Vikram Kestens scite author profile

Whereas the dramatic environmental impact of plastic waste rightfully receives considerable attention by scientists, policy makers and public in general, the human health impact of microand nanoplastics contamination of our food and beverages remains largely unknown. Indeed, most studies aim at understanding the environmental impact rather than the human health impact of a possible exposure to micro-and nanoplastics. In addition, these papers generally lack a methodological, standardised approach. Furthermore, some studies focus on the damage to and contamination level of animal species collected from the wild environment, and others investigate the rate and biology of microplastic uptake of animals fed with microplastics in laboratory. This review aims at understanding human exposure. Since there is, with few exceptions, no evidence available on the presence of micro-and nanoplastics in a normal diet, this study takes an indirect approach and analyses peer-reviewed publications since 2010 that document the presence of micro-and nanoplastics in those animals (more than 200 species) and food products that are part of the human food chain and that may thus contribute directly or indirectly to the uptake of micro-and nanoplastics via the human diet. It also addresses the question of the definitions, the methodologies and the quality criteria applied to obtain the reported results. This review suggests that, beyond a few estimations and comparisons, precise data to assess the exact exposure of humans to micro-and nanoplastics through their diet cannot be produced until standardised methods and definitions are available.

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Validation of a particle tracking analysis method for the size determination of nano- and microparticles

Kestens

Bozatzidis

Temmerman

et al. 2017

J Nanopart Res

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Particle tracking analysis (PTA) is an emerging technique suitable for size analysis of particles with external dimensions in the nano- and sub-micrometre scale range. Only limited attempts have so far been made to investigate and quantify the performance of the PTA method for particle size analysis. This article presents the results of a validation study during which selected colloidal silica and polystyrene latex reference materials with particle sizes in the range of 20 nm to 200 nm were analysed with NS500 and LM10-HSBF NanoSight instruments and video analysis software NTA 2.3 and NTA 3.0. Key performance characteristics such as working range, linearity, limit of detection, limit of quantification, sensitivity, robustness, precision and trueness were examined according to recommendations proposed by EURACHEM. A model for measurement uncertainty estimation following the principles described in ISO/IEC Guide 98-3 was used for quantifying random and systematic variations. For nominal 50 nm and 100 nm polystyrene and a nominal 80 nm silica reference materials, the relative expanded measurement uncertainties for the three measurands of interest, being the mode, median and arithmetic mean of the number-weighted particle size distribution, varied from about 10% to 12%. For the nominal 50 nm polystyrene material, the relative expanded uncertainty of the arithmetic mean of the particle size distributions increased up to 18% which was due to the presence of agglomerates. Data analysis was performed with software NTA 2.3 and NTA 3.0. The latter showed to be superior in terms of sensitivity and resolution.Electronic supplementary materialThe online version of this article (doi:10.1007/s11051-017-3966-8) contains supplementary material, which is available to authorized users.

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Interlaboratory comparison of size and surface charge measurements on nanoparticles prior to biological impact assessment

et al. 2011

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Validation of dynamic light scattering and centrifugal liquid sedimentation methods for nanoparticle characterisation

Adelina

Olivier

Franks

et al. 2011

Advanced Powder Technology

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Vikram Kestens

Review of micro- and nanoplastic contamination in the food chain

Validation of a particle tracking analysis method for the size determination of nano- and microparticles

Interlaboratory comparison of size and surface charge measurements on nanoparticles prior to biological impact assessment

Validation of dynamic light scattering and centrifugal liquid sedimentation methods for nanoparticle characterisation

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