Novosibirsk State Pedagogical University Bulletin, 2013, vol. 3, no. 2, pp. 80–89
UDC: 
591.133 + 591.149.2

Features carbohydrate and water-salt balance of rats with experimental model diabetes while taking electroactivated water solution

Kozlova A. P. 1 (Novosibirsk, Russian Federation)
1 Novosibirsk State Pedagogical University
Abstract: 

The efficacy of electroactivated water solutions (EWS) at an experimental model of diabetes in rats was evaluated. It has been shown that the EWS-A diabetic rats resulted in a pronounced hypoglycemic effect, through delay in the development of diabetes, whereas EWS -K showed no protective effect of plasma glucose concentration. Intake of electrochemically activated water solutions dial not cause changes in renal function and water-salt metabolism in healthy animals, while in diabetic rats it increased diuresis and potassium excretion fraction. Histological analysis revealed a positive impact on the structure of the pancreas of rats with alloxan diabetes model, recuing EWS –A. EWS effect on the morphological structure of the kidney of rats in the experiment was not revealed. These results show the effectiveness of the «anolyte» for correction of structure and functions of the pancreas in rats with experimental model of diabetes.

Keywords: 

«anolyte», «catholyte», electroactivation, water-salt balance, diabetes mellitus, kidney, pancreas, rat

For citation:
Kozlova A. P. Features carbohydrate and water-salt balance of rats with experimental model diabetes while taking electroactivated water solution. Novosibirsk State Pedagogical University Bulletin, 2013, vol. 3, no. 2, pp. 80–89.
References: 

1. Dedov I. I. Diabetes mellitus: the development of technology in the diagnosis, treatment and prevention (plenary lecture). Endocrinological Center, 2010, no. 3. In Russian.
2. Dedov I. I., Kuraeva T. L., Peterkova V. A. Diabetes mellitus in children and adolescents (a guide for physicians). Moscow: Medicine Publ., 2008. In Russian.
3. Gajdarova A.P., KhorinaYu.A., Koroschenko G.A., Serkina O.A., Khachatryan A.P., Larionov P.M., Aizman R.I. Effect of electroactivated water solutions on morphological and functional parameters of rats’s pancreas and kidneys with experimental model of diabetes mellitus. Novosibirsk State Pedagogical University Bulletin, 2012, no. 4. pp. 53–61. In Russian.
4. Zarezaew O. A., Korneva T. K., Panicheva S. A. Based hand surgeon electrochemically activated solutions and microbial control method. Electrochemical activation in medicine, agriculture, industry. Moscow, 1994. In Russian.
5. Petrosyan E. A. Pathogenetic principles and rationale of treatment of purulent surgical infection by indirect electrochemical oxidation: summary for the degree of Doctor of Medical. Science. Moscow, 1991. In Russian.
6. Method of indirect electrochemical detoxification using sodium hypochlorite in the practice of medicine. Dobriyanets A.I., Zhidkov S.A., Kuzmin Yu.V. Guidelines. Minsk, 2000.
7. Gitelman D. S., Zbrizher E. R. Effect of electroactivatedcatholyte solution on immune response and hematopoiesis in sublethally irradiated mice. Electrochemical activation in medicine, agriculture, industry. Moscow, 1994. In Russian.
8. Bradley E. E. Renal function. Thyroid. Leningrad, 1963. In Russian.
9. Bahir V. M. Electrochemical activation in the practice of medicine. Second International Symposium "Electrochemical activation", Proc. Reports. and a brief message. Part 1. Moscow, 1999. In Russian.
10. Nazarenko K. I. The properties of water. Electroactivated water – the source of life and health. Kiev, NPF EkoVod Publ., 2003.
11. Bahir V. M. The definition of "water" and "solution" is applied to electrochemical activation technology. Electrochemical activation in medicine, agriculture, industry. 1999. No. 14. In Russian.
12. Prilutsky V. I. Electrochemically activated water: the anomalous properties and biological mechanisms Action. Moscow, 1995. In Russian.
13. Alekhin S. A. Training materials for use electroactivated water solutions for the prevention and treatment of common human diseases. Tashkent, 1994.
14. Lakin G. F. Biometrics. Moscow: High School Publ., 1980. In Russian.
15. Wang G.-W. Effects of insulin therapy fracture healing and expression of VEGF in diabetic rats. Journal of Applied Biomedicinae, 2013, no. 11.

Date of the publication 20.04.2013