Influence of Inula helenium rhizomes and Matricaria chamomilla inflorescences on the biochemical and physiological parameters in male rats fed a high-fat diet.

Background: Pharmacological correction of a high-fat diet is of great interest to prevent the development of obesity and hypertension. More and more research is being done on the preventive use of medicinal herbs for excess caloric intake. Objective: The aim of this study was to determine the general physiological effect of I. helenium rhizomes and M. chamomilla inflorescences used in the diet of male rats consuming excess amounts of fat and calories in the daily diet. Material and methods: In a 30-day experiment, we determined the effect of I. helenium rhizome and M. chamomilla on the physiological activity and metabolic processes of laboratory rats consuming a high-fat diet. The physical activity was evaluated according to the mass gain of animals and change in the relative mass of the internal organs, and also the functional conditions of the central nervous system. The influence on the metabolic processes was revealed by biochemical and clinical blood analyses. Results: In a laboratory experiment on male rats, it was found that the addition of dry crushed rhizomes of Inula helenium L. and inflorescences of Matricaria chamomilla L. to the diet caused opposite changes in body weight. In the control group, the animals slightly increased their body weight (up to 111.5% of the initial weight by the end of the experiment); the rhizomes of I. helenium caused a decrease in body weight gain (up to 105.5% on the 30th day of the experiment compared to the initial weight); rats fed M. chamomilla inflorescences gained 123.2% of their initial body weight during the month of the experiment. The rhizomes of I. helenium caused an increase in the stomach relative mass. A decrease in the thymus relative weight was observed when animals were fed M. chamomilla inflorescences. The rhizomes of I. helenium stimulated an increase of blood protein concentration (mainly due to globulins), an increase in the alkaline phosphatase activity and cholesterol, and a decrease in the triglycerides concentration. M. chamomilla inflorescences reduced the blood urea concentration and increased the activity of alkaline phosphatase, causing strong changes in fat metabolism. Under the influence of the diet with the addition of M. chamomilla inflorescences, the atherogenic index increased in animals by 6.5 times relatively to the control group (due to a decrease in the concentration of high-density lipoprotein cholesterol and an increase in the concentration of low-density lipoprotein cholesterol, an increase in the total cholesterol concentration). When M. chamomilla was added to the diet, the blood triglycerides concentration in animals decreased sharply and the concentration of leukocytes increased. The concentration of monocytes exceeded the limits of the physiological norm both in the control group and in the group of animals fed on M. chamomilla inflorescences. Conclusions: The results of the studies show the promise for further research of I. helenium rhizomes in the prevention of hypertension and also indicate strong risks when using M. chamomilla inflorescences for preventive purposes during high-fat and hypercaloric diet.

Effect of Rhodiola rosea Rhizome and Punica granatum Fruit Peel on the Metabolic Processes and Physiological Activity of Rats Fed with Excessively Fat Diet.

Research background: Rhodiola rosea (golden root) and Punica granatum (pomegranate), as well as a number of other species of medicinal plants, exert an array of biological effects: adaptogenic, antioxidant and anti-inflammatory. However, there are not enough contemporary studies of their influence on metabolic processes, especially in cases of imbalanced diet. Lipid dysregulation is the main reason for many diseases, including obesity, cardiovascular disorders, non-alcoholic fatty liver disease, hypertension, atherosclerosis and insulin resistance. Recently, a growing amount of evidence has suggested the positive effects of certain natural nutrients on lipid metabolism. The work aims to define the general effect of golden root rhizome and pomegranate peel on physiological activity and metabolic processes in model animals fed with excessively fat diet. This study is relevant for the development of drugs and food additives for treatment and prophylaxis of metabolism disorders. Experimental approach: In a 30-day experiment, we determined the effect of golden root (Rhodiola rosea L.) rhizome and pomegranate (Punica granatum L.) peel on the physiological activity and metabolic processes of 24 laboratory rats consuming a high-fat diet. The physical activity was evaluated according to the mass gain of animals and change in the relative mass of the internal organs, and also the functional conditions of the central nervous system, as demonstrated by the indicators of the locomotor activity and emotional status, determined in the open field test. The influence on the metabolic processes was revealed by biochemical and clinical blood analyses. Results and conclusions: Body mass of rats fed with golden root (R. rosea) reached 125.8 % of the initial body mass; when fed on pomegranate (P. granatum), it reached 123.9 %; and the control group reached only 111.5 % of the initial body mass. The rhizomes of R. rosea in the diet of male rats during the month of the experiment did not cause significant changes in the relative organ mass, and the pomegranate peel fruits led to a decrease in the thymus relative mass, as well as liver and brain. R. rosea rhizomes in the rats' diet led to an increase in the activity of alkaline phosphatase, and also to a decrease in the concentration of urea and urea nitrogen. Diet supplemented with R. rosea also contributed to a strong decrease in plasma concentrations of bilirubin and triglycerides (up to 57.0 % compared with the concentration in the control group). The rhizomes of R. rosea contributed to an unreliable decrease in the atherogenicity index. The pomegranate peel also greatly increased alkaline phosphatase activity and reduced plasma triglyceride concentrations. In addition, in rats consuming the peel of P. granatum, blood glucose concentration decreased. Under the influence of P. granatum, a strong increase in the atherogenic index of plasma (up to 518.6 % of the control) was observed because of a decrease in the concentration of high-density lipoproteins (up to 57.1 %) and a simultaneous elevation of the concentration of low-density lipoproteins (up to 158.3 % of the control). Open field test between groups remained without significant changes. Novelty and scientific contribution: The results indicate that the rhizome of R. rosea and peel of P. granatum are safe as food additives to high-fat diet and did not cause pathological changes and side effects, and at the same time significantly influence the metabolic processes (lipid and carbohydrate). Our study theoretically substantiates the use of R. rosea rhizome and P. granatum peel for the production of nutraceutical and pharmacological products for the correction of metabolic disorders of people and animals. Doses and periods of their application require further research.