RU2661601C1 - Method for correcting the antioxidant status in conditions of heat exposure to the body - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to pharmacology, and relates to correction of the antioxidant status in conditions of heat exposure to the body. Method is that the rats daily for 6 days immediately before overheating in a thermostatic air laboratory at a temperature of +40±1–2 °C for 45 minutes injected herb stalk infusion orally in a dose of 5 ml/kg of animal weight.

EFFECT: invention provides increase in effectiveness of pharmacological correction of the antioxidant status in the animal, a decrease in the cost of the target product, the duration and laboriousness of its production in comparison with the prototype.

1 cl, 3 tbl

Description

The invention relates to medicine, in particular to pharmacology, can be used to correct antioxidant status under conditions of thermal effects on the body and find application in experimental medicine and clinical practice.

Known methods for increasing the antioxidant status of a warm-blooded organism under the influence of prooxidant factors by the introduction of synthetic preparations of antioxidant action - dibunol, tocopherol acetate, mexidol [1, Mashkovsky MD, Medicines, 2010], emoxipine [2, Dorovskikh VA, Antioxidants in the prevention and correction of cold stress, 2000]. The disadvantage of these methods is the need for the use of pharmacological preparations of synthetic origin, having a number of side and toxic effects and a relatively high cost.

There is a method of increasing the antioxidant status of a warm-blooded organism under ultraviolet irradiation by administering infusion daily for 28 days based on a collection of nettle, birch, and plantain leaves [3, RF patent No. 2424580] and a method of facilitating thermal adaptation of an animal organism by introducing eleutherococcus at a dose of 1 dg / kg daily for 28 days [4, Shapovalenko NS, author. dis. Cand. honey. Sciences, 2011]. The disadvantage of this method is the significant duration of the correction course (4 weeks), which affects, respectively, economic efficiency.

A known method for correcting the processes of peroxidation of lipids of biomembranes under ultraviolet irradiation by the introduction of infusion of star grass to laboratory animals daily for 14 days [5, RF patent No. 2550016].

A known method of increasing the adaptive capabilities of the body under heat stress, including daily intraperitoneal administration to animals of the drug Citoflavin at a dose of 100 mg / kg weight for 14 days [6, RF patent No. 2553374], and a method for correcting peroxidation processes under heat stress, including daily intramuscular administration of arabinogalactan in a dose of 500 mg / kg of mass for 6 days immediately before overheating for 45 minutes in a laboratory air thermostat at a temperature of + 40 ± 1-2 ° С with people adequate humidity and ventilation conditions [7, Li ON et al., Far Eastern Medical Journal, 2015, No. 3]. The last technical solution is taken as a prototype.

The technical problem solved by this invention consists in expanding the arsenal of technical means that make it possible to correct the antioxidant status of a warm-blooded organism under heat exposure based on available domestic raw materials, and to increase the persistent pharmacological (antioxidant) effect while reducing the cost of the target product, its duration and complexity receipt.

This problem was solved by developing a new method for correcting antioxidant status under thermal effects on the body by introducing the infusion of medium stellate grass (Stellaria media L.), a member of the clove family. The plant used to prepare the infusion includes a wide range of biologically active substances and is widely distributed in Russia, which emphasizes the availability of raw materials and the cost-effectiveness of the production technology.

The essence of the invention lies in the fact that in the method of correction of antioxidant status under thermal effects on the body, including daily, for 6 days, the introduction of the drug to rats immediately before overheating for 45 minutes in a laboratory air thermostat at a temperature of + 40 ± 1- 2 ° C in compliance with adequate humidity and ventilation conditions, the infusion of stellate grass is administered orally at a dose of 5 ml / kg of body weight.

The implementation of the method. Experimental animals (rats) that are in standard vivarium conditions, daily for 6 days immediately before overheating in an air laboratory TVL-K thermostat (St. Petersburg) at a temperature of + 40 ± 1-2 ° C for 45 minutes, subject to adequate moisture conditions (45%) and ventilation are administered infusion of stellate herb orally at a dose of 5 ml / kg of body weight. On the 7 ^th day of the experiment the animals were killed by decapitation.

Cooking infusion of stellate herb . The starfish grass was crushed, poured with boiling water at the rate of 5 g per 200 ml of water, infused for 60 minutes, filtered, the precipitate was removed, the infusion was cooled.

The results were taken into account by the ratio of lipid peroxidation products (lipid hydroperoxides, diene conjugates, malondialdehyde), the main components of AOS (ceruloplasmin, vitamin E) and the activity of AOS enzymes (glucose-6-phosphate dehydrogenase, catalase) in the blood plasma of experimental rats compared with animals intact, control groups and prototype groups, processed by standard parametric methods using Student t-test.

The method made it possible to provide correction of the antioxidant status under thermal effects on the body, based on a decrease in the content of lipid peroxidation products in the blood of rats and an increase in the activity of the components of the antioxidant system, while increasing the persistent pharmacological (antioxidant) effect, reducing the cost of the target product, its duration and complexity receipt in comparison with the prototype.

The content of lipid peroxidation products in the blood plasma of intact rats, control groups, prototype groups and experimental animals was studied (table 1). As a result of the studies, the content of lipid hydroperoxides in the blood of control (heat) animals was significantly higher by 19% relative to intact rats (p <0.01), diene conjugates - 15% (p <0.05), malondialdehyde - 57% (p <0.001), which indicates an increase in the intensity of peroxidation processes under daily hyperthermia on the 7th day of the experiment.

Note: * - values significantly different from the values of intact animals; ** - values significantly different from the values of control animals

The level of lipid hydroperoxides in the blood plasma of rats treated with heat exposure from stellate herb infusion is significantly lower by 16% than in the control (heat) group of animals (p <0.01), diene conjugates by 20% (p <0.001) malondialdehyde - by 26% (p <0.01). Comparing the results of studies of the content of lipid peroxidation products in the blood of animals of the experimental group with the prototype, we can say that the proposed method has a more pronounced effect on the stabilization of peroxidation processes: the level of lipid hydroperoxides in the blood plasma of experimental animals relative to rats of the prototype group is 8% lower, diene conjugates and malondialdehyde - by 7%.

An increase in the intensity of LPO processes of biomembranes under thermal exposure is accompanied by a decrease in the activity of AOS components in the blood of control animals compared to intact rats (table 2): the level of ceruloplasmin in the blood of control animals is lower by 16% (p <0.001), vitamin E - by 14% (p <0.05).

Note: * - values significantly different from the values of intact animals; ** - values significantly different from the values of control animals

In the blood of experimental animals, the content of ceruloplasmin was significantly higher by 21% compared with the control group of rats (p <0.001), the level of vitamin E was 24% (p <0.01). A comparative evaluation of the results of the study of the activity of AOS components in the blood of animals of the experimental group and the prototype group shows a more pronounced increase in antioxidant status under the conditions of six-day administration of infusion of stellate grass.

The activity of AOS enzymes during hyperthermia changes according to the nature of the variability of the main components by the end of the experiment (table 3): the activity of glucose-6-phosphate dehydrogenase in the blood of control rats is 19% lower than the intact group (p <0.01), and catalase is 18% (p <0.01).

Note: * - values significantly different from the values of intact animals; ** - values significantly different from the values of control animals

The activity of glucose-6-phosphate dehydrogenase in the blood of the experimental group of animals was significantly higher by 25% compared with the control (p <0.05), catalase - 32% (p <0.001). The comparative effectiveness of the infusion of stellate grass and arabinogalactan (prototype) indicates the predominant activating effect on the state of the antioxidant system in the claimed method.

Thus, the stabilizing effect of the stellate herb infusion on the intensity of biomembrane peroxidation processes under conditions of hyperthermia has been experimentally established, based on a decrease in the content of lipid peroxidation products and an increase in the activity of the main components of AOS in the blood of animals, which gives reason to recommend the use of stellate herb infusion for correction of antioxidant status in conditions of thermal effects on the body.

In General, based on the obtained experimental results, the proposed method (the introduction of the infusion of star grass) provides a more pronounced pharmacological (antioxidant) effect under conditions of reducing the cost of the target product, the duration and complexity of its production in comparison with the prototype.

The technical result of the use of the invention is to expand the arsenal of tools that allow for the correction of the antioxidant status of the body under thermal effects on the basis of available domestic raw materials, and increase the effectiveness of pharmacological correction in the face of reducing the cost of the target product, the duration and complexity of its production in comparison with the prototype.

Information sources

1. Mashkovsky M.D. Medicines: a manual for doctors. - M .: Medicine, 2010 .-- 685 p.

2. Dorovskikh V.A. Antioxidants in the prevention and correction of cold stress / V.A. Dorovskikh, E.A. Borodin, S.S. Kissing. - Blagoveshchensk, 2000 .-- 183 p.

3. Simonova N.V., Dorovskikh V.A., Anokhin R.A., Simonova I.V. A way to increase the antioxidant status of a warm-blooded organism under ultraviolet radiation. - RF patent for invention No. 2424580. - Posted: 07/20/2011, Bull. No. 20.

4. Shapovalenko N.S. Pharmacological regulation of cold and thermal effects in the experiment: author. dis. Cand. honey. sciences. - Vladivostok, 2011 .-- 24 p.

5. Simonova N.V., Dorovskikh V.A., Lee O.N., Anokhina R.A., Dorovskikh V.Yu. A method for the correction of lipid peroxidation processes of biomembranes under ultraviolet irradiation. - RF patent for invention No. 2550016. Published: 05/10/2015, Bull. No. 13.

6. Dorovskikh V.A., Lee O.N., Simonova N.V., Shtarberg M.A., Dorovskikh V.Yu., Anokhin R.A. A way to increase the adaptive capabilities of the body in conditions of heat stress. - RF patent for invention No. 2553374. Published: June 10, 2015, Bull. No. 16.

7. Lee O.N., Dorovskikh V.A., Simonova N.V. Antioxidant properties of arabinogalactan with thermal effects on the body // Far Eastern Medical Journal. - 2015. - No. 3.

Claims (1)

A method of correcting antioxidant status under thermal effects on the body, including daily, for 6 days, the administration of the drug to rats immediately before overheating for 45 minutes in a laboratory air thermostat at a temperature of + 40 ± 1-2 ° C in compliance with adequate humidity conditions and ventilation, characterized in that the rats are injected as a medicine with infusion of grass stellate orally at a dose of 5 ml / kg of body weight.