Publication details

Innovative reference materials for method validation in microplastic analysis including interlaboratory comparison exercises

Authors

MARTINEZ-FRANCES Elena VAN BAVEL Bert HURLEY Rachel NIZZETTO Luca PAKHOMOVA Svetlana BUENAVENTURA Nina T. SINGDAHL-LARSEN Cecilie MAGNI Marie-Louise Tambo JOHANSEN Jon Eigill LUSHER Amy

Year of publication 2023
Type Article in Periodical
Magazine / Source Analytical and Bioanalytical chemistry
MU Faculty or unit

Faculty of Science

Citation
Web https://link.springer.com/article/10.1007/s00216-023-04636-4
Doi http://dx.doi.org/10.1007/s00216-023-04636-4
Keywords Microplastic reference material; Comparability; Comparison; Interlaboratory comparison study; Soda tablets; Soda capsules
Description Reference materials (RMs) are vital tools in the validation of methods used to detect environmental pollutants. Microplastics, a relatively new environmental pollutant, require a variety of complex approaches to address their presence in environmental samples. Both interlaboratory comparison (ILC) studies and RMs are essential to support the validation of methods used in microplastic analysis. Presented here are results of quality assurance and quality control (QA/QC) performed on two types of candidate microplastic RMs: dissolvable gelatin capsules and soda tablets. These RMs have been used to support numerous international ILC studies in recent years (2019-2022). Dissolvable capsules containing polyethylene terephthalate (PET), polyvinyl chloride (PVC), polyethylene (PE), and polystyrene (PS), in different size fractions from 50 to 1000 mu m, were produced for one ILC study, obtaining relative standard deviation (RSD) from 0 to 24%. The larger size fraction allowed for manual addition of particles to the capsules, yielding 0% error and 100% recovery during QA/QC. Dissolvable capsules were replaced by soda tablets in subsequent ILC studies and recovery test exercises because they were found to be a more reliable carrier for microplastic RMs. Batches of soda tablets were produced containing different single and multiple polymer mixtures, i.e., PE, PET, PS, PVC, polypropylene (PP), and polycarbonate (PC), with RSD ranging from 8 to 21%. Lastly, soda tablets consisting of a mixture of PE, PVC, and PS (125-355 mu m) were produced and used for recovery testing during pretreatment of environmental samples. These had an RSD of 9%. Results showed that soda tablets and capsules containing microplastics >50 mu m could be produced with sufficient precision for internal recovery tests and external ILC studies. Further work is required to optimize this method for smaller microplastics (< 50 mu m) because variation was found to be too large during QA/QC. Nevertheless, this approach represents a valuable solution addressing many of the challenges associated with validating microplastic analytical methods.

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