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Predictive value of in vitro assays depends on the mechanism of toxicity of metal oxide nanoparticles
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نویسنده
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cho w.-s. ,duffin r. ,bradley m. ,megson i.l. ,macnee w. ,lee j.k. ,jeong j. ,donaldson k.
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منبع
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particle and fibre toxicology - 2013 - دوره : 10 - شماره : 1
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چکیده
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Background: hazard identification for risk assessment of nanoparticles (nps) is mainly composed of in vitro cell-based assays and in vivo animal experimentation. the rapidly increasing number and functionalizations of nps makes in vivo toxicity tests undesirable on both ethical and financial grounds,creating an urgent need for development of in vitro cell-based assays that accurately predict in vivo toxicity and facilitate safe nanotechnology.methods: in this study,we used 9 different nps (ceo2,tio2,carbon black,sio2,nio,co3o4,cr2o3,cuo,and zno). as an in vivo toxicity endpoint,the acute lung inflammogenicity in a rat instillation model was compared with the in vitro toxicity endpoints comprising cytotoxicity,pro-inflammatory cytokine expression,or haemolytic potential. for in vitro assays,8 different cell-based assays were used including epithelial cells,monocytic/macrophage cells,human erythrocytes,and combined culture.results: zno and cuo nps acting via soluble toxic ions showed positive results in most of assays and were consistent with the lung inflammation data. when compared in in vitro assays at the same surface area dose (30 cm2/ml),nps that were low solubility and therefore acting via surface reactivity had no convincing activity,except for ceo2 np. cytotoxicity in differentiated peripheral blood mononuclear cells was the most accurate showing 89% accuracy and 11% false negativity in predicting acute lung inflammogenicity. however,the haemolysis assay showed 100% consistency with the lung inflammation if any dose,having statistical significance was considered positivity. other cell-based in vitro assays showed a poorer correlation with in vivo inflammogenicity.conclusions: based on the toxicity mechanisms of nps,two different approaches can be applied for prediction of in vivo lung inflammogenicity. most in vitro assays were good at detecting nps that act via soluble ions (i.e.,zno and cuo np). however,in vitro assays were limited in detecting nps acting via surface reactivity as their mechanism of toxicity,except for the haemolysis assay. © 2013 cho et al.; licensee biomed central ltd.
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کلیدواژه
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In vitro; In vivo; Inflammation; Mechanism; Nanoparticles; Prediction; Toxicity
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آدرس
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elegi/colt laboratory,centre for inflammation research,university of edinburgh,47 little france crescent,edinburgh eh16 4tj,united kingdom,department of medicinal biotechnology,college of natural resources and life science,dong-a university,busan 604-714, South Korea, elegi/colt laboratory,centre for inflammation research,university of edinburgh,47 little france crescent,edinburgh eh16 4tj, United Kingdom, school of chemistry,university of edinburgh,west mains road,edinburgh, United Kingdom, free radical research facility,department of diabetes and cardiovascular science,university of the highlands and islands,centre for health science,inverness, United Kingdom, elegi/colt laboratory,centre for inflammation research,university of edinburgh,47 little france crescent,edinburgh eh16 4tj, United Kingdom, department of toxicological research,national institute of food and drug safety evaluation,ministry of food and drug safety,osong 363-700, South Korea, department of toxicological research,national institute of food and drug safety evaluation,ministry of food and drug safety,osong 363-700, South Korea, elegi/colt laboratory,centre for inflammation research,university of edinburgh,47 little france crescent,edinburgh eh16 4tj, United Kingdom
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