A Comparison between Neuromuscular Effects of Parathion and Paraoxon on Chick Biventer Cervicis Nerve-Muscle and the Reversal of their Effects by Pralidoxime
G Poorheidari, A Shahriary… - Iranian Red Crescent …, 2021 - eprints.bmsu.ac.ir
G Poorheidari, A Shahriary, MMA Boojar
Iranian Red Crescent Medical Journal, 2021•eprints.bmsu.ac.irBackground: It is generally believed that the anticholinesterase effect is induced by the
organophosphate insecticide parathion only through its bioactive metabolite (ie, paraoxon)
that is created in the liver. Objectives: This study aimed to evaluate the intrinsic
anticholinesterase effect of parathion, compared to its main metabolite. Methods: This study
has been conducted to prepare the isolated chick biventer cervicis nerve-muscle using the
twitch tension recording method. Results: According to the results, paraoxon (0.1 mu M) …
organophosphate insecticide parathion only through its bioactive metabolite (ie, paraoxon)
that is created in the liver. Objectives: This study aimed to evaluate the intrinsic
anticholinesterase effect of parathion, compared to its main metabolite. Methods: This study
has been conducted to prepare the isolated chick biventer cervicis nerve-muscle using the
twitch tension recording method. Results: According to the results, paraoxon (0.1 mu M) …
Background
It is generally believed that the anticholinesterase effect is induced by the organophosphate insecticide parathion only through its bioactive metabolite (i.e., paraoxon) that is created in the liver.
Objectives
This study aimed to evaluate the intrinsic anticholinesterase effect of parathion, compared to its main metabolite.
Methods
This study has been conducted to prepare the isolated chick biventer cervicis nerve-muscle using the twitch tension recording method.
Results
According to the results, paraoxon (0.1 mu M) induced a highly significant increase (more than 100) in the twitch height, while higher concentrations (0.3 and 1 mu M) induced partial or total contractures. Furthermore, parathion induced almost the same percentage of increase in the twitch height at 1 mu M and partial or total contractures at 3 and 10 mu M. It should be noted that pralidoxime (2-PAM), at 300 mu M, reversed the effects of paraoxon and its parent (i.e., parathion).
Conclusion
These results demonstrate that both parathion and its metabolite inhibit the acetylcholinesterase enzyme which can be reactivated by pralidoxime, whereas parathion is about 10 times less potent, compared to its metabolite. Therefore, the intrinsic toxic effects of parathion, regardless of its metabolite, should be considered in future studies.
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