Evaluation of the toxic effect of nandrolone and albendazole on fish according to the morphological parameters of blood

Authors

DOI:

https://doi.org/10.15587/2519-8025.2018.123900

Keywords:

carp, blood morphology, hemoglobin, erythrocytes, SOE, leukogram, xenobiotics, nandrolone, albendazole

Abstract

There were studied the morphological parameters of blood of carps at adding the hormone nandrolone and anthelmintic albendazole in water. Nandrolone even in the unessential concentration (0,1 mg/dm3 of water) increases the content of hemoglobin, number of erythrocytes and SOE value, but decreases the number of eosinophils, segment-kernel neutrophils and doesn’t influence the number of leucocytes, lymphocytes and monocytes in blood of two year aged carps. At the nandrolone concentration in water of an aquarium 0,5 mg/dm3 and 1,0 mg/dm3, that fishes of the second and thirds group were kept in, the influence of the hormone on the morphological parameters of blood increased that is testified by the change of the content of hemoglobin, SOE value, number of erythrocytes, leucocytes, eosinophils and monocytes at the stable value of lymphocytes.

The anthelmintic albendazole, added in water in the concentration 1,0 mg/dm3 decreased the content of hemoglobin and number of erythrocytes and didn’t influence the other morphological parameters of fish blood. The increase of the abendazole concentration in aquarium water up to 0,5 and 1,0 mg/dm3 essentially influenced morphological parameters of fish blood, decreasing the content of hemoglobin, number of erythrocytes, leucocytes, eosinophils, neutrophils, at the same time increasing the number of lymphocytes and SOE value.

The influence of the anthelmintic albendazole on the morphological parameters of carp blood turned out to be more expressed that one of the nandrolone hormone

Author Biographies

Mykola Zakharenko, National University of Life and Environmental Sciences of Ukraine Heroiv Oborony str., 15, Kyiv, Ukraine, 03041

Doctor of Biological Sciences, Professor

Department of hygiene and sanitation named after A. K. Skorokhodko

Inna Kurbatova, National University of Life and Environmental Sciences of Ukraine Heroiv Oborony str., 15, Kyiv, Ukraine, 03041

PhD, Associate Professor

Department of Animal Biology

Liudmyla Chepil, National University of Life and Environmental Sciences of Ukraine Heroiv Oborony str., 15, Kyiv, Ukraine, 03041

PhD, Associate Professor

Department of Animal Biology

References

  1. Tsudzevych, B. O., Stoliar, O. B., Kalinin, I. V., Yukalo, V. H. (2012). Ksenobiotyky: nakopychennia, detoksykatsiia ta vyvedennia iz zhyvykh orhanizmiv. Ternopil: Vyd-vo TNTU im. I. Puliuia, 384.
  2. Kurbatova, I. M., Bayеr, O. V., Zakharenko, M. O. (2017). Antybakterialni preparaty, antyhelmintyky ta hormony produktiv zhyttiediialnosti svynei. Ahroekolohichnyi zhurnal, 3, 122–128.
  3. Ivanova, O. V., Zakharenko, M. O. (2010). Sanitarno-hihiienichna otsinka stokiv tvarynnytskykh pidpryiemstv. Veterynarna biotekhnolohiia, 18, 77–81.
  4. Hou, J., Wan, W., Mao, D., Wang, C., Mu, Q., Qin, S., Luo, Y. (2014). Occurrence and distribution of sulfonamides, tetracyclines, quinolones, macrolides, and nitrofurans in livestock manure and amended soils of Northern China. Environmental Science and Pollution Research, 22 (6), 4545–4554. doi: 10.1007/s11356-014-3632-y
  5. Ivanova, O. V., Zakharenko, M. O. (2013). Hihiienichni pokaznyky stokiv svynarskykh pidpryiemstv za biolohichnykh sposobiv ochystky. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny i biotekhnolohii im. S. Z. Hzhytskoho, 15 (3 (57)), 335–341.
  6. Gulkowska, A., Leung, H. W., So, M. K., Taniyasu, S., Yamashita, N., Yeung, L. W. Y. et. al. (2008). Removal of antibiotics from wastewater by sewage treatment facilities in Hong Kong and Shenzhen, China. Water Research, 42 (1-2), 395–403. doi: 10.1016/j.watres.2007.07.031
  7. Kurbatova, I. M., Tsedyk, V. V., Mykhalska, V. M., Maliuha, L. V. (2008). Do pytannia pro yakist vody vodoim rybohospodarskoho pryznachennia ta yii vplyv na rozvytok ikry koropa. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny i biotekhnolohii im. S. Z. Hzhytskoho, 10 (4 (39)), 273–278.
  8. Prykhodko, Yu. O. (2000). Vplyv albendazolu na bilkovyi i vuhlevodnyi obmin ta stan humoralnoho imunitetu u tvaryn. Veterynarna medytsyna, 2 (78), 176–181.
  9. Tafiichuk, R. I., Yuskiv, I. D. (2008). Analiz chastoty mikroiader v erytrotsytakh krovi koropa za dii antyhelmintykiv. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny i biotekhnolohii im. S. Z. Hzhytskoho, 10 (3 (38)), 250–253.
  10. Kurbatova, I. M. (2016). Bilkovyi spektr plazmy krovi koropa za dii khlortetratsyklinu. Hidrobiolohichnyi zhurnal, 52 (2), 103–108.
  11. Zhydenko, A. O., Kovalenko, O. M. (2004). Vplyv zenkoru na dynamiku histolohichnykh zmin v orhanakh koropa. Ukrainskyi biokhimichnyi zhurnal, 76 (3), 110–113.
  12. Salyukov, A. G. (2005). Morfofunktsional'nnye parametry organov vodnykh ryb – nadezhnye indikatory sostoyaniya ekosistem basseyna Obi. Naukovi zapysky Ternopilskoho natsionalnoho pedahohichnoho universytetu. Hidrobiolohiia, 3, 391–392.
  13. Kurbatova, I. M., Chepil, L. V., Yevtushenko, M. Yu. (2017). Aktyvnist fermentiv plazmy krovi koropa (Cyprinus carpio L.) za dii nandrolonu. Visnyk zaporizkoho natsionalnoho universytetu. Biolohichni nauky, 1, 38–41.
  14. Zhydenko, A. A. (2007). Hematolohycheskye pokazately dvukhletok karpa v uslovyiakh herbytsydnoi zahruzky. Visnyk Dnipropetrovskoho natsionalnoho universytetu. Seriia: Biolohiia, Ekolohiia, 1 (16), 38–44.
  15. Boiarchuk, O. D., Vynohradov, O. O. (2013). Biokhimiia stresu: laboratornyi praktykum. Luhansk: Vydavnytstvo DZ «LNU imeni Tarasa Shevchenka», 65.
  16. Kokunin, V. A. (1975). Statisticheskaya obrabotka dannykh pri malom chisle opytov. Ukrainskiy biokhimicheskiy zhurnal, 47 (6), 776–790.
  17. Rudenko, O. P. (2017). Hematolohichni pokaznyky koropa ramchastoho ta sazana za dii vitaminno-mineralnoi dobavky. Visnyk Dniprovskoho derzhavnoho ahrarno-ekonomichnoho universytetu, 1 (40), 118–121.
  18. Loboiko, Yu. V. (2013). Vyznachennia khronichnoi toksychnosti preparatu brovermektyn-hranuliat tm na odnorichkakh koropa. Naukovo-tekhnichnyi biuleten instytutu biolohii tvaryn i Derzhavnoho naukovo-doslidnoho kontrolnoho instytutu vetpreparativ ta kormovykh dobavok, 14 (3-4), 178–183.
  19. Ivanova, N. T. (1983). Atlas kletok krovy ryb. Sravnitel'naya morfologiya i klassifikatsiya formennykh elementov krovi ryb. Moscow: Legkaya i pishhevaya promyshlennost', 184.
  20. Das Neves, V. J., Tanno, A. P., Cunha, T. S., Fernandes, T., Guzzoni, V., da Silva, C. A. et. al. (2013). Effects of nandrolone and resistance training on the blood pressure, cardiac electrophysiology, and expression of atrial β-adrenergic receptors. Life Sciences, 92 (20-21), 1029–1035. doi: 10.1016/j.lfs.2013.04.002
  21. Soto, A. M., Calabro, J. M., Prechtl, N. V., Yau, A. Y., Orlando, E. F., Daxenberger, A. et. al. (2004). Androgenic and Estrogenic Activity in Water Bodies Receiving Cattle Feedlot Effluent in Eastern Nebraska, USA. Environmental Health Perspectives, 112 (3), 346–352. doi: 10.1289/ehp.6590
  22. Kondrat'eva, I. A., Kartashov, A. A. (2002). Funktsionirovanie i regulyatsiya imunnoy sistemy ryb. Immunologiya, 23 (2), 97–101.
  23. Davydov, O. N., Abramov, A. V., Kurovskaya, L. Ya. et. al.; Mandygry, N. S. (Ed.) (2009). Biologicheskie preparaty i khimicheskie veshhestva v akvakul'ture. Kyiv: Logos, 307.
  24. Prykhodko, Ye. (2000). Vplyv albendazolu na bilkovyi i vuhlevodnyi obmin ta humoralnyi imunitet svynei. Veterynarna medytsyna, 78, 178–181.

Published

2018-02-19

How to Cite

Zakharenko, M., Kurbatova, I., & Chepil, L. (2018). Evaluation of the toxic effect of nandrolone and albendazole on fish according to the morphological parameters of blood. ScienceRise: Biological Science, (1 (10), 4–8. https://doi.org/10.15587/2519-8025.2018.123900

Issue

Section

Biological Sciences