Study of Acute and Chronic Toxicity of &quot;Butaselmevit&quot; on Laboratory Animals

Tetiana Martyshuk; Bogdan Gutyj; Oleg Vyshchur; Ihor Paterega; Volodymyr Kushnir; Oleksii Bigdan; Inna Bushueva; Volodymyr Parchenko; Evhenii Mykhailiuk; Oleksandr Aleksieiev; Natalia Tkachenko

doi:10.51847/XHwVCyfBZ3

Archive \ Volume.13 2022 Issue 3

Study of Acute and Chronic Toxicity of "Butaselmevit" on Laboratory Animals

Tetiana Martyshuk , Bogdan Gutyj , Oleg Vyshchur , Ihor Paterega , Volodymyr Kushnir , Oleksii Bigdan , Inna Bushueva , Volodymyr Parchenko , Evhenii Mykhailiuk , Oleksandr Aleksieiev , Natalia Tkachenko

Abstract

The purpose of this work is to study the hepatoprotective properties of potassium 2-((4-amino-5- (morpholinomethyl)-4H-1,2,4-triazole-3-yl)thio)acetate on tetracycline and infectious hepatitis models in chickens. Biochemical examination of blood and liver serum was carried out on intact broiler chickens Cobb 500 cross. All groups of chickens were kept separate in different cells in the same room for the same microclimate parameters in accordance with the established requirements. The dose-dependent effect of "Butaselmevit" on leukopoiesis, hematological profile, and functional state of the liver in laboratory animals was established.

As a result of research on the model of hepatitis in chickens caused by tetracycline, established the hepatoprotective effect of potassium compound 2-((4-amino-5-(morpholinomethyl)-4H-1,2,4-triazole-3-yl)thio)acetate, which is not inferior to the referent drug - Thiotriazolin^®. Based on the results of the biochemical study, hepatoprotective properties of the combination of the above compound with the antibiotic Saroflox^®, combination of potassium 2-((4-amino-5- (morpholinomethyl)-4H-1,2,4-triazole-3-yl) thio) acetate with classical antibiotic Enrofloxacin^® on the model of infectious hepatitis.

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Martyshuk T, Gutyj B, Vyshchur O, Paterega I, Kushnir V, Bigdan O, et al. Study of Acute and Chronic Toxicity of "Butaselmevit" on Laboratory Animals. Arch Pharm Pract. 2022;13(3):70-5. https://doi.org/10.51847/XHwVCyfBZ3

APA

Martyshuk, T., Gutyj, B., Vyshchur, O., Paterega, I., Kushnir, V., Bigdan, O., Bushueva, I., Parchenko, V., Mykhailiuk, E., Aleksieiev, O., et al. (2022). Study of Acute and Chronic Toxicity of "Butaselmevit" on Laboratory Animals. Archives of Pharmacy Practice, 13(3), 70-75. https://doi.org/10.51847/XHwVCyfBZ3

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References

1. Kurdil NV. The peculiarities of biotransformation and adaptive-compensatory abilities of xenobiotics. Ukr J Telemed Telemat. 2012;10(2):91-7. (in Ukrainian)

2. Vynars’ka OI, Spas’ka YS, Hryhorenko LY, Glushko II. Immune status at combined influence of xenobiotics. Hyg Inhabit Places. 2013;(62):314-21. (in Ukrainian)

3. Zuo MT, Wu Y, Wang ZY, Wang N, Huang SJ, Yu H, et al. A comprehensive toxicity evaluation in rats after long-term oral Gelsemium elegans exposure. Biomed Pharmacother. 2021;137:111284. doi:10.1016/j.biopha.2021.111284

4. Svystun II. Structural reorganization of liver of white rats under model thyrotoxicosis. Bull Sci Res. 2012;2(67):93-5. (in Ukrainian)

5. Weber L, Boll M, Stampfl A. Hepatotoxicity and mechanism of action of haloalkanes: carbon tetrachloride as a toxicological model. Сrit Rev Toxicol. 2003;3(2):105-36. doi:10.1080/713611034. (in English)

6. Giribabu N, Reddy PS. Protection of male reproductive toxicity in rats exposed to di-n-butyl phthalate during embryonic development by testosterone. Biomed Pharmacother. 2017;87:355-65. doi:10.1016/j.biopha.2016.12.106

7. Hubskyi YI. Toxic death of cell: free radical injury and apoptosis. Treat diagn. 2001;4:8-15. (in Russian)

8. Li D, Cai H, Hou M, Fu D. Effects of indoleamine 2,3-dioxygenases in carbon tetrachloride-induced hepatitis model of rats. Cell Biochem Funct. 2012;30(4):309-14. doi:10.1002/cbf.2803

9. Sato S, Dai W, Liu XL, Asano G. The protective effect of hepatocyte growth-promoting factor (pHGF) against carbon tetrachloride-induced acute liver injury in rats: an ultrastructural study. Med Electron Microsc. 1999;32(3):184-92. doi:10.1007/s007959900013. (in English)

10. Saka WA, Akhigbe RE, Abidoye AO, Dare OS, Adekunle AO. Suppression of uric acid generation and blockade of glutathione dysregulation by L-arginine ameliorates dichlorvos-induced oxidative hepatorenal damage in rats. Biomed Pharmacother. 2021;138:111443. doi:10.1016/j.biopha.2021.111443

11. Allison RD, Laven RA. Effect of vitamin E supplementation on the health and fertility of dairy cows: a review. Vet Rec. 2000;147(25):703-8. (in English)

12. Ceballos A, Sánchez J, Stryhn H, Montgomery JB, Barkema HW, Wichtel JJ. Meta-analysis of the effect of oral selenium supplementation on milk selenium concentration in cattle. J Dairy Sci. 2009;92(1):324-42. (in English)

13. Kobylyukh IB, Stravskiy YS, Stefanyk VY, Kostyshyn YY. The influence of the preparatio n «Fos-Bevit» on the content of cholesterol and the concentration of urine acid in cows' organism and the processes in their organism after natal period. Scientific messenger of Lviv national university of veterinary medicine and biotechnologies named after S.Z. Gzhytskyj. 2017;19(77):204-7. doi:10.15421/nvlvet7744

14. Lavryshyn YY, Varkholyak IS, Martyschuk TV, Guta ZА, Ivankiv LB, Paladischuk ОR, et al. The biological significance of the antioxidant defense system of the animal's body. Scientific messenger of Lviv national university of veterinary medicine and biotechnologies named after S.Z. Gzhytskyj. 2016;18(2(66)):100-11. doi:10.15421/nvlvet6622

15. Gutyj B, Martyshchuk T, Bushueva I, Semeniv B, Parchenko V, Kaplaushenko A, et al. Morphological and biochemical indicators of blood of rats poisoned by carbon tetrachloride and subject to action of liposomal preparation. Regul Mech Biosyst. 2017;2(8):304-9. doi:10.15421/021748

16. Lytvinova NV, Filonenko-Patrusheva MA, Frantsuzova SB. Preclinical investigation of medical drugs: Methodical recommendations. Eds. О.V. Stefanova., Kyiv: Аvicenna; 2001. 527 p. (in Ukrainian)

17. Martyshuk TV, Gutyj BV, Vishchur OI. Level of lipid peroxidation products in the blood of rats under the influence of oxidative stress and the action of liposomal preparation of «Butaselmevit». Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 2016;6(2):22-7. doi:10.15421/201631

18. Gutyj B, Khariv I, Binkevych V, Binkevych O, Levkivska N, Levkivskyj D, et al. Research on acute and chronic toxity of the experimental drug Аmprolinsyl. Regul Mech Biosyst. 2017;1(8):41-5. doi:10.15421/021708

19. Todoriuk VB, Hunchak VM, Gutyj BV, Gufriy DF, Hariv II, Khomyk RI, et al. Preclinical research of the experimental preparation “Ferosel T”. Ukr J Vet Agric Sci. 2018;1(1):3-9. doi:10.32718/ujvas1-1.01

20. Todoriuk V, Hunchak V, Gufrij D, Gutyj B, Hariv I, Khomyk R, et al. Research of sharp and chronic toxicity of experimental preparation of «Ferosel Т». Scientific Messenger LNUVMBT is named after S.Z. Gzhytskyj, 2017;19(73):104-11. doi:10.15421/nvlvet7322

21. Shams GE, Fouad AE, Naiem N. Nitazoxanide adverse effects on biochemical markers of liver & kidney injury and antioxidant enzymes on rats. Int J Pharm Res Allied Sci. 2018;7(4):1-6.

22. Bourebaba Y, Marycz K, Mularczyk M, Bourebaba L. Postbiotics as potential new therapeutic agents for metabolic disorders management. Biomed Pharmacother. 2022;153:113138. doi:10.1016/j.biopha.2022.113138

23. Rozin DG. Contemporary evaluation of toxicity of chlorine fatty carbons by hexanal test in white mice. Pharmacol Toxicol. 1964;5:613-4. (in Russian)

24. Rylova ML. The methods of investigation of chronic action of deleterious factors of the medium in the experiment. Leningrad; 1964. 227 p. (in Russian)