TOXIC-ALIMENTARY MODEL OF LIVER CIRRHOSIS IN RATS

Objective: to design an experimental model of liver cirrhosis in rats and to compare it with the carbon tetrachloride model of liver injury. Material and methods. White Wistar rats (n=30) were used as objects for modeling of toxic liver injury. The modeling was performed by the designed toxic-alimentary method (experimental group, n=15) and by means of the carbon tetrachloride injection (control group, n=15). The animals were sacrificed at different terms (8, 12 weeks after start of the modeling and 3 months after termination of the modeling), and the morphological and morphometric state of the liver was studied. Results. The designed toxic-alimentary model of liver injury leads to liver cirrhosis 8 weeks after start of the modeling (reproducibility - 93.3 %). The reproducibility of liver cirrhosis in case of using the carbon tetrachloride model 8 weeks after start of the modeling is 26.7%, which is proved by statistically lower thickness of connective-tissue septa in the liver in the control group in comparison with the experimental group (p=0.016, Mann Whitney U test). The designed toxic-alimentary method ensures shorter timing of the modeling of liver cirrhosis (from 12 weeks in the control group to 8 weeks in the experimental group) and also lower reversibility of liver fibrosis signs 3 months after termination of the modeling in comparison with the carbon tetrachloride model of liver injury. Conclusions. The designed toxic-alimentary model of liver injury leads to liver cirrhosis 8 weeks after start of the modeling. The developed model ensures shorter timing of the modeling of liver cirrhosis, increased reproducibility as well as lower reversibility of liver fibrosis signs 3 months after termination of the modeling in comparison with the carbon tetrachloride model of liver injury.

liver cirrhosis, experimental model, carbon tetrachloride, connective-tissue septa, morphometry

1. The Epidemiology of Cirrhosis in the United States: A Population-based Study / S.Scaglione [et al.] // J Clin Gastroenterol.- 2015 - №49(8). - P. 690-696.

2. Dunbar,J.K. The rising tide of liver Cirrhosis mortality in the UK: can its halt be predicted? / J.K.Dunbar, I.K.Crombie // Alcohol Alcohol. - 2011 - №46(4). - P. 459-463.

3. Partial bile duct ligation in mice: a novel model of acute cholestasis / S.Heinrich [et al.] // Surgery. - 2010. - № 149. - P. 445-451.

4. Hayashi,H. Animal models for the study of liver fibrosis: new insights from knockout mouse models / H.Hayashi, T.Sakai // Am J Physiol Gastrointest Liver Physiol. - 2011. - № 5. - P. 729-738.

5. Response of sinusoidal liver cells in CDE-diet / E.Ueberham [et al.] // Comp. Hepatol. - 2010.-№13. - P. 8-9.

6. T cell-derived lymphotoxin regulates liver regeneration / A. V.Tumanov [et al.] // Gastroenterology. - 2009. - № 136. - P. 694-704.

7. Häussinger,D. Liver regeneration / edited by Dieter Häussinger. - Walter de Gruyter GmbH & Co. KG, Berlin/Boston. - 2011. - 232 p.

8. The therapeutic potential of human umbilical mesenchymal stem cells from Wharton's jelly in the treatment of rat liver fibrosis / P.C.Tsai [et al.] // Liver Transpl. - 2009. - № 5(15). - P. 484-495.

9. Anti-fibrotic effect of chorionic platederived mesenchymal stem cells isolated from human placenta in a rat model of CCl(4)-injured liver: potential application to the treatment of hepatic diseases / M. J.Lee [et al.] // J. Cell. Biochem. - 2010. - № 6 (111) - P. 1453-1463.

10. Модельтоксическогопораженияпечениукроликов / А.Н.Лызиков [и др.] // Проблемы здоровья и экологии. - 2015. - № 2. -C.45-50.

11. Differentiation of bone marrow-derived mesenchymal stem cells into hepatocyte-like cells on nanofibers and their transplantation into a carbon tetrachloride-induced liver fibrosis model / A.Piryaei [et al.] // Stem Cell Rev. - 2011. - № 1(7). - P. 103-118.

12. Intravenous injection of mesenchymal stem cells is effective in treating liver fibrosis / W.Zhao [et al.] // World J. Gastroenterol. - 2012. - № 10(18). - P. 1048-1058.

13. Экспериментальное моделирование токсического повреждения печени / А.Г.Скуратов [и др.] // Проблемы здоровья и экологии. - 2011. - № 4 (30). - С.27-33.