期刊
ACS NANO
卷 4, 期 11, 页码 6903-6913出版社
AMER CHEMICAL SOC
DOI: 10.1021/nn102272n
关键词
nanosilver; antimicrobial activity; biological partitioning; drug delivery; controlled release
类别
资金
- EPA STAR [R833862]
- National Institute of Environmental Health Sciences [P42ES013660]
- EPA
- NIEHS
- EPA [R833862, 150232] Funding Source: Federal RePORTER
Major pathways in the antibacterial activity and eukaryotic toxicity of nanosilver involve the silver cation and its soluble complexes, which are well established thiol toxicants Through these pathways, nanosilver behaves in analogy to a drug delivery system, in which the particle contains a concentrated inventory of an active species, the ion which is transported to and released near biological target sites Although the importance of silver ion in the biological response to nanosilver is widely recognized, the drug delivery paradigm has not been well developed for this system, and there is significant potential to improve nanosilver technologies through controlled release formulations This article applies elements of the drug delivery paradigm to nanosilver dissolution and presents a systematic study of chemical concepts for controlled release After presenting thermodynamic clculations of silver species partitioning in biological media, the rates of oxidative silver dissolution are measured for nanoparticles and macroscopic folls and used to derive unified are, based release kinetics A variety of competing chemical approaches are demonstrated for controlling the ion release rate over 4 orders of magnitude Release can be systematically slowed by thiol and citrate ligand binding , formation of sulfidic coatings, or the scavenging of peroxy intermediates Release can be accelerated by preoxidation or particle size reduction, while polymer coatings with complexation sites alter the release profile by storing and releasing inventories of surface bound silver Finally, the ability to tune biological activity is demonstrated through a bacterial inhibition zone assay carried out on selected formulations of controlled release nanosilver
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