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Publication
Hazard assessement of metallic nanomaterials in human respiratory cells
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Advisor(s)
Abstract(s)
As the applications of nanomaterials (NM) have been exponentially increasing, serious
concerns about their potential impact on human health have been raised and
challenging questions to regulators came up. This work investigated the toxicity of
widely used metallic NM, namely cerium dioxide (CeO2, NM-212), titanium dioxide
(TiO2, NM-100 and NM-101) and barium sulphate (BaSO4, NM-220).
A standardized protocol for NM dispersion was followed and the quality of the
dispersion in the culture medium was evaluated by dynamic light scattering. A human
alveolar cell line (A549) was exposed to 1-100 μg/cm2 of each NM for cytotoxicity
(MTT and clonogenic assays) and genotoxicity (comet and micronucleus assays)
assessment.
A decrease in cells’ proliferative capacity was detected after exposure to the two
highest concentrations of CeO2 for 7 days (p=0.01 and p=0.002, respectively) while the
remaining NM were not cytotoxic. Concerning genotoxicity, TiO2 NM significantly
increased the level of DNA breaks but those lesions seemed to be efficiently repaired
because no chromosome instability was detected by the micronucleus assay. The CeO2
NM induced a two-fold (non-significant) increase of in the level of oxidative DNA.
BaSO4 NM was neither cytotoxic nor genotoxic under the tested conditions.
Although the present results contribute to the risk assessment of these NM, the real
effects from human exposure, e.g., in the workplace, are still unclear. Thus, the
implementation of high throughput methodologies to allow cost-efficient strategies
and experimental models that better mimic in vivo responses is an urgent need to
allow nanosafety studies to keep pace with innovation.
Description
Keywords
Nanomaterials Genotoxicity Risk assessment Genotoxicidade Ambiental