Article citationsMore>>
de Freitas, A.S., Funck, V.R., dos Santos Rotta, M., Bohrer, D., Mörschbächer, V., Puntel, R.L., Nogueira, C.W., Farina, M., Aschner, M. and Rocha, J.B.T. (2009) Diphenyl Diselenide, a Simple Organoselenium Compound, Decreases Methylmercury-Induced Cerebral, Hepatic and Renal Oxidative Stress and Mercury Deposition in Adult Mice. Brain Research Bulletin, 79, 77-84.
https://doi.org/10.1016/j.brainresbull.2008.11.001
has been cited by the following article:
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TITLE:
Testing Toxicity and Antidote Effect of Selenium Nanoparticles with Paramecium caudatum
AUTHORS:
Khandsuren Badgar, József Prokisch
KEYWORDS:
Selenium Nanoparticles, Toxicity, Antidote Effect, Paramecium caudatum
JOURNAL NAME:
Open Journal of Animal Sciences,
Vol.11 No.4,
September
1,
2021
ABSTRACT: A simple method for assessment of the toxicity and antidote effect of
selenium nanoparticles with Paramecium caudatum is presented. Light microscopy in
combination with computerized video tracking is employed for the determination of the survival time of P. caudatum. Up to 800
mg/L, selenium nanoparticles are not acutely toxic. With respect to a potential antidote effect, the
lethality of silver nanoparticles, silver nitrate, sodium hydrogen selenite,
and sodium selenite to P. caudatum was decreased and survival time was extended upon pre-treatment with selenium nanoparticles.
Taken together, these findings suggest that administration of selenium
nanoparticles attenuates exposure to toxicants. Selenium nanoparticles could be a good
functional additive for food management in animals.
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