RU2613102C1 - Method of increasing radioresistance in small cattle, subjected to ionizing radiation - Google Patents

Abstract

FIELD: medicine; veterinary science; physics.

SUBSTANCE: invention relates to radiation biology and radiation medicine and is intended for prevention and treating acute radiation disease caused by ionizing radiation. Method involves using preparation curcumine in amount of 3.125–3.47 mg of pure substance of curcumine per 1 kg of live weight, injected intramuscularly in dose of 10.0 cm³ 0.5–1.0 h after irradiation, if absorbed dose is 4.0–5.0 Gy, and intramuscularly in dose of 10.0 cm³ 0.5–1.0 h after irradiation and additionally in dose of 10.0 cm³ on 3 and 5 days after irradiation, if absorbed dose is 5.0–6.0 Gy.

EFFECT: method is highly effective for increasing radioresistance in small cattle, subjected to ionizing radiation.

1 cl, 2 tbl, 1 ex

Description

The invention relates to the field of radiobiology and radiation medicine and can find application in the prevention and treatment of acute radiation sickness caused by ionizing radiation.

In the system of measures to eliminate the consequences of the use of nuclear weapons by a potential adversary, terrorist organizations, as well as in the destruction of industrial enterprises with a nuclear cycle in natural and man-made disasters, the implementation of protective measures in agricultural production occupies one of the central places. The likelihood of injury to farm animals by ionizing radiation remains and can lead to their mass death, which will lead to a significant reduction in herd reproduction and a decrease in the consumption of meat products by the population. In this regard, there is a need for therapeutic and protective measures to reduce the damaging effects of ionizing radiation on the body and increase animal survival.

One of the most serious pathologies requiring intensive care and prophylaxis is radiation injuries arising from acute external radiation exposure. One of the priorities of modern radiobiology is the development of new and improvement of known radioprotective drugs, as well as the experimental justification of new schemes for their use.

It is known to use curcumin or a derivative thereof, or a substance obtained from a Curcuma longa plant or another plant containing curcumin, as a means for the prevention and / or treatment of diseases accompanied by excessive formation of leukotrienes and / or prostaglandins (RF patent No. 2121832, IPC A61K 31 / 045, A61K 35/78, published on November 20, 1998).

The objective of the invention is to develop a method of increasing the radiation resistance of the organism of small cattle exposed to ionizing radiation.

The technical result is to increase the survival of animals through the use of curcumin at various doses received by small cattle with a live weight of 35-40 kg.

The method of increasing the radiation resistance of the organism of small cattle exposed to ionizing radiation is claimed, which consists in using curcumin in an amount of 3.125-3.47 mg of pure curcumin per 1 kg of live weight, administered intramuscularly at a dose of 10.0 cm ³ through 0.5- 1.0 hour after irradiation, at a value of 4.0-5.0 Gy of the absorbed dose, and intramuscularly at a dose of 10.0 cm ³ 0.5-1.0 hours after irradiation and additionally at a dose of 10.0 cm ³ per 3rd and 5th day after irradiation, with a value of 5.0-6.0 Gy of the absorbed dose.

The task is to study the effect of curcumin on the body of small cattle exposed to ionizing radiation.

The purpose of the study was to evaluate the radioprotective effect of 1,7-bis (4-hydroxy-3-methoxy-phenyl -) - 1,6-heptadiene-3,5-dione, and to determine toxicity. Also during the experiment, the general picture of the blood, the content of the “stress hormone” cortisol, the state of the antioxidant system of the body were investigated.

Curcuma longa (Curcuma longa L.) comes from East India and Vietnam. Since time immemorial, it has been widely cultivated throughout tropical Asia. Turmeric rhizome is used for food and medical purposes. When dried, the root turns into a “stone”, glistens in the section, is very dense, drowns in water. Raw turmeric contains from 0.3 to 5.4% curcumin.

Curcumin - a pigment obtained from crushed and dried turmeric root, is a polyphenol with the chemical formula: C ₂₁ H ₂₀ O ₆ .

Molar mass 368.38 g. Melting point 178 ° C. The color of curcumin is orange yellow. Curcumin is insoluble in water, but readily soluble in alcohol and ether. In solutions of mineral acids, curcumin does not change color; in alkalis it dissolves with the appearance of a red-brown color.

Curcumin is known for its antioxidant, antitumor, anti-amyloid, and anti-inflammatory properties. Its anti-cancer effect is the ability to cause the natural death of a cancer cell without cytotoxic effects on healthy cells.

A characteristic feature of curcumin is its ability to dye yellow not only animals, but also plant fibers, without etching. In this regard, he presents an analogy with artificial organic azo dyes.

Dye from turmeric root is obtained by extracting turmeric root powder with petroleum ether and then with alcohol. The resulting alcoholic extract is a yellow natural dye. Turmeric root alcohol extract can be concentrated to the required dry and coloring matter content.

According to radiation intelligence conducted by specialists of the radiation, chemical and biological defense forces of the RF Armed Forces, military medical service of the RF Armed Forces, the Ministry of Emergencies, radiologists of the state veterinary service, FMBA, the levels of external exposure on the ground are determined. Based on the data obtained, the severity of animal damage and their survival are predicted. For the treatment of radiation sickness, a 5% solution of curcumin is used.

The inventive method is as follows. Before use, a 5% solution of curcumin is diluted in a sterile vial with saline in a ratio of 1: 3 (to a concentration of 1.25%), thoroughly mixed until completely dissolved. Close with a rubber stopper. Before taking the drug, the cork is wiped with a cotton swab (napkin) soaked in ethyl alcohol or another antiseptic, then punctured with a syringe needle. The amount of recruited curcumin solution is 10.0 cm ³ . The volume of the drug administered is calculated for animals weighing 35-40 kg. The amount of drug administered is 3.0-3.5 mg of pure curcumin per 1 kg of live weight. Before administration, by carefully pressing the syringe with your thumb on the piston, air is removed from the needle until a few drops of the drug appear. The animal is fixed. The injection site is treated with a cotton swab of ethyl alcohol or another antiseptic. The drug is administered to animals intramuscularly.

Depending on the severity of the developing pathological process, the curcumin solution administration schedule shown in table 1 is used.

Animals with a mild degree of damage (1.0-2.0 Gy) create good zoo-hygienic conditions, feeding improves, and do not need treatment.

With an average degree of damage (4.0 Gy), 10.0 cm ³ of curcumin solution is intramuscularly administered 0.5-1 hours after irradiation. The survival rate of animals in this case is up to 100%.

In severe cases of damage (5.0-6.0 Gy), 10.0 cm ³ of curcumin solution is intramuscularly administered 0.5-1.0 hours after irradiation and additionally at a dose of 10.0 cm ³ for 3rd and 5th e day. The survival rate of animals in this case is up to 80%.

The effectiveness of the radioprotective effect of curcumin depends on the time of its use after irradiation. The sooner the drug is used after irradiation, the higher its radioprotective effect.

Studies of the radioprotective properties of curcumin were carried out on sheep of the Romanovskaya breed, 18–20 months of age, with an average live weight of 35.0–40.0 kg. The animals were fed with hay, barley, oats with free access to water.

External sheep irradiation was simulated using the Panorama gamma-ray system with a cesium source. The radiation power was 4.3 R / min (0.043 Gy / min). The acute course of radiation sickness of moderate and severe degree of damage was achieved by general uniform exposure of sheep in doses of 4.0 Gy, 6.0 Gy. The radioprotective effect of 5% curcumin was studied. Before use, a 5% "mother" curcumin solution was diluted with saline in a ratio of 1: 3 (up to 1.25% concentration). The drug was administered intramuscularly at a dose of 10.0 cm ³ 15-20 minutes after irradiation. The amount of the drug administered was 3.0-3.5 mg of pure curcumin per 1 kg of live weight. Depending on the severity of acute radiation injury, an additional intramuscular injection of curcumin in a dose of 10.0 cm ^{3 was used} on the 3rd, 5th day. Groups of animals were formed:

1) control of radiation in a dose of 4.0 Gy - 2 sheep;

2) the introduction of curcumin in 15-20 minutes after irradiation in a dose of 4.0 Gy - 5 sheep;

3) the introduction of curcumin in 15-20 minutes after irradiation in a dose of 6.0 Gy and additionally on the 3rd, 5th day - 5 sheep;

4) biological control - 2 sheep.

Radioprotective efficacy of the drug was evaluated by 50-day animal survival, clinical, morpho-biochemical parameters and the level of cortisol in the blood.

The survival results of sheep irradiated in doses of 4.0 Gy and 6.0 Gy are presented in table 2.

The test sheep were monitored for 50 days. Pathological autopsy was performed in fallen animals.

The results of monitoring sheep showed that radiation sickness in group 1 proceeded in a severe form. The period of primary reactions was manifested from the moment of irradiation and lasted up to 2-3 days. This period was characterized by a change in the functions of the nervous system - initially in the form of a kind of excitement, and then oppression and general weakness. Sheep's appetite worsened, there were phenomena of cardiovascular failure - heart rhythm disturbance (tachycardia), the appearance of shortness of breath. In 1-2 days after irradiation, an increase in body temperature by 0.7-0.8 ° C was observed. The mucous membranes are hyperemic, cyanotic.

On the 7-8th day, the animals showed a disturbance in the function of the gastrointestinal tract (diarrhea mixed with blood and mucus in the feces). On the part of the respiratory system, shortness of breath, nosebleeds, wheezing, hemorrhages on the mucous membranes were noted. In animals, hair (hair removal) began to fall out in the neck and sacrum.

On 10-15 days after irradiation, the noted signs of radiation sickness progressed. Inhibition of general condition, adynamia, loss of appetite, refusal of feed, weight loss, and hair removal were observed. The skin is dry, elasticity is reduced. The pulse is rapid, weak filling. On the mucous membranes of the oral cavity hemorrhage. Difficulty breathing, shortness of breath, cough. One sheep developed pneumonia. Disorders of the gastrointestinal tract (diarrhea mixed with blood and mucus in the feces).

Animals of the control group died on days 20-21 after irradiation, and a sheep from group 3 died on day 25.

An autopsy revealed: hemorrhagic diathesis - hemorrhages in the skin, subcutaneous tissue, mucous membranes, lung parenchyma (hemorrhagic pneumonia), kidneys, liver, spleen, lymph nodes; necrobiotic destructive processes in the stomach and intestines. The bone marrow is juicy, red, fluid in consistency. The spleen is reduced, wrinkled. Fatty degeneration and focal necrosis of the liver. Dystrophic changes in the kidneys. Fatty degeneration of the myocardium.

In irradiated sheep of groups 2 and 3, changes (radio modification) of the course of acute radiation sickness were observed, which manifested itself in a decrease in the severity of clinical manifestations, i.e. increasing the radiation resistance of the sheep organism to the action of gamma radiation. The study of hematological parameters of peripheral blood and the cortisol content in the blood serum of sheep was performed on 1, 3, 5, 7, 10, 20, 30, 50 days after irradiation.

The difference in the acute radiation sickness of the experimental and control groups was due to the use of curcumin, which caused the rearrangement of the body, exerting a protective effect on the animal blood system, reducing the level of activity of lipid peroxidation processes (for example, a study in mice), reducing the total concentration of cortisol in the blood .

Claims (1)

A method of increasing the radiation resistance of an organism of small cattle subjected to ionizing radiation, which consists in the use of curcumin in an amount of 3.125-3.47 mg of pure curcumin per 1 kg of live weight, administered intramuscularly at a dose of 10.0 cm ³ through 0.5-1 , 0 h after irradiation, at a value of 4.0-5.0 Gy of the absorbed dose, and intramuscularly at a dose of 10.0 cm ³ 0.5-1.0 h after irradiation and additionally at a dose of 10.0 cm ³ per 3 and the 5th day after irradiation, with a value of 5.0-6.0 Gy of the absorbed dose.