percentiles (P50/P90) for phthalates/DINCH and organophosphorus flame retardants (OPFRs) in children (5-12 years), and cadmium, bisphenols and polycyclic aromatic hydrocarbons (PAHs) in women (24-52 years). Restricted phthalate metabolites show decreasing patterns for children. Phthalate substitute, DINCH, shows a non-significant increasing pattern. For OPFRs, no trends were statistically significant. For women, BPA shows a clear decreasing pattern, while substitutes BPF and BPS show an increasing pattern coinciding with the BPA restrictions introduced. No clear patterns are observed for PAHs or cadmium. Although the causal relations were not studied as such, exposure levels to chemicals restricted at EU level visually decreased, while the levels for some of their substitutes increased. The results support policy efficacy monitoring and the policy-supportive role played by HBM.