Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery

Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery

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 p...

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Main Authors: Nadia Waegeneers, Sandra De Vos, Eveline Verleysen, Ann Ruttens, Jan Mast
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Materials
Subjects:
single particle ICP-MS
silver nanoparticles
validation
complex matrices
measurement uncertainty
Online Access:https://www.mdpi.com/1996-1944/12/17/2677
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spelling doaj-bebb3e22abb347419a15f8a680a8f22b2020-11-24T21:48:59ZengMDPI AGMaterials1996-19442019-08-011217267710.3390/ma12172677ma12172677Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in ConfectioneryNadia Waegeneers0Sandra De Vos1Eveline Verleysen2Ann Ruttens3Jan Mast4Service Trace Elements and Nanomaterials, Sciensano, Leuvensesteenweg 17, 3080 Tervuren, BelgiumService Trace Elements and Nanomaterials, Sciensano, Groeselenberg 99, 1180 Brussels, BelgiumService Trace Elements and Nanomaterials, Sciensano, Groeselenberg 99, 1180 Brussels, BelgiumService Trace Elements and Nanomaterials, Sciensano, Leuvensesteenweg 17, 3080 Tervuren, BelgiumService Trace Elements and Nanomaterials, Sciensano, Leuvensesteenweg 17, 3080 Tervuren, BelgiumE174 (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.https://www.mdpi.com/1996-1944/12/17/2677single particle ICP-MSsilver nanoparticlesvalidationcomplex matricesmeasurement uncertainty
collection DOAJ
language English
format Article
sources DOAJ
author Nadia Waegeneers
Sandra De Vos
Eveline Verleysen
Ann Ruttens
Jan Mast
spellingShingle Nadia Waegeneers
Sandra De Vos
Eveline Verleysen
Ann Ruttens
Jan Mast
Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
Materials
single particle ICP-MS
silver nanoparticles
validation
complex matrices
measurement uncertainty
author_facet Nadia Waegeneers
Sandra De Vos
Eveline Verleysen
Ann Ruttens
Jan Mast
author_sort Nadia Waegeneers
title Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
title_short Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
title_full Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
title_fullStr Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
title_full_unstemmed Estimation of the Uncertainties Related to the Measurement of the Size and Quantities of Individual Silver Nanoparticles in Confectionery
title_sort estimation of the uncertainties related to the measurement of the size and quantities of individual silver nanoparticles in confectionery
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2019-08-01
description 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.
topic single particle ICP-MS
silver nanoparticles
validation
complex matrices
measurement uncertainty
url https://www.mdpi.com/1996-1944/12/17/2677
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AT evelineverleysen estimationoftheuncertaintiesrelatedtothemeasurementofthesizeandquantitiesofindividualsilvernanoparticlesinconfectionery
AT annruttens estimationoftheuncertaintiesrelatedtothemeasurementofthesizeandquantitiesofindividualsilvernanoparticlesinconfectionery
AT janmast estimationoftheuncertaintiesrelatedtothemeasurementofthesizeandquantitiesofindividualsilvernanoparticlesinconfectionery
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