Simulating Nanomaterial Transformation in Cascaded Biological Compartments to Enhance the Physiological Relevance of In Vitro Dosing Regimes: Optional or Required?

Llewellyn, Samantha; Kämpfer, Angela; Keller, Johannes G.; Vilsmeier, Klaus; Büttner, Veronika; Seleci, Didem Ag; F., Roel P.; Doak, shareen; Wohlleben, Wendel

doi:10.1002/smll.202004630

Journal article 1255 views 510 downloads

Simulating Nanomaterial Transformation in Cascaded Biological Compartments to Enhance the Physiological Relevance of In Vitro Dosing Regimes: Optional or Required?

Samantha Llewellyn, Angela Kämpfer, Johannes G. Keller, Klaus Vilsmeier, Veronika Büttner, Didem Ag Seleci, Roel P. F. Schins, shareen Doak, Wendel Wohlleben

Small, Volume: 17, Issue: 15, Start page: 2004630

Swansea University Authors: Samantha Llewellyn, shareen Doak

PDF | Accepted Manuscript
Download (596.19KB)
PDF | Supplemental material
Download (750.34KB)

Check full text

DOI (Published version): 10.1002/smll.202004630

Published in:	Small
ISSN:	1613-6810 1613-6829
Published:	Wiley 2021
Online Access:	Check full text
URI:	https://cronfa.swan.ac.uk/Record/cronfa56095

Keywords:	engineered nanomaterial pre‐treatment; gastro‐intestinal digestion; in vitro hazard assessment; nanomaterials; physico‐chemical characterisation
College:	Faculty of Medicine, Health and Life Sciences
Funders:	European Commission H2020
Issue:	15
Start Page:	2004630

Simulating Nanomaterial Transformation in Cascaded Biological Compartments to Enhance the Physiological Relevance of In Vitro Dosing Regimes: Optional or Required?

Similar Items