Association between dietary exposure to bisphenols and body mass index in Spanish schoolchildren

The increase in children obesity worldwide has been of particular concern in recent decades. Environmental factors have been proposed as contributors to obesity, and there is a growing concern over obesogens, environmental chemicals with potential obesity‐related endocrine‐disrupting properties. In this regard, bisphenol A (BPA) and its analogues are suspected to have obesogenic properties. Current document report on the activities of the fellow, undertaken during the fourth, 2020–2021 cycle of the EU‐FORA programme at the University of Granada, Institute of Nutrition and Food Science, in Spain. The work programme offered by the hosting site was related to the extrapolation of bisphenols exposure following the determination of these compounds in food frequently consumed by children and in their biological samples. The fellow has participated in the recruitment of the study population in the health centres. In addition, she has participated in the collection of the children biological samples, anthropometric measurements and dietary surveys and in the optimisation of the laboratory methodology for the extraction of bisphenols in biological samples. All these activities also provided the fellow an opportunity to develop her data science related skills, which will benefit her professional development. In addition, the fellow gained an overview of various topics related to food safety risk assessment by attending the EU‐FORA dedicated training modules.

Spatiotemporal Distribution and Ecological Risk Assessment of Plastic Additives in Taihu Lake

To reveal the spatiotemporal distribution and risks of plastic additives in Taihu Lake during the COVID-19 pandemic, the occurrences of typical bisphenols, phthalate esters, and benzotriazoles in the surface water of Taihu Lake were investigated. The plastic additives in 19 sites in Taihu Lake were monitored in four seasons, and their potential ecological risks were evaluated. Diethylphthalate (DEP), dimethoxyethyl phthalate (DMEP), benzyl butyl phthalate (BBP), bisphenol A (BPA), and 2-(2H-benzotriazol-2-yl)-4, 6-di-tert-pentylphenol (UV-328) were detected, with detection rates of 100%, 97%, 58%, 98%, and 7%, respectively. During the COVID-19 pandemic, the sharply increasing usage of plastic products did not result in a significant increase in the plastic additives pollution in Taihu Lake. Conversely, the pollution of plastic additives showed a decreasing trend due to reduced human activities. There were significant seasonal differences in the concentrations of plastic additives in Taihu Lake. The average concentrations of plastic additives in spring and summer were 104.7 and 100.3 ng•L-1, respectively, which were higher than those in autumn (30.7 ng•L-1) and winter (29.9 ng•L-1). The plastic additive pollution also showed some differences in spatial distribution. The concentrations of plastic additives near the southwest coast of Taihu Lake were higher than those in other monitoring sites. The presence of plastic additives in Taihu Lake showed low risks to algae with the proportion of 30%. The risks in autumn and winter were higher than those in spring and summer. BPA and UV-328 may have been the main risk factors, which should be of concern. © 2022, Science Press. All right reserved.

OBEMIRISK‐Knowledge platform for assessing the risk of bisphenols on gut microbiota and its role in obesogenic phenotype: looking for biomarkers

“Obemirisk – Knowledge platform for assessing the risk of Bisphenols on gut microbiota and its role in obesogenic phenotype: looking for biomarkers” was a knowledge transfer project funded by the European Food Safety Authority (EFSA) that integrated a multidisciplinary team from Spain, France, Belgium, Slovakia and Poland. This project aimed to strengthen the knowledge capacity to assess the risk of bisphenol A and several structural analogues on gut microbiota that could mediate the obesogenic phenotype in childhood. Protocols and methodologies from different fields such as chemical analysis (food and biosamples), nutrition (surveys and questionnaires), microbiology (culturomics and metagenomics), and gene reporter assay (AhR‐Ligand) have been applied and shared. Several data generated under the project are available under open publications and databases for the Consortium and scientific community. Common documents and publications integrating data from endocrine disrupting chemicals (EDCs), bisphenols, microbiota dysbiosis and obesity were elaborated. A networking and specific capacity‐building programmes have been implemented to produce and share the new data on bisphenols data food composition, microbiota and its impact on obesity between providers and recipients’ partners. Scientific exchanges and specific designed courses provided training for students in the risk characterization related domains. The project was mainly focused on the bisphenols´ presence in consumed foods by Spanish children and in several children biosamples (saliva, urine, nails, and hair). Moreover, a pilot project on obese vs. normal‐weight children allowed to determine the obesity‐linked microbiota dysbiosis through metagenomics and specific biomarkers of the dysregulated microbiota‐immune system axis (AhR‐Ligands). The Obemirisk project applied a collaborative and multidisciplinary approach to establish scientific data compilation for harmonising risk assessment and to perform trainings on next generation of risk assessment where microbiome disruption might become a robust biomarker to be used in food safety. Several aspects of the process of capacity building have been mainly conceptual due to the COVId‐19 pandemic and will be further implemented through presential exchanges. Moreover, the consortium work strategy can also propose further EU collaborations for refining and elucidating the impact and mechanisms of bisphenols altering human microbiomes and triggering obesity. The knowledge, analyses and the integrative approach will be extrapolated for other foods, age ranges, geographical areas, and other biomatrices.For grant agreements: © OBEMIRISK consortium, 2022

Red blood cells under externally induced stressors probed by micro-Raman spectroscopy

Optical techniques are becoming increasingly popular for the analysis of body fluids, particularly so after the onset of the COVID-19 pandemic. Raman spectroscopy has found special significance among them due to its ability to perform label-free investigations of biological solutions with high sensitivity and specificity. The integration of Raman spectroscopy with optical tweezers-Raman Tweezers-has been explored in conducting biochemical investigations on individual red blood cells. We present in this chapter an evaluation of various stress agents, such as intravenous fluids, certain chemicals, and metal nanoparticles, on live, human red blood cells using the Raman Tweezers technique. The technique found efficacy in monitoring hemoglobin deoxygenation, heme aggregation, heme degradation, and membrane damage in red blood cells under the influence of exogenous agents. © 2022 Elsevier Inc. All rights reserved.

Sex-Specific Effects of Plastic Caging in Murine Viral Myocarditis.

BACKGROUND: Myocarditis is an inflammatory heart disease caused by viral infections that can lead to heart failure, and occurs more often in men than women. Since animal studies have shown that myocarditis is influenced by sex hormones, we hypothesized that endocrine disruptors, which interfere with natural hormones, may play a role in the progression of the disease. The human population is exposed to the endocrine disruptor bisphenol A (BPA) from plastics, such as water bottles and plastic food containers. METHODS: Male and female adult BALB/c mice were housed in plastic versus glass caging, or exposed to BPA in drinking water versus control water. Myocarditis was induced with coxsackievirus B3 on day 0, and the endpoints were assessed on day 10 post infection. RESULTS: We found that male BALB/c mice that were exposed to plastic caging had increased myocarditis due to complement activation and elevated numbers of macrophages and neutrophils, whereas females had elevated mast cell activation and fibrosis. CONCLUSIONS: These findings show that housing mice in traditional plastic caging increases viral myocarditis in males and females, but using sex-specific immune mechanisms.

Plastic pollution in Bangladesh: A review on current status emphasizing the impacts on environment and public health

Invention of the plastics has largely been considered as a boon for the modern life due to their light weight, high strength, and versatile application while being cheaper than other alternative materials. However, with the low biodegradability, over consumption, and widespread mismanagement, plastics have now become ubiquitous in all the environmental compartments and are held responsible for causing enormous pollution to air, soil, and water bodies. Bangladesh is no different from this global scenario, though there has been a little effort to assess the amount of plastic waste and its consequence which is necessary to encounter this mounting threat effectively. Taking this into consideration, current study investigates the impacts of plastic pollution including its most threatening formmicroplastics on environment and human health in Bangladesh. The study is based on critical review of existing literatures from the global perspective. It has been found that a major percentage of the used plastic is mismanaged in Bangladesh, posing a great threat to the environment and human health. This article also put forward some recommendations to tackle this pervasive problem alongside the measures already taken by the government. Overall, this work is aimed at creating an urge among the researchers to study the plastic pollution in Bangladesh comprehensively and raising a concern among the appropriate authorities to develop policies and impose necessary actions against plastic pollution before it is too late.

Cytotoxic and apoptotic data of BPA and BPA alternatives TMBPF, BPAF, and BPS in female adult rat and human stem cells.

Here, we used female adult rat adipose-derived stem cells (rASCs) and human adipose-derived stem cells (hASCs) to compare the toxicities and potencies of several widespread environmental toxins that may be endocrine-disrupting chemicals, including bisphenol A (BPA), and the newer BPA alternatives bisphenol S (BPS), bisphenol AF (BPAF), and tetramethyl bisphenol F (TMBPF). Adult stem cells were cultured to 80% confluency in vitro and then exposed to BPA (1 and 10 µM), 17ß-estradiol (E2; 10 µM), BPS (1 and 10 µM), BPAF (3 × 10-3-30 µM), TMBPF (0.01-50 µM), or control media alone (with 0.01% ethanol) for varying time intervals from 20 min to 5 hrs. Using several cellular assays, the levels of cell death, apoptosis, caspase-6 activation, and potencies were compared across chemical treatments and vehicle-treated controls. There was significantly decreased cell viability and increased apoptosis in rat and human stem cells treated with each BPA analog, as early as 20 min of exposure, and at low doses. With higher magnification, higher resolution imaging it was evident that in many of the BPA analog-treated cells, the Apopxin Deep Red dye indicative of apoptosis was localized to the cytoplasmic compartments of cells, while the nuclear green DCS1 dye indicative of late-stage apoptosis and necrosis was localized to the nuclei of cells. Notably, BPAF and TMBPF showed cytotoxicity in a dose-dependent manner (BPAF LC50 = 0.014 µM (rASCs) and 0.009 µM (hASCs); TMBPF LC50 = 0.88 µM (rASCs) and 0.06 µM (hASCs); lethal concentration with 50% survival). The rank order of potency was BPAF>TMBPF>BPA>BPS. The majority of cell death was due to apoptosis as indicated by high levels of activated caspase-6 in the cytoplasm of almost 100% of cells treated with the BPA analogs. This data allows for further confirmation of caspase-6-mediated apoptosis using higher magnification imaging that definitively demonstrate the cytotoxic and apoptotic effects of these BPA analogs. For a complete description, interpretation, and discussion of the data refer to the article in press [1].

An alternate methodology for studying diffusion and elution kinetics of dimethacrylate monomers through dentinal tubules.

OBJECTIVE: Ethoxylated bisphenol A dimethacrylate (bisEMA) is a base monomer in several dental resin composites. It was the main aim of the present study to determine if bisEMA can reach the dental pulp by generally passive diffusion through the coronal dentinal tubules stimulated via eluent liquids surrounding the root structures only. METHODS: In 20 human third molar teeth, standard Class-I occlusal cavities were prepared and provided either with an adhesive system alone or additionally with a composite restoration, according to the instructions of the manufacturer. The teeth were placed in an elution chamber such that the elution media only came into contact with the tooth root/tooth base where they were incubated at 37 °C for up to 7 d. Samples were taken after 1, 2, 4 and 7 d. Gas chromatography/mass spectrometry was used to identify bisEMA and other monomers in ethanol/water (3:1) and aqueous eluates. RESULTS: bisEMA was only found in ethanol/water eluates, where the teeth had received a composite restoration. Traces of bisEMA with up to three ethylene oxide units could be detected in these eluates. Depending on the dentin thickness, different elution kinetics of bisEMA were determined. Regardless of the treatment of teeth, triethylene glycol dimethacrylate (TEGDMA) and tetraethylene glycol dimethacrylate (TEEGDMA) were found in ethanolic/aqueous eluates in equal amounts. Most TEGDMA and TEEGDMA diffused through the dentin within the first 24 h. SIGNIFICANCE: Depending on the dentin layer thickness, bisEMA was released for varied time periods, resulting in varied concentrations and exposure times for the different cells of the dental pulp. The concentrations of TEGDMA and TEEGDMA were greatest for cells of the dental pulp within the first 24 h.