Abstract
Aim. The effects of the powder of Curcuma longa plant rhizome as food additive on different processes of carbohydrate metabolism: glucose concentration in whole blood, concentration of hormones – insulin and C-peptide in plasma, content of glycogen in the liver, structural and functional organization of the islet apparatus of the pancreas in rats with alloxan-induced diabetes mellitus were studied. Material and methods. The study was conducted on Wistar adult male rats. All animals were divided into 4 groups: 1 and 2 – the controls, 3 and 4 – the rats with alloxan-induced model of diabetes mellitus. Animals of groups 1 and 3 were kept on standard chow, whereas the rats of groups 2 and 4 were feeded with additive of powder from Curcuma longa plant rhizome (2% by weight of feed). The concentration of glucose in blood and perfused solution was determined with picric acid method by intensity of colour reaction on spectrofotometer. Concentration of hormones (insulin, C-peptide) was defined by immunoenzyme method with standard sets on tablet spectrofotometer. The morphological structure of a pancreas was studied by a method of light microscopy. Content of glycogen in a liver was measured by means of Shick-reaction on the Mac-Manus method with measurement of colour intensity on spectrofotometer. Results. Intake of the turmeric rhizomes powder by rats with diabetes, as compared with the diabetic animals on a standard diet, resulted in the lower increase of the glucose concentration in blood, the decrease of glucose absorption in the gut, higher concentration of the insulin and C-peptide in plasma and significant increase of glycogen content in the liver. The microstructure of pancreatic tissue samples of experimental animals using turmeric intake, was characterized by the better preservation of the islet apparatus in comparison with a group of animals on a standard diet. Conclusion. The results indicate the positive effect of the Curcuma longa rhizomes on the homeostatic mechanisms of the carbohydrate metabolism regulation in the alloxan-induced diabetes mellitus rats.
Highlights
All animals were divided into 4 groups: 1 and 2 – the controls, 3 and 4 – the rats with alloxan-induced model of diabetes mellitus
The concentration of glucose in blood and perfused solution was determined with picric acid method by intensity of colour reaction on spectrofotometer
Content of glycogen in a liver was measured by means of Shick-reaction on the Mac-Manus method with measurement of colour intensity on spectrofotometer
Summary
The concentration of glucose in blood and perfused solution was determined with picric acid method by intensity of colour reaction on spectrofotometer. Айзман Роман Иделевич ( ) – заслуженный деятель науки РФ, д-р биол. Кафедрой анатомии, физиологии и безопасности жизнедеятельности института естественных и социально-экономических наук НГПУ
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