Nanoparticles-A Thoracic Toxicology Perspective.
10.3349/ymj.2007.48.4.561
- Author:
Rodger DUFFIN
1
;
Nicholas L MILLS
;
Ken DONALDSON
Author Information
1. MRC/University of Edinburgh Centre for Inflammation Research, ELEGI Colt Laboratory, Queen's Medical Research Institute, 47 Little France Crescent, Edinburgh, EH16 4TJ, Scotland, UK. rodger.duffin@ed.ac.uk
- Publication Type:Review
- Keywords:
Nanoparticles;
nanotubes;
particulate matter;
inflammation;
cardiovascular;
endothelium;
atherothrombosis
- MeSH:
Air Pollutants/*toxicity;
Carcinogens, Environmental/*toxicity;
Cardiovascular Diseases/etiology;
Endothelium/drug effects;
Humans;
Lung/*drug effects;
Nanoparticles/*toxicity;
Nanotubes, Carbon/toxicity;
Particle Size;
Quantitative Structure-Activity Relationship
- From:Yonsei Medical Journal
2007;48(4):561-572
- CountryRepublic of Korea
- Language:English
-
Abstract:
A substantial literature demonstrates that the main ultrafine particles found in ambient urban air are combustion-derived nanoparticles (CDNP) which originate from a number of sources and pose a hazard to the lungs. For CDNP, three properties appear important-surface area, organics and metals. All of these can generate free radicals and so induce oxidative stress and inflammation. Inflammation is a process involved in the diseases exhibited by the individuals susceptible to the effects of PM- development and exacerbations of airways disease and cardiovascular disease. It is therefore possible to implicate CDNP in the common adverse effects of increased PM. The adverse effects of increases in PM on the cardiovascular system are well-documented in the epidemiological literature and, as argued above, these effects are likely to be driven by the combustion-derived NP. The epidemiological findings can be explained in a number of hypotheses regarding the action of NP:-1) Inflammation in the lungs caused by NP causes atheromatous plaque development and destabilization; 2) The inflammation in the lungs causes alteration in the clotting status or fibrinolytic balance favouring thrombogenesis; 3) The NP themselves or metals/organics released by the particles enter the circulation and have direct effects on the endothelium, plaques, the clotting system or the autonomic nervous system/ heart rhythm. Environmental nanoparticles are accidentally produced but they provide a toxicological model for a new class of purposely 'engineered' NP arising from the nanotechnology industry, whose effects are much less understood. Bridging our toxicological knowledge between the environmental nanoparticles and the new engineered nanoparticles is a considerable challenge.
