Impaired Liver Size and Compromised Neurobehavioral Activity are Elicited by Chitosan Nanoparticles in the Zebrafish Embryo Model
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Date
2019-01-19Author
Abou-Saleh, HaissamYounes, Nadin
Rasool, Kashif
Younis, Manaf H.
Prieto, Rafael M.
Yassine, Hadi M.
Mahmoud, Khaled A.
Pintus, Gianfranco
Nasrallah, Gheyath K.
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Show full item recordAbstract
The use of chitosan nanoparticles (ChNPs) in various biological and environmental
applications is attracting great interest. However, potential side effects related to ChNP toxicity
remain the major limitation hampering their wide application. For the first time, we investigate the
potential organ-specific (cardiac, hepatic, and neuromuscular) toxicity of ChNPs (size 100–150 nm)
using the zebrafish embryo model. Our data highlight the absence of both acute and teratogenic
toxic effects of ChNPs (~100% survival rate) even at the higher concentration employed (200 mg/L).
Although no single sign of cardiotoxicity was observed upon exposure to 200 mg/L of ChNPs, as
judged by heartbeat rate, the corrected QT interval (QTc, which measures the time between the start
of the Q wave and the end of the T wave in the heart's electrical cycle), maximum cardiac arrest,
and ejection fraction assays, the same dosage elicited the impairment of both liver size (decreased
liver size, but without steatosis and lipid yolk retention) and neurobehavioral activity (increased
movement under different light conditions). Although the observed toxic effect failed to affect embryo
survival, whether a prolonged ChNP treatment may induce other potentially harmful effects remains
to be elucidated. By reporting new insights on their organ-specific toxicity, our results add novel and
useful information into the available data concerning the in vivo effect of ChNPs.
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