Theoretical framework for nanoparticle uptake and accumulation kinetics in dividing cell populations

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Show simple item record Åberg, Christoffer Kim, Jong Ah Salvati, Anna Dawson, Kenneth A. 2013-09-12T09:04:32Z 2013-09-12T09:04:32Z EPLA, 2013 en 2013-02
dc.identifier.citation EPL : Europhysics Letters en
dc.description.abstract Nano-sized objects interact with biological systems in fundamentally novel ways, thereby holding great promise for targeted drug delivery. It has also been suggested they could constitute a hitherto unseen hazard. Numerous experimental studies in the field are taking place. We consider that the nature of the interactions allows a more fundamental theoretical framework to be developed. In particular, we describe the intimate link that develops between nanoparticle uptake and cell population evolution. Explicit analytical results are given and the theory compared to experimental observations. en
dc.language.iso en en
dc.publisher IOP Science en
dc.subject Molecule-cell interactions
dc.subject Targeted drug delivery
dc.subject Cell population evolution
dc.subject Nanoparticle-cell interactions
dc.title Theoretical framework for nanoparticle uptake and accumulation kinetics in dividing cell populations en
dc.type Journal Article en
dc.internal.availability Full text available en
dc.status Peer reviewed en
dc.identifier.volume 101 en
dc.identifier.issue 3 en
dc.identifier.startpage 38007 en
dc.identifier.doi 10.1209/0295-5075/101/38007
dc.neeo.contributor Åberg|Christoffer|aut|
dc.neeo.contributor Kim|Jong Ah|aut|
dc.neeo.contributor Salvati|Anna|aut|
dc.neeo.contributor Dawson|Kenneth A.|aut|
dc.description.admin Author has checked copyright en
dc.description.admin TS 11.09.13 en
dc.internal.rmsid 332553154 2013-08-21T12:06:58Z

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