RU2533048C1 - Method for improving visual functions in high-degree refractive amblyopia - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves performing a cognitive modulation of visual acuity and an indirect percutaneous electrical stimulation. The cognitive modulation of visual acuity accompanies the optimal optical correction in the activation or relaxation mode generated by the Amblyotron hardware and software complex from a monocular access. That is combined with the alternative action of each eye for 15-20 minutes with the paired eye occluded. The electrical stimulation is generated by the ESOM microprocessor device. That involves using electrical current of 120-300 mcA, frequency of 15 to 30 Hz. The patient is exposed to a rectangular negative electrical pulse train. The exposure is preceded by the preliminary 3-minute adaptation of the patient in the mesotopic environment at 10-15 lux with the patient's eyes closed. An indifferent electrode is attached to a left finger or hand. An active electrode is alternatively applied to an upper eyelid. The exposure involves two 5-7-minute cycles. The exposure follows the sequence: an outer one-third of the right eye - an outer one-third of the left eye - an inner one-third of the right eye - an inner one-third of the left eye - a middle one-third of the right eye - a middle one-third of the left eye. The exposure is daily for 15 days.

EFFECT: improved visual acuity and stabilising it for 6-12 months by re-establishment of the retinal-cortical connections by activating neurons of the cortical visual centres.

2 ex

Description

The invention relates to ophthalmology, and in particular to a method for the treatment of refractive amblyopia of a high degree.

There is a method of treating amblyopia using low-intensity laser radiation (E.B. Anikina and others. Low-intensity laser technology in ophthalmology / Laser medicine. - 1997. - T. 1, issue 2, S. 2-9). Under the influence of laser radiation, a speckle structure is formed on the retina, which is a light stimulator. The advantage of this method is the use of a monochromatic light source with a wavelength of 620-650 nm, to which the cone apparatus of the eye is most sensitive. Since the coherent laser beam practically does not diverge, strictly local irritation of the central fossa of the retina is ensured and light scattering inside the eye is excluded. A clear speckle structure is created on the retina regardless of the state of the optical system of the eye: with any kind of ametropia, clouding of the eye, a narrow and dislocated pupil.

Despite this, this method does not take into account the individual frequency characteristics of the bioelectrical activity of the brain (alpha rhythm), the electrosensitivity and electrostability of the retina and optic nerve, which makes it ineffective, especially with a high degree of amblyopia. On average, an increase in visual acuity after a course of treatment occurs at 0.03-0.05. In addition, it is not physiological, since laser radiation in its physical characteristics and power is inadequate to the natural stimulus - light radiation. As a result, the possibility of a damaging effect on the retinal photoreceptors is not ruled out.

Currently, there is a treatment system for refractive amblyopia, which includes various methods of hardware exposure. However, treatment of refractive amblyopia, of a particularly high degree, takes several years and is often carried out without taking into account the individual characteristics of the patient's optic-nervous apparatus, not allowing to achieve high functional results. In this regard, the further development of new, more effective and optimal treatment methods for refractive amblyopia is very justified.

The objectives of the invention are to increase the effectiveness of treatment, reduce treatment time, achieve stabilization of visual functions, individualize and optimize the treatment process, eliminate the harmful effects of physical effects on the body.

The essence of the invention lies in the fact that the method of increasing visual functions with refractive amblyopia of high degree includes a session of cognitive modulation of visual acuity in the "activation" or "relaxation" mode on the hardware-software complex "Amblyotron" against the background of optimal optical correction, monocular with alternating work each eye with paired occlusion, 15-20 minutes per eye and indirect percutaneous electrical stimulation of the retina and optic nerve on the ESOM microprocessor device, with the establishment of an individual of the parameters of the stimulating current, namely, forces from 120 to 300 μA, frequencies from 15 to 30 Hz, a series of rectangular negative electric pulses in the burst mode, in mesopic conditions at 10-15 lux, with eyes closed, after a preliminary 3-minute adaptation of the patient , with the installation of an indifferent electrode on the finger or hand of the left hand, and the active one - by alternately applying to the upper eyelid in two cycles of 5-7 minutes in the following sequence: the outer third of the right eye - the outer third of the left - the inner third of the right go - the inner third of the left - the middle third of the right - the middle third of the left, daily, for 15 days.

The method is as follows: conduct treatment, including cognitive modulation of visual acuity and indirect percutaneous electrical stimulation of the retina and optic nerve. All two procedures are carried out sequentially one after another on the same day. Cognitive modulation of visual acuity is carried out on the hardware-software complex Amblyotron (USA). Treatment is carried out against the background of optimal optical correction, monocularly with alternating work of each eye with paired occlusion of 15-20 minutes for each eye. In patients with amblyopia on the background of mixed astigmatism, treatment is carried out in the "relaxation" state, and in patients with amblyopia on the background of hyperopia, hyperopic astigmatism - in the "activation" state.

During the procedure, the patient is presented on the monitor with a subject image in the “appearance” and “disappearance” modes, which are used as video materials (films, cartoons). The latter are selected taking into account the age and intelligence of the patient. During the procedure, an electroencephalogram from the electrodes located in the occipital and frontal region of the skull is recorded in the patient. Active electrodes are located in the occipital and frontal areas on the right, and the inactive electrode in the frontal on the left. The signal from the EEG amplifier is transmitted to a computer for real-time analysis of brain currents. The computer constantly calculates the total activity of the neurons of the visual cortex according to the EEG parameters and identifies the phase of amplification and attenuation of this activity by turning the video on and off. During daily repetitions of this procedure, the patient’s brain gradually forms new afferent reflex connections providing a higher level of visual functions due to the optimization of the functioning of the neurons of the visual cortex.

Immediately after the procedure for cognitive modulation of visual acuity, indirect percutaneous electrical stimulation of the retina and optic nerve is performed, which is carried out using the ECOM microprocessor device (Ufa). Before starting the procedure, in order to determine the individual parameters of the stimulating current, the electrical sensitivity of the visual analyzer is examined according to the thresholds of electrophosphenes (current strength), the critical frequency of their decrease and disappearance (current frequency) is determined. Depending on these indicators, a therapeutic stimulation mode is established: the current strength is from 120 to 300 μA, the frequency is 15-30 Hz. Electrical stimulation is carried out by a series of rectangular negative electrical impulses in the burst mode. Treatment is carried out in mesopic conditions at 10-15 lux after a preliminary 3-minute adaptation of the patient. The procedure is performed with eyes closed. An indifferent electrode is strengthened on a finger or left hand (depending on the age of the patient). The active electrode is superimposed on the upper eyelid in the following sequence: the outer third of the right eye - the outer third of the left - the inner third of the right - the inner third of the left - the middle third of the right - the middle third of the left. Repeat this procedure in two cycles of 5-7 minutes each.

The course of treatment consists of 15 daily sessions, each of which includes two procedures: cognitive modulation of visual acuity and indirect percutaneous electrical stimulation of the retina and optic nerve.

Example 1. Patient L., 5 years old. Diagnosis: Hypermetropia of the I degree of the right eye, III degree of the left. High degree refractive amblyopia of the left eye.

During an ophthalmological examination: the position of the eyes in the orbit is correct, the optical media are transparent; on the fundus without pathological changes.

Vis OD 0.7 with box 1.0; Vis OS 0.08 s 0.1 n / a.

ZOA 1.0 diopters.

Electrophysiological indicators: electrosensitivity - OD / OS 110/160 μA, electrical stability - OD / OS 31/24 Hz.

A treatment session was alternately conducted using the method of cognitive modulation of visual acuity and indirect percutaneous electrical stimulation of the retina and optic nerve. A session of cognitive modulation of visual acuity was performed monocularly in the left eye with occlusion of the right eye against the background of optimal optical correction (OS sph +4.5 diopters), in the “activation” mode, with a session duration of 15 minutes. Indirect percutaneous electrical stimulation was performed on the left eye with rectangular negative pulses in a burst mode in 6 series (in a series of 30 packs of 7 pulses each), with a current strength of 240 μA and a repetition rate of 18 Hz. The duration of the session is 7 minutes. The course consisted of 15 sessions held daily.

After 15 sessions: Vis OD 0.7 with box. 1.0; Vis OS 0.15 s 0.3 n / a /.

ZOA 3.0. Electrosensitivity - OD / OS 110/120 μA, lability - OD / OS 31/29 Hz.

Against the background of the treatment, no negative effects on the body were detected.

After 3-6-12 months: visual acuity, SIA and electrophysiological parameters remained the same.

Example 2. Child M., 8 years old. Diagnosis: Hypermetropia of the II degree of both eyes. Complex hyperopic astigmatism in both eyes. High degree refractive amblyopia in both eyes.

During an ophthalmological examination: the position of the eyes in the orbit is correct, the optical media are transparent; on the fundus without pathological changes.

Vis OD 0.1 n / a; Vis OS 0.15 n / a.

ZOA 1.0 diopters.

Electrophysiological indicators: electrosensitivity - OD / OS 140/160 μA, electrical stability - OD / OS 28/26 Hz.

A treatment session was alternately conducted using the method of cognitive modulation of visual acuity and indirect percutaneous electrical stimulation of the retina and optic nerve. A session of cognitive modulation of visual acuity was carried out against the background of optimal optical correction (OU sph + 1.25 diopters), monocularly with alternate work of each eye with paired occlusion of 15 minutes for each eye, in the “activation” mode. Indirect percutaneous electrical stimulation was performed with rectangular negative pulses in a burst mode of 6 series per eye (in a series of 30 packs of 7 pulses each), with an OD / OS current of 210/240 μA and an OD / OS repetition rate of 23/21 Hz. The duration of the session is 14 minutes. The course consisted of 15 sessions held daily.

After 15 sessions: Vis OD 0.3 s cor. 0.3; Vis OS 0.3 s 0.4 n / a /. ZOA 3.5. Electrosensitivity - OD / OS 100/110 μA, lability - OD / OS 30/30 Hz.

Against the background of the treatment, no negative effects on the body were detected.

After 3-6-12 months: visual acuity, SIA and electrophysiological parameters remained the same.

Thus, the method allows you to select the optimal treatment regimen taking into account the individual characteristics of the bioelectrical activity of the brain (alpha rhythm), electro-sensitivity and electro-stability of the retina and optic nerve; completely eliminate the harmful effects of treatment on the patient's body. In addition, the use of this combination of treatment methods allows for a relatively short time within 15 days to achieve an improvement in visual function. Moreover, the proposed method for a relatively long time stabilizes visual acuity, OA and electrophysiological parameters of amblyopic eyes.

The technical result achieved by using the proposed method is expressed in a rapid increase in visual functions due to the restoration of retino-cortical connections by activating neurons of the visual centers of the cerebral cortex, improving the conductivity of the optic nerve fibers, enhancing the plastic and adaptive properties of the retinal neural networks.

Claims (1)

A method of increasing visual functions in high-grade refractive amblyopia, including a session of cognitive modulation of visual acuity in the “activation” or “relaxation” mode on the “Amblyotron” hardware-software complex against the background of optimal optical correction, monocular, with alternating work of each eye with paired occlusion, 15-20 minutes for each eye and indirect percutaneous electrical stimulation of the retina and optic nerve on the ESOM microprocessor device, with the establishment of individual parameters of the stimulating current, namely, forces from 120 to 300 μA, frequencies from 15 to 30 Hz, a series of rectangular negative electrical impulses in burst mode, in mesopic conditions at 10-15 lux, with eyes closed, after a preliminary 3-minute adaptation of the patient, with the installation of an indifferent electrode on the finger or hand of the left hand, and the active electrode - alternately applying to the upper eyelid in two cycles of 5-7 minutes in the following sequence: the outer third of the right eye - the outer third of the left - the inner third of the right - the inner third of the left - with ednyaya third rule - the middle third of the left, every day, for 15 days.