Investigation the Effect of Penicillamine and EDTA on toxicity of silver nanoparticles in Tor grypus

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ALISHAHI MOJTABA; toulabi dezfouli zahra; Osroosh Elham

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Journal: JOURNAL OF WETLAND ECOBIOLOGY Year:2018 | Volume:10 | Issue:37 Page(s): 103-112

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Title

Investigation the Effect of Penicillamine and EDTA on toxicity of silver nanoparticles in Tor grypus

Author(s)

ALISHAHI MOJTABA | toulabi dezfouli zahra | Osroosh Elham | Issue Writer Certificate

Keywords

PenicillamineQ2

EDTAQ2

Silver nanoparticlesQ2

Tor grypus.ToxicityQ3

Abstract

The use of metallic nanoparticles, especially Silver nanoparticles, has greatly developed in aquaculture in recent years. Generally, heavy metals affect the health of fish and consequently affect human health, so scientific methods are necessary for the decontamination and treatment of heavy metals toxicity. One of the methods used to eliminate the toxicity of metals is chelation therapy, which means the use of chelated materials to enter the bloodstream and remove harmful substances such as heavy metals. Therefore, in this study, the effect of two substances, Penicillamine and EDTA, which have been shown to have a therapeutic effect and reduce the toxicity of heavy metals in humans and warm-blooded animals has been shown to be effective in reducing the toxicity of Silver nanoparticles in native fish determined. In this study, 240 Tor grypus fry (4/9 ± 0/32 g, Mean± SD) were randomly divided into 4 equal groups in triplicates. Group one and 2 were fed with 50 and 100 mg kg-1 Penicillamine respectively. Group 3 were fed with 100 mg kg-1 and group 4 or control group received basal food. Experimental diet were fed for 21 days to 4 groups and nanosiler acute toxicity test (96h LC50) were calculated according to OECD method. The results showed that the toxicity of nanosilver in the control treatment in all points (24, 48, 72 and 96 hours exposure) was significantly higher than the treatments of Penicillamine and EDTA, besides the treatment with Penicillamine (100 mg/kg) showed the highest resistance to the toxicity of the nanosilver in all four toxicity tests. In general, it can be concluded that these two substances can be used as proper component to control, treatment and prevention of nanosilver toxicity in fish and Penicillamine is more efficient than EDTA,

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APA: Copy

ALISHAHI, MOJTABA, toulabi dezfouli, zahra, & Osroosh, Elham. (2018). Investigation the Effect of Penicillamine and EDTA on toxicity of silver nanoparticles in Tor grypus. JOURNAL OF WETLAND ECOBIOLOGY, 10(37 ), 103-112. SID. https://sid.ir/paper/174903/en

Vancouver: Copy

ALISHAHI MOJTABA, toulabi dezfouli zahra, Osroosh Elham. Investigation the Effect of Penicillamine and EDTA on toxicity of silver nanoparticles in Tor grypus. JOURNAL OF WETLAND ECOBIOLOGY[Internet]. 2018;10(37 ):103-112. Available from: https://sid.ir/paper/174903/en

IEEE: Copy

MOJTABA ALISHAHI, zahra toulabi dezfouli, and Elham Osroosh, “Investigation the Effect of Penicillamine and EDTA on toxicity of silver nanoparticles in Tor grypus,” JOURNAL OF WETLAND ECOBIOLOGY, vol. 10, no. 37 , pp. 103–112, 2018, [Online]. Available: https://sid.ir/paper/174903/en

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