用于健康风险评估的工程纳米材料的安全性评价:使用原始和功能化碳纳米管的实验性分层测试方法。

ISRN Toxicology Pub Date : 2013-04-17 Print Date: 2013-01-01 DOI:10.1155/2013/825427
Teresa Coccini, Luigi Manzo, Elisa Roda
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引用次数: 33

摘要

工程纳米材料在职业、环境和消费者环境中的越来越多应用,提高了公众对可能对人类健康产生不利影响的关注程度。我们采用了分层测试策略,包括(i)首先在体外阶段研究一般毒性终点,然后(ii)集中在体内实验。通过MTT测定和钙黄蛋白/碘化丙啶(PI)染色,对实验室制备的功能化多壁碳纳米管(即MW-COOH和MW-NH2)在人A549肺细胞中的细胞毒性进行了评估,并与原始MWCNTs、炭黑和二氧化硅进行了比较。测试了纳米材料的纯度和理化性质。随后,在给予MWCNTs (1 mg/kg b.w.) 16天后,对大鼠进行肺毒性作用评估,研究肺组织病理学并监测肺毒性、炎症和纤维化的几种标志物。体外数据:钙黄素/PI测试显示,所有CNTs处理后均未出现细胞活力丧失;MTT试验显示假阳性细胞毒性反应,在极低的碳纳米管浓度(1 μ g/mL)下不发生剂量依赖性。体内实验结果显示,无论纳米管功能化与否,普遍的肺毒性与炎症反应相结合,没有明显的纤维化和肉芽肿形成迹象。这种多层次的方法有助于阐明碳纳米管的毒性机制,提高对碳纳米管暴露可能导致的不良后果的总体理解。
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Safety evaluation of engineered nanomaterials for health risk assessment: an experimental tiered testing approach using pristine and functionalized carbon nanotubes.

Increasing application of engineered nanomaterials within occupational, environmental, and consumer settings has raised the levels of public concern regarding possible adverse effects on human health. We applied a tiered testing strategy including (i) a first in vitro stage to investigate general toxicity endpoints, followed by (ii) a focused in vivo experiment. Cytotoxicity of laboratory-made functionalized multiwalled carbon nanotubes (CNTs) (i.e., MW-COOH and MW-NH2), compared to pristine MWCNTs, carbon black, and silica, has been assessed in human A549 pneumocytes by MTT assay and calcein/propidium iodide (PI) staining. Purity and physicochemical properties of the test nanomaterials were also determined. Subsequently, pulmonary toxic effects were assessed in rats, 16 days after MWCNTs i.t. administration (1 mg/kg b.w.), investigating lung histopathology and monitoring several markers of lung toxicity, inflammation, and fibrosis. In vitro data: calcein/PI test indicated no cell viability loss after all CNTs treatment; MTT assay showed false positive cytotoxic response, occurring not dose dependently at exceedingly low CNT concentrations (1  μ g/mL). In vivo results demonstrated a general pulmonary toxicity coupled with inflammatory response, without overt signs of fibrosis and granuloma formation, irrespective of nanotube functionalization. This multitiered approach contributed to clarifying the CNT toxicity mechanisms improving the overall understanding of the possible adverse outcomes resulting from CNT exposure.

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