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9. Arsenic speciation in food in Belgium Part 1: Fish, molluscs and crustaceans

Author

Ruttens, A., Blanpain, A.C., De Temmerman, L., and Waegeneers, N.

Abstract

A series of 350 food products, belonging to various food groups and bought on the Belgian market, were analysed for total As and 5 different As species, i.e. the inorganic species AsIII and AsV, monomethyl arsonic acid (MA), dimethyl arsinic acid (DMA), and arsenobetaine (AB). This paper reports the results obtained for the food group ‘fish’, containing 98 samples of fish, molluscs and crustaceans from seawater as well as freshwater origin. In all samples AB was the dominant As species detected. DMA, MA, AsIII and AsV were found in lower concentrations in some of the organisms under investigation. Mussel, shrimp and scampi were the only marine organisms in which inorganic arsenic was present in quantifiable amounts, with concentrations generally in the range 0.005–0.022 mg/kg whole weight (W.W). These results are in agreement with several other literature data that also report very low concentrations of inorganic arsenic in these organisms, but they contradict some other studies reporting much higher values. Our study therefore confirms the existing inconsistency among different studies regarding inorganic arsenic concentrations in seafood. The main reason for the observed differences remains unclear.

Published
2012

13. Soil-radionuclides interaction and subsequent impact on the contamination of plant food products based on a simulated accidental source

Author

Bréchignac, F., Thiry, Y., Waegeneers, N., Vallejo, R., Sauras, T., Casadesus, J., Shaw, G., Marchant, J., Forsberg, S., Madoz-Escande, C., Colle, C., Gonze, M.A., Fernandez, J.M. (ed.), and Fichez, Renaud (ed.)

Subjects
INDICATEUR BIOLOGIQUE, CHIMIE DU SOL, SOL, CESIUM, EAU DU SOL, ETUDE D'IMPACT, ISOTOPE RADIOACTIF, RACINE, PRATIQUE CULTURALE, CONTAMINATION, PLANTE CULTIVEE, STRONTIUM, CATASTROPHE INDUSTRIELLE, RADIOELEMENT, SIMULATION, POLLUTION CHIMIQUE, RELATION SOL PLANTE, PHYSIQUE DU SOL, RADIOACTIVITE
Published
2002

15. Contaminants in organically and conventionally produced winter wheat (Triticum aestivum) in Belgium

Author

UCL - AGRO/BAPA - Département de biologie appliquée et des productions agricoles, Harcz, P., De Temmerman, L., De Voghel, S., Waegeneers, N., Wilmart, O., Vromman, V., Schmit, J.-F., Moons, E., Van Peteghem, Carlos, De Saeger, S., Schneider, Yves-Jacques, Larondelle, Yvan, Pussemier, L., UCL - AGRO/BAPA - Département de biologie appliquée et des productions agricoles, Harcz, P., De Temmerman, L., De Voghel, S., Waegeneers, N., Wilmart, O., Vromman, V., Schmit, J.-F., Moons, E., Van Peteghem, Carlos, De Saeger, S., Schneider, Yves-Jacques, Larondelle, Yvan, and Pussemier, L.

Abstract

A database has been compiled with the levels of important contaminants (mycotoxins, heavy metals and pesticides) measured from 2002 to 2005 in winter wheat (Triticum aestivum) grown in Belgium according to the organic and conventional farming systems. Assuming no further change in contaminant levels during cereal processing and during the preparation of foodstuffs, conservative intakes are estimated for the consumers of cereal-based products such as flour, bread, breakfast cereals, dough and pastry. The results show that for the consumer of organic foodstuffs, estimated daily intakes are 0.56 mu g cleoxynivalenol (DON), 0.03 mu g zearalenone (ZEA), 0.19 mu g Cd, 0.28 mu g Pb and 0.0006 mu g Hg kg(-1) body weight, taking into account the average contaminant levels in unprocessed grains and the average cereal products consumptions in Belgium. For the consumers of conventional foodstuffs, the corresponding estimated daily intakes are 0.99 mu g DON, 0.06 mu g ZEA, 0.17 mu g Cd, 0. 12 mu g Pb and 0.0007 mu g Hg kg(-1) body weight. In addition, it appears that for the consumers of conventional products, intakes of some post-harvest insecticides have to be taken into account (0. 11 mu g chlorpyriphos-methyl, 0.2 mu g clichlorvos and 0.24 mu g pirimiphos-methyl kg(-1) bw). When expressed as a percentage of the tolerable/acceptable daily intake (TDI/ADI), it seems that the corresponding estimated (conservative) intakes are the highest for DON (56% for organic and 99% for conventional cereal products), ZEA (16% for organic and 32% for conventional cereal products), and Cd (19% for organic and 17% for conventional cereal products), all other estimated intakes of contaminants (including pesticides) being lower than 10% of the TDI/ADI.

Published
2007

20. Contaminants in organically and conventionally produced winter wheat (Triticum aestivum) in Belgium

Author

Harcz, P., primary, De Temmerman, L., additional, De Voghel, S., additional, Waegeneers, N., additional, Wilmart, O., additional, Vromman, V., additional, Schmit, J.-F., additional, Moons, E., additional, Van Peteghem, C., additional, De Saeger, S., additional, Schneider, Y.-J., additional, Larondelle, Y., additional, and Pussemier, L., additional

Published
2007
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23. The European maximum level for cadmium in bovine kidneys is in Belgium only realistic for cattle up to 2 years of age.

Author

Waegeneers, N., Pizzolon, J.-C., Hoenig, M., and De Temmerman, L.

Subjects
*MEAT contamination, *TRACE elements, *CADMIUM, *ANIMAL products, *MEAT industry
Abstract

The effect of animal age on concentrations of cadmium, lead, arsenic, copper and zinc in bovine tissues (meat, kidney and liver) sampled from animals reared in contaminated areas or reference regions in Belgium was investigated. For cadmium concentrations in meat samples analysis of variance (ANOVA) showed an increasing trend with age. In addition, a significant positive linear relation (p < 0.05) was found between animal age and renal (R2 = 0.56) or hepatic (R2 = 0.39) cadmium levels. Lead concentrations in kidneys and liver also increased with age, but the effect was blurred, likely due to the internal remobilization of lead. For the other trace elements (arsenic, copper, zinc) no relationship could be found between their concentration in meat, kidneys or liver and animal age. Renal cadmium concentrations were predicted for bovines at different ages by using the slope of the linear regression equation, and by taking into account its 95% confidence interval. Calculations for 2-year-old animals from reference areas showed that in this group the European maximum level of 1 mg kg-1 for cadmium in kidneys would be exceeded in zero to 5% of cases. If a general rejection percentage of maximum 5% would be desirable for kidneys sampled in the reference areas (according to the ALARA principle-'as low as reasonably achievable'-of European Union policy), then (1) kidneys from animals older than 2 years from the reference areas should a priori not be considered suitable to be placed on the market, or (2) the maximum level for cadmium in kidneys should be increased to 3 mg kg-1. The latter would bear negligible risks for the general population and the majority of high-level kidney consumers. On the other hand, bovine kidneys from the most contaminated areas are not suitable to be brought into the food chain because it is predicted that the maximum level is already exceeded by more than 5% of the 1-year-old animals. [ABSTRACT FROM AUTHOR]

Published
2009
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25. Bioaccumulation of organic and inorganic contaminants in biota: A long-term evaluation in the Belgian part of the North Sea.

Author

Vanavermaete D, De Witte B, Hostens K, Ruttens A, Waegeneers N, Cheyns K, Leus J, and De Baets B

Subjects
Animals, North Sea, Geologic Sediments chemistry, Crangonidae metabolism, Belgium, Metals metabolism, Metals analysis, Brachyura metabolism, Water Pollutants, Chemical analysis, Water Pollutants, Chemical metabolism, Polycyclic Aromatic Hydrocarbons analysis, Polycyclic Aromatic Hydrocarbons metabolism, Environmental Monitoring, Polychlorinated Biphenyls analysis, Polychlorinated Biphenyls metabolism, Bioaccumulation, Biota
Abstract

Determining the extent of pollution in the marine environment remains challenging. Polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), and metals can, during dredging operations, be transported from a port or harbour into the open sea, where they may exert a harmful effect on the marine ecosystem. To fully understand the impact of these chemicals, monitoring programs should not only focus on sediment concentrations, but should also take into account the bioaccumulated concentration in the tissue of multiple target organisms. In this study, the concentration of primary contaminants is determined in common starfish (Asterias rubens), flying crab (Liocarcinus holsatus), and brown shrimp (Crangon crangon) and the difference in the concentration of contamination between different dredge disposal sites at open sea is investigated. Different factors such as lipid weight, dry weight, grain size, and total organic carbon were measured and used to understand the difference between the observed bioaccumulation and the measured sediment concentrations. KEY MESSAGE: Different contaminants are detected in biota such as common starfish, flying crab and brown shrimp. These contaminants can be linked to dredging activities, with disposal sites associated with industrial ports showing higher contamination., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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26. Per- and polyfluoroalkyl substances in food and beverages: determination by LC-HRMS and occurrence in products from the Belgian market.

Author

Van Leeuw V, Malysheva SV, Fosseprez G, Murphy A, El Amraoui Aarab C, Andjelkovic M, Waegeneers N, Van Hoeck E, and Joly L

Subjects
Belgium, Chromatography, Liquid, Mass Spectrometry, Alkanesulfonic Acids analysis, Environmental Monitoring methods, Fluorocarbons analysis, Food Contamination analysis, Beverages analysis, Solid Phase Extraction, Environmental Pollutants analysis
Abstract

Per- and polyfluoroalkyl substances (PFAS) are industrial chemicals encompassing thousands of compounds. Due to their persistent, bioaccumulative and toxic character, PFAS have become environmental contaminants, and exposure to these chemicals may lead to adverse health effects. This study aimed to provide a sensitive analytical method for the quantification of 25 PFAS in food including food for the young population and beverages, and to gather the missing occurrence data for the dietary exposure evaluation for the Belgian population. More than a decade ago, such assessment was performed only for PFOS and PFOA and is currently outdated. For the determination of PFAS in foodstuffs, an extraction based on a "quick, easy, cheap, effective, rugged, and safe" (QuEChERS) protocol and combined with a two-step purification using solid-phase extraction (SPE) was optimised. The quantitative analysis was performed by liquid chromatography high-resolution mass spectrometry (LC-HRMS). The method was validated, and the achieved limits of quantification (LOQs) ranged from 0.002 to 0.3 μg/kg, with the exception of HFPO-DA (1 μg/kg). The LC-HRMS analysis of 268 food products from the Belgian market demonstrated that 43% of samples contained at least one PFAS with a maximum of eleven PFAS measured in a stew of wild pork. PFOS was the most detected compound found in 19% of samples, followed by PFBA (18%) and PFOA (15%), while PFTeDA, PFPeS, PFHpS, PFDS, PFUnDS, PFDoDS, PFTrDS, Minor F53B and HFPO-DA were not detected. The concentrations of the different PFAS in commercial food varied from

Published
2024
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27. Safety assessment of the substances 'wax, rice bran, oxidised' and 'wax, rice bran, oxidised, calcium salt' for use in food contact materials.

Author

Lambré C, Crebelli R, da Silva M, Grob K, Lampi E, Milana MR, Pronk M, Ščetar M, Theodoridis G, Van Hoeck E, Waegeneers N, Bolognesi C, Cariou R, Castle L, Di Consiglio E, Franz R, Barthélémy E, Comandella D, and Rivière G

Abstract

The EFSA Panel on Food Contact Materials (FCM) assessed the safety of the substances 'wax, rice bran, oxidised' and 'wax, rice bran, oxidised, calcium salt', used as additives up to 0.3% in polyethylene terephthalate (PET), polyamide (PA), thermoplastic polyurethane (TPU), polylactic acid (PLA) and poly(vinyl chloride) (PVC) in contact with all food types for long-term storage at room temperature and below, after hot-fill and/or heating. The substances consist of the chemical classes wax esters, carboxylic acids, alcohols and calcium salts of acids, along with an unidentified organic fraction up to ■■■■■ w/w. Migration into 10% ethanol and 4% acetic acid was below 0.012 mg/kg for each chemical class, and about 0.001 mg/kg for the unidentified fraction. In isooctane, migration was up to 0.297 mg/kg food for wax esters, below 0.01 mg/kg food for the other chemical classes and about 0.02 mg/kg food for the unidentified fraction. The contact with dry food and food simulated by 20% ethanol were considered covered by the migration tests with aqueous simulants. Based on genotoxicity assays and compositional analyses, the constituents of the chemical classes did not raise a concern for genotoxicity. The potential migration of individual constituents or groups of chemically-related compounds of the unidentified fraction would result in exposures below (for aqueous food) and above (for fatty food) the threshold of toxicological concern for genotoxic carcinogens. Therefore, the FCM Panel concluded that the substances are not of safety concern for the consumer, if used as additives up to 0.3% w/w in PET, PLA and rigid PVC materials and articles intended for contact with all food types except for fatty foods, for long-term storage at room temperature and below, including hot-fill and/or heating up to 100°C for up to 2 h., Competing Interests: If you wish to access the declaration of interests of any expert contributing to an EFSA scientific assessment, please contact interestmanagement@efsa.europa.eu., (© 2024 European Food Safety Authority. EFSA Journal published by Wiley‐VCH GmbH on behalf of European Food Safety Authority.)

Published
2024
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28. Application of silver-based biocides in face masks intended for general use requires regulatory control.

Author

Mast J, Van Miert E, Siciliani L, Cheyns K, Blaude MN, Wouters C, Waegeneers N, Bernsen R, Vleminckx C, Van Loco J, and Verleysen E

Subjects
Humans, Silver, Masks, SARS-CoV-2, Disinfectants, COVID-19 prevention & control, Metal Nanoparticles
Abstract

Silver-based biocides are applied in face masks because of their antimicrobial properties. The added value of biocidal silver treatment of face masks to control SARS-CoV-2 infection needs to be balanced against possible toxicity due to inhalation exposure. Direct measurement of silver (particle) release to estimate exposure is problematic. Therefore, this study optimized methodologies to characterize silver-based biocides directly in the face masks, by measuring their total silver content using ICP-MS and ICP-OES based methods, and by visualizing the type(s) and localization of silver-based biocides using electron microscopy based methods. Thirteen of 20 selected masks intended for general use contained detectable amounts of silver ranging from 3 μg to 235 mg. Four of these masks contained silver nanoparticles, of which one mask was silver coated. Comparison of the silver content with limit values derived from existing inhalation exposure limits for both silver ions and silver nanoparticles allowed to differentiate safe face masks from face masks that require a more extensive safety assessment. These findings urge for in depth characterization of the applications of silver-based biocides and for the implementation of regulatory standards, quality control and product development based on the safe-by-design principle for nanotechnology applications in face masks in general., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2023
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29. The contribution of cacao consumption to the bioaccessible dietary cadmium exposure in the Belgian population.

Author

Vanderschueren R, Doevenspeck J, Goethals L, Andjelkovic M, Waegeneers N, and Smolders E

Subjects
Humans, Cadmium toxicity, Cadmium analysis, Belgium, Flour, Triticum, Cacao
Abstract

Since 2019, EU limits apply to cadmium (Cd) concentrations in cacao-derived food products. The dietary risk assessment leading to that regulation used consumption surveys aggregated to a limited number of chocolate product categories and did not consider differences in Cd bioaccessibility. Here, the cacao-related dietary Cd exposure in the Belgian population was estimated with higher resolution and accounting for bioaccessibility. A food frequency questionnaire and a 24-h recall (N = 2055) were set up for the Belgian population, in combination with ICP-MS analysis of a large subset of cacao-containing products (N = 349). Both the average chocolate consumption (28 g day -1 ) and the relative contribution of chocolate to the total dietary Cd exposure (7-9%) were higher than previously estimated for the Belgian population, probably because of some selection bias towards chocolate consumers in the cohort. The Cd bioaccessibility in chocolate products was a factor 5 (cacao powder) and 2 (dark chocolate) lower compared to wheat flour, suggesting lower bioavailability in chocolate than in wheat, which is a main contributor to dietary Cd. This study suggests that Cd intake from cacao consumption has been underestimated because of hidden cacao in non-chocolate food categories but, in contrast, may have overestimated the true exposure because of lower bioavailability compared to the main foodstuffs contributing to Cd exposure., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published
2023
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30. Selenium in selected samples of infant formulas and milk commercialized in Belgium and Brazil: Total content, speciation and estimated intake.

Author

de Paiva EL, Ruttens A, Waegeneers N, Laing GD, Morgano MA, Cheyns K, and Arisseto-Bragotto AP

Subjects
Humans, Infant, Animals, Infant Formula analysis, Brazil, Belgium, Milk chemistry, Selenomethionine analysis, Selenium analysis
Abstract

Total selenium (Se) and Se species concentrations were determined in 50 infant formulas and milk samples commercialized in Brazil and Belgium. Infant formula categories were starter, follow-up, specialized and plant-based (soy and rice), while milk samples included whole, skimmed, semi-skimmed and plant-based products. Total Se content was determined by Inductively Coupled Plasma Mass Spectrometry (ICP-MS), after microwave digestion. An enzymatic extraction method was applied to evaluate the Se species, mostly selenomethionine (SeMet), Se(IV) and Se(VI), through High Performance Liquid Chromatography coupled to ICP-MS (LC-ICP-MS). Starters and follow-up samples presented the highest total Se concentrations and values up to 30 µg/kg were observed in the reconstituted product. The lowest level (below the LOQ = 10 µg/kg) was verified in an anti-regurgitation specialized formula. The relative agreement between the measured total Se and the Se content declared on the label varied from 55 % to 317 %. Concentrations in infant formulas were not markedly different from concentrations in milk except for rice and oat milk samples that showed values below the LOQ. SeMet was the main species found in milks, while in infant formulas the species concentrations varied according to the product. The daily intake (DI) of Se via infant formula consumption was calculated and compared with the Adequate Intake (AI) value and the Dietary Reference Intake (DRI) established by the EFSA NDA Panel and ANVISA, respectively. Estimated maximum intakes of total Se obtained for reconstituted infant formula were 40.6 mg/day, corresponding to 400 % and 202 % of the DRI and AI, respectively., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2023
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31. Short- and long-term assessment of PAH, PCB, and metal contamination in the Belgian part of the North Sea.

Author

Vanavermaete D, Hostens K, Le HM, Lessuise A, Ruttens A, Waegeneers N, and De Witte B

Subjects
Geologic Sediments, Environmental Monitoring methods, Ecosystem, North Sea, Belgium, Metals, Polychlorinated Biphenyls analysis, Water Pollutants, Chemical analysis, Polycyclic Aromatic Hydrocarbons analysis
Abstract

Dredging activities can result in the relocation of contaminants such as polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), and metals from shipping channels, harbours, and ports into the marine environment where these components may exert a negative effect on the marine ecosystem. In this work, contamination associated with dredging is evaluated at and around dredged spoil disposal sites in the Belgian part of the North Sea, taking into account spatial as well as temporal variation. A homogeneous dispersion of the different contaminants was observed at the different sites. However, the contamination pattern was different for disposal sites that were linked with commercial ports, resulting in significantly higher PAH and PCB concentrations. When comparing concentrations with environmental assessment criteria, contamination of PAHs does not exceed these criteria in the Belgian Part of the North Sea, and for PCBs, only CB118 reveals a concerningly high concentration that exceeds the environmental assessment criteria. This is in contrast with metals where the contamination of As, Cr, Ni, and Zn exceeded the environmental limit values both at dredged spoil disposal sites and reference locations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published
2023
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32. Titanium dioxide particles frequently present in face masks intended for general use require regulatory control.

Author

Verleysen E, Ledecq M, Siciliani L, Cheyns K, Vleminckx C, Blaude MN, De Vos S, Brassinne F, Van Steen F, Nkenda R, Machiels R, Waegeneers N, Van Loco J, and Mast J

Subjects
COVID-19 prevention & control, COVID-19 virology, Humans, Inhalation Exposure analysis, Metal Nanoparticles chemistry, Microscopy, Electron, Transmission, Particle Size, SARS-CoV-2 isolation & purification, Social Control, Formal, Textiles analysis, Masks, Spectrophotometry, Atomic, Titanium analysis
Abstract

Although titanium dioxide (TiO 2 ) is a suspected human carcinogen when inhaled, fiber-grade TiO 2 (nano)particles were demonstrated in synthetic textile fibers of face masks intended for the general public. STEM-EDX analysis on sections of a variety of single use and reusable face masks visualized agglomerated near-spherical TiO 2 particles in non-woven fabrics, polyester, polyamide and bi-component fibers. Median sizes of constituent particles ranged from 89 to 184 nm, implying an important fraction of nano-sized particles (< 100 nm). The total TiO 2 mass determined by ICP-OES ranged from 791 to 152,345 µg per mask. The estimated TiO 2 mass at the fiber surface ranged from 17 to 4394 µg, and systematically exceeded the acceptable exposure level to TiO 2 by inhalation (3.6 µg), determined based on a scenario where face masks are worn intensively. No assumptions were made about the likelihood of the release of TiO 2 particles itself, since direct measurement of release and inhalation uptake when face masks are worn could not be assessed. The importance of wearing face masks against COVID-19 is unquestionable. Even so, these results urge for in depth research of (nano)technology applications in textiles to avoid possible future consequences caused by a poorly regulated use and to implement regulatory standards phasing out or limiting the amount of TiO 2 particles, following the safe-by-design principle., (© 2022. The Author(s).)

Published
2022
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33. Intake of food supplements based on algae or cyanobacteria may pose a health risk due to elevated concentrations of arsenic species.

Author

Cheyns K, Demaegdt H, Waegeneers N, and Ruttens A

Subjects
Animals, Female, Humans, Mice, Arsenic analysis, Cyanobacteria chemistry, Dietary Supplements analysis, Food Analysis, Food Contamination analysis, Phaeophyceae chemistry
Abstract

Despite the health benefits of food supplements (FS) based on algae or cyanobacteria, the elevated arsenic (As) concentrations in these FS may raise a health concern. In the present study 33 FS containing algae or cyanobacteria were collected and As (species) were analysed to estimate consumer exposure. Based on hazard and exposure data, potential risks were evaluated using inorganic arsenic (As i ) and the potentially toxic As fraction (As tot minus arsenobetaine (AB)). As tot concentrations were in the range 0.053-57 mg/kg with highest concentrations in FS containing brown algae. As i concentrations were in the range <0.02-4.7 mg kg -1 . A large part of As in FS containing algae or cyanobacteria was identified as potentially toxic AsSugars species. Negligible amounts of AB were detected. According to a tentative risk evaluation, the intake of As i related to all FS collected was of no health concern for the general population. In 8 out of 33 of the analysed FS, however, the As i concentration was of concern for population groups with increased cancer risks. If all As species except the non-toxic AB were taken into consideration, only 26 out of 33 of the FS showed 'no concern' for the general population, while for the other 7 FS a potential health risk was identified. This study indicates the need to obtain more data on toxicity of AsSugars and to develop limits for As (species) in FS.

Published
2021
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34. Particle size analysis of pristine food-grade titanium dioxide and E 171 in confectionery products: Interlaboratory testing of a single-particle inductively coupled plasma mass spectrometry screening method and confirmation with transmission electron microscopy.

Author

Geiss O, Bianchi I, Senaldi C, Bucher G, Verleysen E, Waegeneers N, Brassinne F, Mast J, Loeschner K, Vidmar J, Aureli F, Cubadda F, Raggi A, Iacoponi F, Peters R, Undas A, Müller A, Meinhardt AK, Walz E, Gräf V, and Barrero-Moreno J

Abstract

Titanium dioxide is a white colourant authorised as food additive E 171 in the EU, where it is used in a range of alimentary products. As these materials may contain a fraction of particulates with sizes below 100 nm and current EU regulation requires specific labelling of food ingredient to indicate the presence of engineered nanomaterials there is now a need for standardised and validated methods to appropriately size and quantify (nano)particles in food matrices. A single-particle inductively coupled plasma mass spectrometry (spICP-MS) screening method for the determination of the size distribution and concentration of titanium dioxide particles in sugar-coated confectionery and pristine food-grade titanium dioxide was developed. Special emphasis was placed on the sample preparation procedure, crucial to reproducibly disperse the particles before analysis. The transferability of this method was tested in an interlaboratory comparison study among seven experienced European food control and food research laboratories equipped with various ICP-MS instruments and using different software packages. The assessed measurands included the particle mean diameter, the most frequent diameter, the percentage of particles (in number) with a diameter below 100 nm, the particles' number concentration and a number of cumulative particle size distribution parameters (D0, D10, D50, D99.5, D99.8 and D100). The evaluated method's performance characteristics were, the within-laboratory precision, expressed as the relative repeatability standard deviation (RSDr), and the between-laboratory precision, expressed as the relative reproducibility standard deviation (RSDR). Transmission electron microscopy (TEM) was used as a confirmatory technique and served as the basis for bias estimation. The optimisation of the sample preparation step showed that when this protocol was applied to the relatively simple sample food matrices used in this study, bath sonication turned out to be sufficient to reach the highest, achievable degree of dispersed constituent particles. For the pristine material, probe sonication was required. Repeatability and reproducibility were below 10% and 25% respectively for most measurands except for the lower (D0) and the upper (D100) bound of the particle size distribution and the particle number concentration. The broader distribution of the lower and the upper bounds could be attributed to instrument-specific settings/setups (e.g. the timing parameters, the transport efficiency, type of mass-spectrometer) and software-specific data treatment algorithms. Differences in the upper bound were identified as being due to the non-harmonised application of the upper counting limit. Reporting D99.5 or D99.8 instead of the effectively largest particle diameter (D100) excluded isolated large particles and considerably improved the reproducibility. The particle number-concentration was found to be influenced by small differences in the sample preparation procedure. The comparison of these results with those obtained using electron microscopy showed that the mean and median particle diameter was, in all cases, higher when using spICP-MS. The main reason for this was the higher size detection limit for spICP-MS plus the fact that some of the analysed particles remained agglomerated/aggregated after sonication. Single particle ICP-MS is a powerful screening technique, which in many cases provides sufficient evidence to confirm the need to label a food product as containing (engineered) titanium dioxide nanomaterial according to the current EU regulatory requirements. The overall positive outcome of the method performance evaluation and the current lack of alternative standardised procedures, would indicate this method as being a promising candidate for a full validation study., (© 2020 The Authors.)

Published
2021
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35. Does arsenic pose a health concern after consumption of clay products?

Author

Demaegdt H, Waegeneers N, Cheyns K, and Ruttens A

Subjects
Arsenic metabolism, Belgium, Humans, Risk Assessment, Arsenic administration & dosage, Arsenic analysis, Clay chemistry, Food Analysis, Food Contamination analysis
Abstract

Clay products for oral use form a particular group of food supplements in relation to potential arsenic (As) toxicity, because - certainly in case of pure clay- all arsenic in these supplements is expected to be present in the most toxic inorganic form (As i ). In terms of risk, the most important questions to answer relate to the bioaccessibility and bioavailability of the inorganic arsenic present, rather than to the As species distribution, which often receives most attention in standard foodstuffs. In the present study, clay products for oral use were bought on the Belgian market and analysed for total arsenic (As tot ), arsenic species (As i , arsenobetaine, dimethylarsenate and monomethylarsenate)) and bioaccessible arsenic, in order to perform an exposure assessment and risk characterisation. Total As concentrations differed considerably between the samples and ranged from 0.20 to 6.4 mg As tot /kg. Bioaccessibility of As i , determined via the Unified Barge Method (extraction making use of digestive enzymes) varied between 8% and 51%. The As i concentration determined via HPLC-ICP-MS after extraction with diluted HNO 3 +   H 2 O 2 (as in the CEN method for foodstuffs) was only a poor predictor of the bioaccessible As i fraction, despite the significant relationship (R 2  = 0.36; p < .05). The risk characterisation did not reveal acute risks related to As i exposure. However, a potential concern with regard to chronic As i intake was identified for the general population in 42% of the analysed food supplements, and for sensitive population groups in 67% of the samples, even after taking into account the bioaccessible fraction. The data presented illustrate that consumption of some of these clay products may contribute significantly to dietary As i intake and that these should not be taken chronically.

Published
2021
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36. Physico-chemical characterisation of the fraction of silver (nano)particles in pristine food additive E174 and in E174-containing confectionery.

Author

De Vos S, Waegeneers N, Verleysen E, Smeets K, and Mast J

Subjects
Acetone chemistry, Candy, Mass Spectrometry, Microscopy, Electron, Transmission, Particle Size, Povidone chemistry, Risk Assessment, Sodium Chloride chemistry, Food Additives chemistry, Metal Nanoparticles chemistry, Silver chemistry
Abstract

Silver (E174) is authorised as a food additive in the EU. The unknown particle size distribution of E174 is a specific concern for the E174 risk assessment. This study characterised the fraction of silver (nano)particles in 10 commercially available pristine E174 food additives and 10 E174-containing products by transmission electron microscopy (TEM) and single-particle inductively coupled plasma-mass spectrometry (spICP-MS). TEM analysis showed that all samples contained micrometre-sized flakes and also a fraction of (nano)particles. Energy-dispersive X-ray spectroscopy (EDX) and electron diffraction confirmed that the (nano)particles and micrometre-sized flakes consisted of silver. A higher amount of (nano)particles was observed in the products than in the food additives. In addition, the surface of the micrometre-sized flakes was rougher in products. The median of the minimum external dimension, assessed as minimal Feret diameter, of the fraction of (nano)particles determined by quantitative TEM analysis was 11 ± 4 nm and 18 ± 7 nm (overall mean ± standard deviation), for food additives and products, respectively. Similar size distributions were obtained by spICP-MS and TEM, considering the limit of detection of spICP-MS. The median of the equivalent spherical diameter of the fraction of (nano)particles determined by spICP-MS was 19 ± 4 nm and 21 ± 2 nm (overall mean ± standard deviation), for food additives and products, respectively. In all samples, independent of the choice of technique, the nano-sized particles represented more than 97% (by number) of the silver particles, even though the largest mass of silver was present as flakes.

Published
2020
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37. Physicochemical Characterization of the Pristine E171 Food Additive by Standardized and Validated Methods.

Author

Verleysen E, Waegeneers N, Brassinne F, De Vos S, Jimenez IO, Mathioudaki S, and Mast J

Abstract

E171 (titanium dioxide) is a food additive that has been authorized for use as a food colorant in the European Union. The application of E171 in food has become an issue of debate, since there are indications that it may alter the intestinal barrier. This work applied standardized and validated methodologies to characterize representative samples of 15 pristine E171 materials based on transmission electron microscopy (TEM) and single-particle inductively coupled plasma mass spectrometry (spICP-MS). The evaluation of selected sample preparation protocols allowed identifying and optimizing the critical factors that determine the measurement of the particle size distribution by TEM. By combining optimized sample preparation with method validation, a significant variation in the particle size and shape distributions, the crystallographic structure (rutile versus anatase), and the physicochemical form (pearlescent pigments versus anatase and rutile E171) was demonstrated among the representative samples. These results are important for risk assessment of the E171 food additive and can contribute to the implementation of the European Food Safety Authority (EFSA) guidance on risk assessment of the application of nanoscience and nanotechnologies in the food and feed chain.

Published
2020
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38. Variability of iodine concentrations in the human placenta.

Author

Neven KY, Marien CBD, Janssen BG, Roels HA, Waegeneers N, Nawrot TS, and Ruttens A

Subjects
Adult, Female, Humans, Infant, Newborn, Male, Pregnancy, Tissue Distribution, Fetal Development, Iodine pharmacokinetics, Placenta metabolism
Abstract

Iodine is an essential trace element, necessary for the production of thyroid hormones, which play a key role in optimal foetal growth and (neuro-) development. To date, iodine deficiency remains a health burden in many countries. We investigated the variability of placental iodine concentrations within and between individuals. We used 20 mother-neonate pairs from the ENVIRONAGE birth cohort, took samples at three standardized locations of the placentas, pooled and digested them, and determined the iodine concentrations using an ICP-MS method as an alternative for the Sandell-Kolthoff method. The variability between and within the three sample regions was calculated using the intra-class correlation coefficient (ICC) from the variance components of mixed models. With the Friedman test, the differences between placental biopsies were assessed. The ICC showed a higher between-placenta (68.6%) than within-placenta (31.4%) variability. Subsequently, we used our optimized method to determine iodine concentrations in 498 mother-neonate pairs, which averaged 26.1 μg/kg. For 96 mothers, the urinary iodine concentrations were also determined, which showed no correlation with the placental iodine storage, as was expected. Future studies are necessary to explore the effects of these placental iodine concentrations in relation to health outcomes of mother and child at birth and later in life.

Published
2020
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39. Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery.

Author

Waegeneers N, De Vos S, Verleysen E, Ruttens A, and Mast J

Abstract

E174 (silver) is a food additive that may contain silver nanoparticles (AgNP). Validated methods are needed to size and quantify these particles in a regulatory context. However, no validations have yet been performed with food additives or real samples containing food additives requiring a sample preparation step prior to analysis. A single-particle inductively coupled plasma mass spectrometry (spICP-MS) method was developed and validated for sizing and quantifying the fraction of AgNP in E174 and in products containing E174, and associated uncertainties related to sample preparation, analysis and data interpretation were unraveled. The expanded measurement uncertainty for AgNP sizing was calculated to be 16% in E174-containing food products and increased up to 23% in E174 itself. The E174 food additives showed a large silver background concentration combined with a relatively low number of nanoparticles, making data interpretation more challenging than in the products. The standard uncertainties related to sample preparation, analysis, and challenging data interpretation were respectively 4.7%, 6.5%, and 6.0% for triplicate performances. For a single replicate sample, the uncertainty related to sample preparation increased to 6.8%. The expanded measurement uncertainty related to the concentration determination was 25-45% in these complex samples, without a clear distinction between additives and products. Overall, the validation parameters obtained for spICP-MS seem to be fit for the purpose of characterizing AgNP in E174 or E174-containing products.

Published
2019
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40. A systematic evaluation of Flow Field Flow Fractionation and single-particle ICP-MS to obtain the size distribution of organo-mineral iron oxyhydroxide colloids.

Author

Moens C, Waegeneers N, Fritzsche A, Nobels P, and Smolders E

Subjects
Chemistry Techniques, Analytical standards, Colloids chemistry, Dynamic Light Scattering, Iron Compounds analysis, Iron Compounds chemistry, Minerals chemistry, Nanoparticles analysis, Particle Size, Soil chemistry, Spectrum Analysis, Chemistry Techniques, Analytical methods, Colloids analysis, Ferric Compounds analysis, Fractionation, Field Flow, Minerals analysis, Tandem Mass Spectrometry
Abstract

Colloidal iron(III) oxyhydroxides (FeOx) are important reactive adsorbents in nature. This study was set up to determine the size of environmentally relevant FeOx colloids with new methods, i.e. Flow Field Flow Fractionation (FlFFF-UV-ICP-MS) and single-particle ICP-MS/MS (sp-ICP-MS) and to compare these with standard approaches, i.e. dynamic light scattering (DLS), nanoparticle tracking analysis (NTA), microscopy (TEM), membrane filtration, centrifugation and dialysis. Seven synthetic nano- and submicron FeOx with different mineralogy and coating were prepared and two soil solutions were included. The FlFFF was optimized for Fe recovery, yielding 70-90%. The FlFFF determines particle size with high resolution in a 1 mM NH 4 HCO 3 (pH 8.3) background and can detect Fe-NOM complexes <5 nm and organo-mineral FeOx particles ranging 5-300 nm. The sp-ICP-MS method had a size detection limit for FeOx of about 32-47 nm. The distribution of hydrodynamic diameters of goethite particles detected with FlFFF, NTA and DLS were similar but the values were twice as large as the Fe cores of particles detected with sp-ICP-MS and TEM. Conventional fractionation by centrifugation and dialysis generally yielded similar fractions as FlFFF but membrane filtration overestimated the large size fractions. Particles formed from Fe(II) oxidation in the presence of NOM showed strikingly smaller organo-mineral Fe-Ox colloids as the NOM/Fe ratio increased. The soil solution obtained with centrifugation of an acid peat was dominated by small (<30 nm) Fe-OM complexes and organo-mineral FeOx colloids whereas that of a mineral pH neutral soil mainly contains larger (30-200 nm) Fe-rich particles. The FlFFF-UV-ICP-MS is recommended for environmental studies of colloidal FeOx since it has a wide size detection range, it fractionates in an environmentally relevant background (1 mM NH 4 HCO 3 ) and it has acceptable element recoveries., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published
2019
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41. Short-term biodistribution and clearance of intravenously administered silica nanoparticles.

Author

Waegeneers N, Brasseur A, Van Doren E, Van der Heyden S, Serreyn PJ, Pussemier L, Mast J, Schneider YJ, Ruttens A, and Roels S

Abstract

Recently, concerns have been raised about potential adverse effects of synthetic amorphous silica, commonly used as food additive (E551), since silica nanoparticles have been detected in food containing E551. We examined the biodistribution and excretion in female Sprague-Dawley rats of NM-200, a well characterized nanostructured silica representative for food applications. A single intravenous injection of NM-200 was applied at a dose of 20 mg/kg bw , followed by autopsy after 6 and 24 h. The main organs where silicon accumulated were liver and spleen. The silicon concentration significantly decreased in spleen between 6 and 24 h. In liver the tendency was the same but the effect was not significant. This could be due to clearance of the spleen to the liver via the splenic vein, while liver clearance takes more time due to hepatic processing and biliary excretion. In treated animals the liver showed in addition a prominent increase of macrophages between both evaluation moments. Within the first 24 h, silicon was mainly excreted through urine. Further studies are necessary to evaluate the toxicokinetics of different types of silica nanomaterials at lower exposure doses in order to be able to predict kinetics and toxicity of silica nanoparticles depending on their physicochemical characteristics.

Published
2018
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42. Arsenic Release from Foodstuffs upon Food Preparation.

Author

Cheyns K, Waegeneers N, Van de Wiele T, and Ruttens A

Subjects
Animals, Cooking, Fishes, Arsenic chemistry, Food Contamination analysis, Oryza chemistry, Seafood analysis, Vegetables chemistry
Abstract

In this study the concentration of total arsenic (As) and arsenic species (inorganic As, arsenobetaine, dimethylarsinate, and methylarsonate) was monitored in different foodstuffs (rice, vegetables, algae, fish, crustacean, molluscs) before and after preparation using common kitchen practices. By measuring the water content of the foodstuff and by reporting arsenic concentrations on a dry weight base, we were able to distinguish between As release effects due to food preparation and As decrease due to changes in moisture content upon food preparation. Arsenic species were released to the broth during boiling, steaming, frying, or soaking of the food. Concentrations declined with maxima of 57% for total arsenic, 65% for inorganic As, and 32% for arsenobetaine. On the basis of a combination of our own results and literature data, we conclude that the extent of this release of arsenic species is species specific, with inorganic arsenic species being released most easily, followed by the small organic As species and the large organic As species.

Published
2017
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43. Polyphosphates and Fulvates Enhance Environmental Stability of PO 4 -Bearing Colloidal Iron Oxyhydroxides.

Author

Bollyn J, Nijsen M, Baken S, Joye I, Waegeneers N, Cornelis G, and Smolders E

Subjects
Adsorption, Colloids chemistry, Iron Compounds chemistry, Minerals chemistry, Nanoparticles chemistry, Ferric Compounds chemistry, Polyphosphates chemistry
Abstract

Iron oxyhydroxide nanoparticles (Fe-NPs) are natural vectors of phosphate (PO 4 ) in the environment. Their mobility is determined by colloidal stability, which is affected by surface composition. This might be manipulated in engineered NPs for environmental or agricultural applications. Here, the stability of PO 4 -Fe-NPs (HFO/goethite) was determined across contrasting environmental conditions (pH, Ca concentration) and by using fulvates (FA) and polyphosphates (poly-P's) as coatings. The PO 4 -Fe-NPs are unstable at Ca concentrations above 0.1 mM. Addition of FA and some poly-P's significantly improved stability. Zeta potential explained colloidal stability across treatments; surface charge was calculated with surface complexation models and explained for phytic acid (PA) and hexametaphosphate (HMP) by a partial (1-4 of the 6 PO 4 units) adsorption to the surface, while the remaining PO 4 units stayed in solution. This study suggests that Ca concentration mainly affects the mobility of natural or engineered PO 4 -Fe-NPs and that HMP is a promising agent for increasing colloidal stability.

Published
2016
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44. Chemical analyses of dredged spoil disposal sites at the Belgian part of the North Sea.

Author

De Witte B, Ruttens A, Ampe B, Waegeneers N, Gauquie J, Devriese L, Cooreman K, and Parmentier K

Subjects
Belgium, North Sea, Environmental Monitoring, Geologic Sediments analysis, Metals, Heavy analysis
Abstract

The chemical status of five dredged spoil disposal sites in the Belgian Part of the North Sea is evaluated. A linear mixed-effect model was applied to PCB, PAH and heavy metal data from 2005 to 2014. No decrease in PCB concentrations was found, with even an increase at two disposal sites. Hg/AL ratios increased with 62% at one disposal site (BR&WS2) from 2005 to 2006 to 2013-2014. Cu and Zn concentrations increased at two disposal sites. Additional harbour sampling suggests that the latter is possibly linked to antifouling paints. Based on OSPAR environmental assessment criteria, the current chemical status of the sites suggests no chronic effect of dredged spoil disposal. However, increasing time trend data for PCB, Hg, Cu and Zn demonstrate the importance of monitoring to identify adverse trends., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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45. Selenium content of Belgian cultivated soils and its uptake by field crops and vegetables.

Author

De Temmerman L, Waegeneers N, Thiry C, Du Laing G, Tack F, and Ruttens A

Subjects
Analysis of Variance, Belgium, Mass Spectrometry, Crops, Agricultural metabolism, Environmental Monitoring statistics & numerical data, Selenium analysis, Selenium pharmacokinetics, Soil chemistry
Abstract

A series of 695 food crops were collected on 539 soils throughout Belgium. All samples were collected on commercial production fields, omitting private gardens. All crops were analyzed for their selenium (Se) concentration. The soils represent different soil types occurring in Belgium, with soil textures ranging from sand to silt loam, and including a few clay soils. They were analyzed for Se concentration, organic carbon content, cation exchange capacity and extractable sulphur (S) concentration. The Se concentrations in the soils were low (range 0.14-0.70 mg kg(-1) dw), but increasing soil Se concentrations were observed with increasing clay content. Stepwise multiple regressions were applied to determine relations between Se concentrations in crops and soil characteristics. Among field crops, wheat is the most important accumulator of selenium but the concentration remains rather low on the Belgian low Se-soils. Based on dry weight, leafy vegetables contain more Se than wheat. The soil is the most important source of Se and the element is transported with the water stream to the leaves, where it is accumulated. Vegetables rich in S, e.g. some Brassica and Allium species, have a higher capacity to accumulate Se as it can replace S in the proteins, although this accumulation is still limited at low soil Se concentrations. In loamy soils, weak correlations were found between the soil Se concentration and its concentration in wheat and potato. The uptake of Se increased with increasing pH. The Se concentrations in Belgian soils are far too low to generate a driving force on Se uptake. General climatic conditions such as temperature, air humidity and soil moisture are also important for the transfer of Se within the plant, and plant linked factors such as cultivar, growth stage and edible part are important as well, although their influence remains limited at low soil Se concentrations., (© 2013.)

Published
2014
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46. Predicted dietary intake of selenium by the general adult population in Belgium.

Author

Waegeneers N, Thiry C, De Temmerman L, and Ruttens A

Subjects
Adolescent, Adult, Aged, Belgium, Eating, Female, Food Analysis, Humans, Male, Middle Aged, Nutritional Requirements, Nutritional Status, Selenium analysis, Surveys and Questionnaires, Young Adult, Diet, Selenium administration & dosage
Abstract

The total selenium content of about 800 food products purchased in Belgium was determined and combined with food records to determine the nutritional selenium status of Belgian people. The largest selenium concentrations (>1 mg kg(-1)) were found in Brazil nuts and offal, of which the consumption is limited. Usually consumed food groups with the highest selenium concentrations were fish and shellfish (0.2-0.9 mg kg(-1)), eggs, poultry meat, cheese, mushrooms and pasta (approximately 0.2 mg kg(-1)). The mean dietary selenium intake was calculated to be 60 µg day(-1), which is at the lower end but within the range recommended by the Superior Health Council in Belgium (60-70 µg day(-1)), and adequate according to the 55 µg day(-1) recommended by the Scientific Committee on Food (SCF) of the European Commission. The major sources of selenium intake are meat and meat products (31%), fish and shellfish (20%), pasta and rice (12%), and bread and breakfast cereals (11%).

Published
2013
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47. Impact of atmospheric deposition of As, Cd and Pb on their concentration in carrot and celeriac.

Author

De Temmerman L, Ruttens A, and Waegeneers N

Subjects
Air Pollutants analysis, Arsenic analysis, Arsenic metabolism, Atmosphere chemistry, Cadmium analysis, Cadmium metabolism, Environmental Monitoring, Lead analysis, Lead metabolism, Soil Pollutants analysis, Air Pollutants metabolism, Apium metabolism, Daucus carota metabolism, Soil Pollutants metabolism
Abstract

Root crops, carrot and celeriac, were exposed to atmospheric deposition in a polluted versus reference area. An effect was observed on the As, Cd and Pb concentrations of the leaves and the storage organs. The concentrations in the whole storage organs correlated well with atmospheric deposition, which shows that they even could be used for biomonitoring. Nevertheless, leaves remain much more appropriate. The results revealed also a significant increase of the As and Cd concentration in the consumable part of the storage organs as a function of their atmospheric deposition. As such the experiments allowed deriving regression equations, useful for modeling the atmospheric impact of trace elements on the edible parts of root crops. For Pb, however, there was hardly any significant impact on the inner parts of the storage organs and as such the transfer of Pb in the food chain through root crops can be considered to be negligible., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2012
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48. A dynamic model to calculate cadmium concentrations in bovine tissues from basic soil characteristics.

Author

Waegeneers N, Ruttens A, and De Temmerman L

Subjects
Animal Feed analysis, Animals, Cadmium analysis, Cattle, Environmental Exposure analysis, Models, Chemical, Soil Pollutants analysis, Water Pollutants, Chemical analysis, Water Supply analysis, Cadmium metabolism, Environmental Exposure statistics & numerical data, Models, Biological, Soil chemistry, Soil Pollutants metabolism, Water Pollutants, Chemical metabolism
Abstract

A chain model was developed to calculate the flow of cadmium from soil, drinking water and feed towards bovine tissues. The data used for model development were tissue Cd concentrations of 57 bovines and Cd concentrations in soil, feed and drinking water, sampled at the farms were the bovines were reared. Validation of the model occurred with a second set of measured tissue Cd concentrations of 93 bovines of which age and farm location were known. The exposure part of the chain model consists of two parts: (1) a soil-plant transfer model, deriving cadmium concentrations in feed from basic soil characteristics (pH and organic matter content) and soil Cd concentrations, and (2) bovine intake calculations, based on typical feed and water consumption patterns for cattle and Cd concentrations in feed and drinking water. The output of the exposure model is an animal-specific average daily Cd intake, which is then taken forward to a kinetic uptake model in which time-dependent Cd concentrations in bovine tissues are calculated. The chain model was able to account for 65%, 42% and 32% of the variation in observed kidney, liver and meat Cd concentrations in the validation study., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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49. Trace elements in home-produced eggs in Belgium: levels and spatiotemporal distribution.

Author

Waegeneers N, Hoenig M, Goeyens L, and De Temmerman L

Subjects
Animals, Arsenic analysis, Belgium, Chickens, Female, Humans, Seasons, Soil, Spectrophotometry, Atomic, Eggs, Environmental Pollutants analysis, Food Contamination analysis, Metals, Heavy analysis
Abstract

The purpose of this study was to evaluate the levels of arsenic, cadmium, lead, copper and zinc in home-produced eggs, soils and kitchen waste samples of private chicken owners in Belgium, and to determine spatiotemporal differences in trace element contents in eggs. Eggs were sampled in all provinces of Belgium in autumn 2006 and spring 2007. A total number of 59 private chicken owners participated in the study. Trace elements were determined by inductively coupled plasma-mass spectrometry except for mercury, which was determined by atomic absorption of mercury vapour. The mean fresh weight concentrations in eggs in autumn and spring respectively were <8.0 and <8.0 microg/kg for arsenic, 0.5 and <0.5 microg/kg for cadmium, 116 and 74 microg/kg for lead, 0.43 and 0.52 mg/kg for copper, 20.3 and 19.2 mg/kg for zinc, and 3.15 and 4.44 microg/kg for mercury. Analysis of variance determined significant differences in some trace element concentrations in eggs among seasons and regions in Belgium. Average concentrations of arsenic, cadmium and mercury corresponded well with values measured in other countries, while copper and zinc concentrations were within the same order of magnitude as in other countries. Average lead concentrations were high compared to concentrations in eggs from other countries and correlated well with lead concentrations in soil, indicating that the soil is an important source. Other sources of trace elements in eggs might be home-grown vegetables and forage (grass and herbs), and indirectly, air pollution.

Published
2009
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50. Transfer of soil contaminants to home-produced eggs and preventive measures to reduce contamination.

Author

Waegeneers N, De Steur H, De Temmerman L, Van Steenwinkel S, Gellynck X, and Viaene J

Subjects
Animals, Belgium, Chickens, Dioxins analysis, Female, Food Contamination analysis, Humans, Lead analysis, Perception, Risk Assessment, Seasons, Eggs, Food Contamination prevention & control, Soil Pollutants analysis
Abstract

Uptake studies have shown that chickens foraging on soils contaminated with environmental pollutants accumulate these compounds into their eggs. Home-produced eggs thereby show higher contamination levels than commercially produced eggs. It was the aim of this study to identify the major source of two environmental pollutants in home-produced eggs, i.e. dioxins and lead, to formulate preventive measures to reduce the contamination levels of such eggs, and to assess the feasibility of the formulated measures in terms of the perception and behavior of private egg producers towards such measures. The major source of dioxins and lead in eggs, i.e. the soil, was identified by transfer calculations of the pollutants from the feed and soil towards eggs. Preventive measures to reduce soil intake or geophagy and hence egg contamination levels, were formulated and their feasibility evaluated through interviews with private chicken owners. The results show that a paved surface inside the henhouse, an indoor feeding place and providing a sufficient surface area per chicken were considered the most appropriate in terms of feasibility and willingness to apply the measures by the private chicken owners. To enhance the effect of the measures, a combination of measures supported and promoted at policy level is considered as a good strategy to reduce contamination levels in home-produced eggs.

Published
2009
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