RU2446780C1 - Method of treating partial optic nerve atrophy - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely ophthalmology, and aims at treating the patients suffering optic nerve atrophy. A peripheral division of analyser is medicated and exposed to percutaneous periorbital electrical stimulation. Infrared laser light at wave length 0.8-1.2 mcm, power 80-90 mWt and session duration 3-8 minutes is used at the distance of 3-5 cm from the eye.

EFFECT: method enables higher clinical effectiveness ensured by improved visual function and patient's state at reduced length of treatment.

3 ex

Description

The invention relates to medicine, namely to ophthalmology, and is proposed for the treatment of patients with optic atrophy.

Known methods of treating patients with partial atrophy of the optic nerves through the use of a wide range of traditional medications (vasodilators, anabolics, nootropics, antihypoxants, vitamin preparations, etc.). Moreover, the use of these funds is often empirical in nature.

The presence of electrodes in direct contact with the fibers of the optic nerve, made it possible to study various types of their bioelectric activity and the implementation of their direct electrical stimulation (ES).

A known method of percutaneous periorbital electrical stimulation (BSEC) of the retina and optic nerves, which is atraumatic, does not require surgical intervention, is suitable for use in patients of any age with diseases that affect not only the optic nerve, but also the retina. If necessary, repeated BSEC courses can be performed (see Shandurina A.N., Panin A.V. Clinical and physiological analysis of the method of periorbital percutaneous electrical stimulation of the affected nerves and retina // Human Physiology. 1990, No. 1, p.10- fourteen).

The disadvantages of this method of treatment are that they improve vision only in 2/3 of the cases of the observed patients, and the achieved positive effect, especially in patients whose cause of the disease is the inflammatory process, was not always stable. The use of traditional medications in combination with the BSEC did not significantly increase the effectiveness of treatment.

Closest to the claimed technical solution is a method of treating patients with partial atrophy of the optic nerves, including conducting drug therapy with percutaneous periorbital electrical stimulation of the peripheral section of the visual analyzer (see RF patent No. 2144875, IPC ⁶ A61F 9/00, A61N 1/36, A61K 35 / 78, published on January 20, 1999).

The disadvantages of the prototype is the treatment in combination with the invasive non-invasive stages of treatment, which creates an uncomfortable state of the patient during the procedures and slightly increases the effectiveness of the treatment, the high duration of the course of treatment.

The objective of the proposed technical solution is to increase the effectiveness of treatment, improve visual function and the condition of the patient, reduce the duration of treatment.

The technical result consists in increasing hemodynamic parameters in the vessels of the eye, i.e. improving blood supply to the tissues of the eye, especially its posterior segment.

The solution of the technical result is achieved by the fact that in the method of treating partial atrophy of the optic nerve (ChASN), including the impact on the peripheral section of the visual analyzer with drug therapy and percutaneous periorbital electrical stimulation, according to the invention, the impact on the peripheral section of the visual analyzer is carried out daily by radiation of an infrared laser with a wavelength of 0.8 wavelength -1.2 microns, with a power of 80-90 mW and a session duration of 3-8 minutes, at a distance of 3-5 cm from the eye.

This method will improve the effectiveness of treatment, improve the visual function and condition of the patient, reduce treatment time by 10-20 days.

A method for the treatment of partial atrophy of the optic nerve is implemented as follows.

The method was carried out against the background of standard drug treatment.

The impact on the peripheral section of the visual analyzer was carried out daily by laser infrared radiation with a wavelength of 0.8-1.2 μm, a power of 80-90 mW and a session duration of 3-8 minutes and in parallel with percutaneous electrical stimulation for 10 days. It was taken into account that patients of the morning chronotype were given stimulation sessions from 9.00 to 11.00, patients of the evening chronotype from 16.00 to 18.00, and patients of an independent chronotype regardless of the time of day. The emitter was installed at a distance of 3-5 cm from the eye.

A survey was conducted of three age groups: the first group - 18-40 years old, the second - 40-60 years old, the third - 60-80 years. The total number of patients was 120 people. Each subgroup consisted of 40 patients. In order to ensure an objective assessment of treatment, patients with the same initial visual acuity of 0.08-0.09 and emetropic refraction were observed. For each patient examined, the blood filling of the frontal and occipital lobes of the cerebral cortex, the electrical activity of different lobes of the cerebral cortex were determined. The criteria for the effectiveness of the laser and electrical stimulation courses were changes in visual acuity and visual fields after treatment, and blood flow and electrical activity of the frontal and occipital lobes of the brain, as well as hemodynamic parameters of the supraclavicular and orbit arteries. A comparative analysis showed that all age subgroups achieved an increase in visual acuity from 0.08-0.09 to 0.4-0.5.

Laser exposure to infrared radiation with a wavelength of 0.8-1.2 μm, a power of 80-90 mW and a session duration of 3-8 minutes prevents the morphological disintegration of nerve tissue, ensures the proliferation of oligodendrocytes and astrocytes and thereby the restoration of the myelin sheath. These processes, in turn, contribute to the preservation of the anatomical integrity of the nervous tissue and are a prerequisite for the functional restoration of nerve fibers. Laser radiation affects the electrical activity of nerve fibers, increasing it, which can be an important factor in unlocking anatomically integral, but functionally blocked fibers. An important result of laser exposure is the improvement of blood supply and oxygen supply to the brain, its occipital, frontal lobes, which represent the central departments of the visual analyzer, normalization of the bioelectric activity of these lobes of the cerebral cortex, and an increase in blood supply to all parts of the visual analyzer.

Examples.

1. Patient K.A., 42 years old, who was hospitalized from 04/12/08 to 04/23/08. Diagnosis: PRIVACY.

When visometry and examination on a refractometer visual acuity:

Right eye - 0.08,

Left eye - 0.06

The environments are transparent. The fundus of the eye: The optic disc is pale, the borders are clear, the arteries are narrowed, the veins are slightly dilated, full-blooded. Focal changes are not determined.

A course of laser therapy and percutaneous electrical stimulation was carried out taking into account the patient’s chronotype.

At discharge:

Right eye - 0.2,

Left eye - 0.3

2. Patient G.L., 49 years old, who was hospitalized from 10/12/08 to 10/24/08. Diagnosis: PRIVACY.

When visometry and examination on a refractometer visual acuity:

Right eye - 0.09,

Left eye - 0.08

The environments are transparent. The fundus of the eye: The optic disc is pale, the borders are clear, the arteries are narrowed, the veins are slightly dilated, full-blooded. Focal changes are not determined.

A course of laser therapy and percutaneous electrical stimulation was carried out taking into account the patient’s chronotype.

At discharge:

Right eye - 0.4

Left eye - 0.4

3. Patient B.R., 50 years old, who was hospitalized from 11/08/08 to 11/19/08. Diagnosis: PRIVACY.

When visometry and examination on a refractometer visual acuity:

Right eye - 0.08

Left Eye - 0.07

The environments are transparent. The fundus of the eye: The optic disc is pale, the borders are clear, the arteries are narrowed, the veins are slightly dilated, full-blooded. Focal changes are not determined.

A course of laser therapy and percutaneous electrical stimulation was carried out taking into account the patient’s chronotype.

At discharge: as a result of treatment, the spasm of accommodation was eliminated.

Right eye - 0.2

The left eye is 0.2.

The results obtained indicate that under the influence of laser and electrical stimulation, restoration processes in the cell membrane are activated, functionally suppressed optic nerve fibers restore their function, and the visual centers of the cerebral cortex are activated. Under the influence of laser exposure and percutaneous electrical stimulation of the peripheral section of the visual system, improvement and restoration of visual functions occurs. Not only vision improves, but also the general functional state, hand-eye coordination, the need for periodic hospitalization, the use of drug therapy is reduced, social rehabilitation takes place, the previously de-afferented visual cortex is released and its activating and regulatory influence on the functioning of the whole visual system is restored, and their parallel effect, taking into account the chronotype of patients, enhances the effectiveness of treatment.

Laser stimulation improved overall blood flow, especially in the brain, and with it the supply of the brain and visual analyzer, helped normalize their bioelectric activity.

Using the proposed method in comparison with the prototype will increase the effectiveness of treatment, improve the visual function and condition of the patient, reduce treatment time by 10-20 days, by mobilizing a wider range of recovery mechanisms that block different links of pathogenesis, have a direct stimulating effect simultaneously on the condition functions of the peripheral section of the visual analyzer, improving the blood supply to the eyeball, in particular the optic nerve, and the visual centers of the cortex and subcortex of the head marrow, improving trophism indirectly regulating effect on visual function.

Claims (1)

A method for the treatment of partial optic atrophy of the optic nerve, including exposure to the peripheral section of the visual analyzer with drug therapy and percutaneous periorbital electrical stimulation, characterized in that the impact on the peripheral section of the visual analyzer is carried out daily by radiation of an infrared laser with a wavelength of 0.8-1.2 μm, a power of 80- 90 mW and a session duration of 3-8 minutes, at a distance of 3-5 cm from the eye.