RU1832038C - Method of complications prophylaxis after laser therapy - Google Patents

Abstract

The invention relates to medicine, namely to the pharmacoprophylaxis of disorders due to the effects of physical factors. The purpose of the invention is to prevent an increase in antioxidant i deficiency in an experiment. For this, prior to the laser therapy session, 9- / 3-O-ribofuranosyl-hypoxanthine is introduced into the body as an antioxidant at a dose of 0.02 g / kg body weight. 1 tab.

Description

The invention relates to experimental medicine, namely cardiology, and can be used in scientific research and practice to study the problems associated with the antioxidant defense of the body when exposed to physical factors, in particular laser radiation.

The aim of the invention is to reduce the side effects arising from the use of an antioxidant.

The goal is achieved by the fact that in the method of correcting antioxidant deficiency, which consists in conducting laser irradiation, the preparation 9- / 3-D-ribofuranosyl-hypoxanthin is used before the procedure as an agent having antioxidant activity. This allows us to conclude that the claimed technical solution meets the criterion of novelty.

The features distinguishing the claimed technical solution from the prototype are not revealed in other technical solutions when studying this and related fields of medicine and, therefore, provide the claimed solution with the criterion of significant differences.

The method is carried out as follows.

Riboxin is administered intravenously at a dose of 0.02 g / kg body weight before starting the procedure. Then, a low-intensity helium-neon laser (GNL) is applied (a fiber with a power output of 25 MW is inserted into the rabbit's ear vein). For experimental verification of the claimed method, three groups of animals are used. The first group of rabbits was injected intravenously with riboxin, the second with physiological saline (I control), and the third was not administered anything (II control group). Then, all animals were given a 7-day course of GNL exposure from the L-208 apparatus. The results obtained are presented in the table.

60 rabbits, chinchilla breeds with an average weight of 2.5 ± 0.2 kg, were used for the experimental study. Before the experiment, all animals were under conditions of physical inactivity, which causes antioxidant deficiency (4, 5. 6), for 30 days. Then, start

SO | CJ Yu

R

with

00

From the 31st day, every day for 7 days, the rabbits were exposed to a laser that has the ability to enhance antioxidant deficiency in the 5-7th GNL irradiation procedure (1). Rabbits of the first group were injected with riboxin at the rate of 0.02 g / kg body weight, against the background of which GNL was exposed for 25 minutes. Animals of the second group underwent a 25-minute exposure to GNL against the background of the corresponding amount of ml / kg body weight of physiological solution. Rabbits of the third group were exposed only to GNL.

Before and after the course of exposure to GNL in blood plasma taken from the ear vein, antioxidant activity (ceru-plasmin-CP, a-tocopherol-a-TF, vitamin A) and lipid peroxidation (POL) - malondialdehyde (MDA) were determined )

The table shows that the effect of GNL on the background of riboxin does not cause a decrease

0

5

0

antioxidant indices (" -TF & A) and increased LPO (MDA).

The results of experimental studies showed the possibility of using riboxin to correct antioxidant deficiency during laser therapy.

- The use of riboxin prevents an increase in antioxidant deficiency during laser therapy.

The proposed method for the correction of antioxidant deficiency was developed at the Department of Cardiology of the Kaunas Medical Academy.

Claims (1)

The claims A method for the prevention of complications of laser therapy, including the administration of antioxidant agents, characterized in that, in order to prevent an increase in antioxidant deficiency in the experiment, 9- / -0-ribofuranosyl-hyxanthine is administered before the start of the treatment procedure at a dose of 0.02 g / kg body weight. Dynamics of AOS and lipid peroxidation index under conditions of physical inactivity when exposed to low-intensity helium-neon radiation