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Aim: With the rise in production of nanoparticles (NPs) for an ever-increasing number of applications, there is an urgent need to efficiently assess their potential toxicity. We propose a NP hazard assessment protocol that combines mammalian cytotoxicity data with embryonic vertebrate abnormality scoring to determine an overall toxicity index. Results: We observed that, after exposure to a range of NPs, Xenopus phenotypic scoring showed a strong correlation with cell based in vitro assays. Magnetite-cored NPs, negative for toxicity in vitro and Xenopus, were further confirmed as nontoxic in mice. Conclusion: The results highlight the potential of Xenopus embryo analysis as a fast screening approach for toxicity assessment of NPs, which could be introduced for the routine testing of nanomaterials.

An early developmental vertebrate model for nanomaterial safety: bridging cell-based and mammalian toxicity assessment / C. Webster, D. Di Silvio, A. Devarajan, P. Bigini, E. Micotti, C. Giudice, M. Salmona, G. Wheeler, V. Sherwood, F. Bombelli. - In: NANOMEDICINE. - ISSN 1743-5889. - 11:6(2016 Mar), pp. 643-656.

An early developmental vertebrate model for nanomaterial safety: bridging cell-based and mammalian toxicity assessment

C. Giudice;
2016

Abstract

Aim: With the rise in production of nanoparticles (NPs) for an ever-increasing number of applications, there is an urgent need to efficiently assess their potential toxicity. We propose a NP hazard assessment protocol that combines mammalian cytotoxicity data with embryonic vertebrate abnormality scoring to determine an overall toxicity index. Results: We observed that, after exposure to a range of NPs, Xenopus phenotypic scoring showed a strong correlation with cell based in vitro assays. Magnetite-cored NPs, negative for toxicity in vitro and Xenopus, were further confirmed as nontoxic in mice. Conclusion: The results highlight the potential of Xenopus embryo analysis as a fast screening approach for toxicity assessment of NPs, which could be introduced for the routine testing of nanomaterials.
English
cytotoxicity; in vitro-in vivo correlations; nanomaterials; nanomedicine; nanotoxicity; Xenopus laevis
Settore VET/03 - Patologia Generale e Anatomia Patologica Veterinaria
Articolo
Esperti anonimi
Pubblicazione scientifica
mar-2016
NANOMEDICINE
Future Medicine
11
6
643
656
14
Pubblicato
Periodico con rilevanza internazionale
WOS:000372880200007
2-s2.0-84962090341
27003295
Aderisco
info:eu-repo/semantics/article
An early developmental vertebrate model for nanomaterial safety: bridging cell-based and mammalian toxicity assessment / C. Webster, D. Di Silvio, A. Devarajan, P. Bigini, E. Micotti, C. Giudice, M. Salmona, G. Wheeler, V. Sherwood, F. Bombelli. - In: NANOMEDICINE. - ISSN 1743-5889. - 11:6(2016 Mar), pp. 643-656.
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Prodotti della ricerca::01 - Articolo su periodico
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262
Article (author)
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C. Webster, D. Di Silvio, A. Devarajan, P. Bigini, E. Micotti, C. Giudice, M. Salmona, G. Wheeler, V. Sherwood, F. Bombelli
01 - Articolo su periodico
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/515051
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