RU2677472C1 - Antigypoxic agent - Google Patents

Abstract

FIELD: pharmaceuticals.SUBSTANCE: invention relates to the pharmaceutical industry, namely to the antihypoxic agent. Use of fir oil, obtained from the branch of Siberian fir, as an antihypoxic agent.EFFECT: above mentioned agent exhibits pronounced antihypoxic properties and has low toxicity.1 cl, 1 dwg, 1 tbl

Description

The invention relates to the field of medicine, veterinary medicine, pharmacy and pharmacology, and in particular to an antihypoxic agent that can be used for the prevention and treatment of diseases of people and animals accompanied by hypoxia.

EFFECT: antihypoxic properties of fir oil, previously undescribed, are revealed, which suggests the possibility of its use in medicine as an antihypoxic agent.

Hypoxia is a condition in which the intake of O ₂ in a cell or its use in it is insufficient to maintain optimal cell metabolism.

At the heart of any form of hypoxia is a metabolic disorder due to oxygen deficiency, which leads to metabolic and structural changes in various organs and tissues. Hypoxia is accompanied by the development of acidosis, activation of free radical oxidation and damage to biological membranes. Violation of homeostasis due to hypoxia poses a challenge for pharmacology to develop tools that normalize hypoxic conditions.

Currently known antihypoxic drugs such as Mildronate, Olifen. The drugs "Mildronate" and "Olifen" in addition to antihypoxic properties have a vasodilating and hypotensive effect, as well as other side effects [Reference]. The preparations "Mildronate" and "Olifen" are used in the form of tablet dosage forms and injections [Reference]. The active ingredients of the Mildronate and Olifen preparations are the products of organic synthesis, the toxicity of the drugs is LD ₅₀ 1000 mg / kg by the oral route of administration [Elena Antonenkova // Comparative pharmacological characteristics of antihypoxants of olifen and amtizol as means of pathogenetic treatment of tuberculosis / Abstract of the dissertation, 1996 , 20 pp. // http://medical-diss.com/medicina/sravnitelnaya-armakologicheskaya-harakteristika-antigipoksantov-olifena-i-amtizola-kak-sredstv-patogeneticheskoy-terapii].

The objective of the invention is the creation of antihypoxic agents with low toxicity, expanding the arsenal of antihypoxic agents.

The problem is solved by the use of fir oil obtained from the foot of Siberian fir, as an antihypoxic agent.

Fir oil is a clear, colorless or light yellow liquid with a characteristic tarry odor.

Fir oil is used as an antimicrobial and biologically active component in medical and cosmetic preparations, as a flavoring additive in household chemicals, perfumes and wine and vodka products.

The composition of fir oil includes camphene, borneol, bornyl acetate, alpha and beta pinene, dipentene, etc., in total more than 35 biologically active substances, resins, ascorbic, abietic, neo-abietic acids, tocopherol (vitamin E), tannins, phytoncides.

Fir oil is obtained by the method of water-steam extraction from the foot of a Siberian fir.

A new appointment of fir oil became possible due to the antihypoxic activity found in it.

The invention is illustrated by the drawing, which shows the increase in the duration of animals in the model of antihypoxic hypoxia with hypercapnia under the action of fir oil.

The antihypoxic properties of fir oil are studied in a model of hypoxic hypoxia with hypercapnia. The method used is standardized and recommended for the detection of antihypoxic properties of new drugs [Mironov A.N. Guidelines for preclinical studies of drugs. Part one. - M .: Grif and K, 2012. - 944 p.].

The experiments were performed on white mice (males) of the CD1 line weighing from 35 to 41.7 grams. Animals were divided into two groups of 6. Animals were used in the experiment on an empty stomach.

The intact group was placed in vessels with a ground stopper with a capacity of 250 ml. Additional sealing was carried out using Vaseline and Parafilm adhesive tape. The time of death of animals was recorded. The death criterion was the cessation of respiratory and motor activity.

Control group. We used intact animals that were placed in vessels with a ground stopper with a capacity of 250 ml. Visually recorded the time of death of animals. The death criterion was the cessation of respiratory and motor activity.

The reference standard was not used, since there are no analogues in structure with antihypoxic properties.

Experimental group (fir oil). Based on 0.04 ml of oil per chamber of 0.16 m ³ . Fir oil was poured into a container made of heat-resistant glass, placed in a boiling water bath and placed in a chamber for 30 minutes. After 30 minutes, the animals were removed from the chamber and placed in vessels with a ground stopper with a capacity of 250 ml. Visually recorded the time of death of animals. The death criterion was the cessation of respiratory and motor activity.

In the table and in FIG. The increase in the duration of animals in the model of antihypoxic hypoxia with hypercapnia under the influence of fir oil is given.

* - p <0.05 in relation to the control

Studies have shown the presence of antihypoxic properties of fir oil. The new antihypoxic agent is planned to be used as an inhalation agent, which is an advantage of the drug, since the inhalation route of administration provides maximum bioavailability and ease of use [V.N. Kvyatkovsky / The use of oxygen and aerosols for group treatment of animals with bronchopneumonia / Recommendations // Ed. Kaynar, Semipalatinsk, 1986 - 6 pp.] [V.S. Yarn, 1972].

Fir oil is practically non-toxic, with the oral route of administration, the toxicity of fir oil is more than 5000 mg / kg [Anthony C. Dweck // Toxicology of essential oils reviewed / Personal care / - No. 9, 2009. - C. 65-77].

The invention is planned to be used in the manufacture of medical devices, such as protective medical masks, dressings, individual inhalers, oxygen concentrators and other devices used for persons with diseases accompanied by hypoxia, such as coronary heart disease, inflammatory diseases of the upper respiratory tract, and also as active substance in medical preparations used to treat fungal diseases of the skin and its appendages.

Claims (1)

The use of fir oil obtained from the feet of Siberian fir as an antihypoxic agent.

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