RU2442551C2 - The means of precaution and healing of myopia - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: means refers to oculistics in particular . It can be used for precaution and healing of myopia. There held the course of exercises with the red glow simultaneously affecting two eyes for 2-3 minutes with the impulse length 2-8 sec. and shifting period 1 sec. Then the cycle of optical reflective exercises of 6-24 sec is applied. Between the cycles both eyes are affected by one impulse of green glow during 2-8 sec. The session ends with the affection on both eyes with the impulse of blue glow for 2-3 minutes of 2-8 sec length and shifting period 1 sec.

EFFECT: means allows to improve the functional state of the vision system, qualitatively improve the state of the ciliary muscle and prevent myopia progression.

1 tbl, 1 ex

Description

The invention relates to medicine, namely to the prevention and treatment of eye diseases.

Among the main adapting the human body to the influence of external factors, the most appropriate stimuli for the eyes are light and color, as well as movement (accommodation and vergence) due to the ciliary and oculomotor muscles. These factors along with genetic are of leading importance in the formation of refraction and the level of working capacity of the visual system.

A known method of quantum therapy of progressive myopia (3), based on the biorhythmic effect on the organ of vision of light quanta with energy corresponding to different wavelengths of low intensity (which is an analogue). For treatment, a spectral ophthalmic apparatus "ASO" is used, consisting of an adapter, an electrical unit and "glasses" with a blank back wall on which incandescent lamps are located. Light filters (red, green, blue, etc.) are placed between the lamp and the patient’s eye. During the treatment session, the patient should look through the color filters at the light bulbs alternately illuminated in the right and left eyepieces. The duration of the session is 8.5 minutes. The duration of light pulses is from 2 to 6 seconds. 3 sessions are conducted daily with different filters: the treatment course consists of 24 sessions. After color impulse therapy, both visual acuity and the volume of accommodation increase.

In addition to this “ASO” apparatus, for the prevention and treatment of diseases of the eyes, internal organs and the nervous system, other quantum therapy apparatuses are also used, such as ATsL-01 - “Strela”, “AMO-Atos” using the “Colororhythm” attachment, etc. (2, 4). In recent years, LEDs have been used as color emitters. Despite the variety of methods used, the main colors are red, green and blue. The effects of these colors of light on the visual system and the human body are different from each other. Obviously, this is due to the fact that color perception is associated with the function of the cone cells of the retina. There are three types of cones: “red”, “green” and “blue”, which contain different pigments and absorb light with different wavelengths. The energy beam of light is instantly transmitted to the regulatory centers of the brain: the pituitary, pineal gland, reticular formation, stem structures and the cerebral cortex. It was established that red color causes an increase in the formation of adrenaline, and green and blue - serotonin. Red color has a psychostimulating effect that activates reflex activity. The antidepressant effect of red color is especially important in asthenic conditions, in addition, it increases the sensitivity of retinal receptors and visual acuity.

Green color reduces emotional stress. In addition, removing vascular spasm, improves microcirculation, thereby increasing efficiency and accelerates recovery processes in the eyes, most effectively regulates the biorhythm of the visual analyzer.

Blue color causes sedative and muscle relaxant effects.

Moreover, in addition to color irritation of the macular region of the retina and stimulation of neurons in the visual structures of the brain, colorite therapy provides a training and, most importantly, fixing the main treatment effect (3).

Obviously, having these properties, quantum therapy can significantly enhance the effect of measures aimed directly at increasing the efficiency of the visual system as a whole and especially the accommodation-convergence apparatus in particular. Improving the supply of accommodation and convergence is the main goal of treatment and prophylactic measures for asthenopic syndrome and myopia. However, until now, each of these activities is carried out in isolation from each other and, therefore, is not effective enough. Moreover, the low effectiveness of existing methods of increasing the reserves of accommodation and convergence is due to the fact that the effect obtained as a result of the course of treatment is not fixed, respectively, the treatment results fall and after 3-6 months, repeated therapy is carried out.

There is also known a method of treating acquired myopia on the apparatus of the Visotronic ophthalmomyotomy-relaxator adopted as a prototype (1). The method consists in the fact that in an automatic mode an optical reflex treatment of patients is carried out. The electronic control system regulates the sequence in which spherical, prismatic, cylindrical, prismatic, and sphere-prismatic lenses are fed into the eyepieces, the exposure time of the lens, and also the pause time for rest after each exercise. As a result of treatment, visual acuity improves, subjective correction decreases, asthenopia phenomena disappear and, most importantly, the reserve of relative accommodation increases. In addition, an improvement in accommodation patterns was recorded, indicating a qualitative improvement in the condition of the ciliary muscle and an increase in its performance.

However, the treatment method on the Visotronic apparatus, adopted as a prototype, despite the variety of lenses used, the possibility of dosing loads and rest periods, remains insufficiently effective, because the therapeutic effect of the ophthalmic and relaxation muscle trainer is based on optic reflex training of accommodative and oculomotor muscles without involvement in the training process retina, optic pathways and brain structures. Events to consolidate the results of the training are also not carried out. Before the start of reflex exercises, the preparation of the visual system for loads is not conducted. Pauses for rest are used irrationally, there are no actions aimed at additional relaxation and acceleration of the recovery processes of tired muscles.

To further increase the results of treatment, it is necessary to mobilize the ciliary and oculomotor muscles to the upcoming loads before exercise. During exercises, it is advisable to enhance microcirculation and the performance of not only muscles, but also light-perceiving, conducting and analyzing structures of the visual system. After the end of physical exercises, the maximum possible relaxation of tired muscles is necessary to accelerate metabolic and recovery processes. There is a need to consolidate the results of treatment.

The aim of the invention is to increase the effectiveness of the treatment method by creating a new algorithm due to the inclusion of color pulse therapy elements in the process of optical reflex exercises, taking into account the peculiarities of the influence of different colors on the visual system and the human body as a whole.

For this, the eyepieces of the Visotronic apparatus are equipped with LEDs that provide the treatment process with red, green and blue glow colors in a given sequence, intensity, duration and rhythms. The essence of the invention lies in the fact that the training algorithm is divided into three stages. At each stage, specific tasks are solved, thanks to which the effect obtained from the exercises is enhanced by preliminary, color-pulse cycles that accompany and end the treatment.

Each cycle solves specific problems that ensure the maximum possible effectiveness of the treatment process.

The first stage, using the red color of the glow, mobilizes the structures of the visual system for the upcoming physical exertion and increases the psychoemotional state of patients even before the onset of optic reflector training, which in turn contributes to the formation of a goal reflex and concentration of attention on the part of the patient for the quality performance of the upcoming exercises.

The second stage, using the green color of the glow in the process of optical reflex exercises, which is the main one, solves the problem of obtaining the maximum training effect, which largely depends on the quality of the exchange-recovery reactions that occur in the trained muscles, visual pathways and in the central nervous system.

The third stage, using the blue color of the glow, solves the problem of relaxation of muscle fibers tired from training and fixing the treatment results.

The treatment algorithm consisting of three stages is carried out by alternating cycles of red, green and blue glow pulses with optical reflex exercises in a certain sequence.

To mobilize the reserves of adaptation of the visual system, the first stage of treatment is a cycle of exercises consisting of red pulses of glow, carried out for 2-3 minutes. In automatic mode, the stimulus acts simultaneously on both eyes with a switching interval of 1 second. Moreover, the duration of the glow of each pulse is 2-8 seconds.

The second stage consists of alternating optical reflex exercises lasting 6-24 seconds and intervals during which a green glow pulse turns on simultaneously in both eyes for 2-8 seconds. The alternation of the two leading adaptive stimuli allows for therapeutic training with the highest possible efficiency.

The third stage consists of a cycle of exercises, consisting of pulses of blue glow, simultaneously in both eyes for 2-3 minutes, the time of each pulse is 2-8 seconds with a switching interval of 1 second. Due to the relaxing effect of blue on the visual and nervous systems, the results of treatment are increased and fixed.

As a result of 10 training sessions, asthenopic phenomena are removed, the spasm of the ciliary muscle is eliminated, the reserves of accommodation are normalized, and there is a significant increase in visual acuity not only with weak myopia, but also with moderate and even high myopia. The latter, in our opinion, is primarily associated with the activation of the retina, pathways and the central nervous system.

The overall outcome of the treatment is to increase the reserves of adaptation of the visual system, which is expressed by improving visual acuity, eliminating asthenopic phenomena, increasing the working capacity of the visual apparatus, and stabilizing myopia. In addition, a qualitative improvement in the condition of the ciliary muscle is objectively recorded on the accommodograms.

The method is as follows. Before treatment, an ophthalmological examination is carried out: visometry, refractometry, determination of accommodation reserves, ophthalmoscopy, biomicroscopy, echobiometry and accommodation.

The treatment is carried out on a modified device "Visotronic". The essence of the modification is to equip the eyepieces of the apparatus with three-color LEDs (RGB, full-color with a wavelength of 628/525/472 nm).

Training on the apparatus "Visotronic" is carried out in the far vision mode at a distance of 3-5 m from the tables to control visual acuity. The course of treatment consists of 10-15 sessions of 8-16 minutes each. The specific time of the session depends on the length of the glow cycles and the duration of the reflex exercises. As a result of the session, the patient receives almost simultaneously the therapeutic and training effect of two main adaptive stimuli, which can increase the effectiveness of each treatment session and the treatment course as a whole. Moreover, the achieved results are fixed in the post-course period for a longer period.

An example of a specific application of this method. Patient A., 19 years old, 1st year student of the university, noted a deterioration in visual acuity at the age of 16. However, he did not use corrective glasses; he had not previously undergone treatment courses. The last noticeable visual impairment was noted after the examination session. During treatment, the patient complained of heaviness in the eyes, blurred vision, periodic double vision. Visual acuity in the right eye was 0.3 s core. (-) 1.5 diopters = 1.0; on the left eye - 0.3 s core. (-) 1.5 diopters = 1.0. The length of the PZO was 24.2 mm in both eyes. The stock of accommodation was 1.5 diopters in the right eye and 2.0 diopters in the left eye. When accommodography revealed a change in indicators indicating fatigue of the ciliary muscle.

The diagnosis was determined: asthenopic syndrome, acquired myopia of a weak degree in both eyes.

A course of optic-reflex and color-impulse therapy on the modified Visotronic apparatus was prescribed. The treatment was carried out for two weeks, with the exception of weekends. The session began with a red glow exercise cycle for both eyes simultaneously for 2 minutes. Each pulse lasted 3 seconds with a switching interval of 1 second.

The cycle of optic reflex therapy consisted of 20 exercises for 18 sec. each combined with pulses of green glow. The green glow pulse between exercises lasted 4 seconds simultaneously in both eyes.

The treatment ended with a two-minute cycle of blue glow exercises. Each pulse lasted 3 seconds with a switching interval of 1 second.

After a preliminary course of treatment, asthenopic complaints were completely eliminated, visual acuity in the right eye was 0.6 s core. (-) 0.75 diopters = 1.0 and 0.8 s cor. (-) 0.5 diopters = 1.0 - on the left. Reserves of accommodation increased to 4.5 diopters in both eyes. During accommodation, a qualitative improvement in the condition of accommodation patterns was noted. In the observation period of up to 8 months, the progression of myopia was not observed.

In addition, another 24 patients aged 9 to 22 years with myopia up to 2.0 diopters were under observation. All of them underwent a course of treatment on the modified Visotronic apparatus.

The treatment results are presented in the table.

Functional indicators Before treatment After treatment Visual acuity (average) without correction 0.39 0.76 Accommodation stock (average) 2.3 diopters 4.7 diopters

As a result of treatment, an improvement in visual acuity was observed in 100% of patients. Moreover, visual acuity without correction improved by 0.15-0.7, an average of 0.37, accommodation reserves improved by 1.0-4.5 diopters, an average of 2.4 diopters. In 100% of cases, the elimination of asthenopic complaints and a change in accommodative indicators towards their improvement were noted.

Compared with known methods, the claimed method allows to eliminate asthenopic phenomena in a short time of treatment, significantly increase the functional state of the visual system and, most importantly, prevent the progression of myopia.

Information sources

1. Zharov V.V., Lyalin A.N., Zagumennov D.A. et al. Treatment of acquired myopia on the Viziotronic ophthalmic relaxation machine. // Eroshevsky readings. - Samara, 2007 .-- S.435-437.

2. Zverev V.A., Timofeev E.G., Golovanova T.P. Quantum therapy in ophthalmology: treatment of progressive myopia with ASO devices.// Vestn. ophthalmology. - 1997. - No. 2. - S. 39-40.

3. Kamenskikh T.I., Raygorodsky Yu.M., Myshkina E.Yu. and other Colorite therapy in the correction of psychosomatic disorders in patients with chronic ophthalmopathology. // Newspaper "Oculist". - 2007 (90). - No. 6. - S.22-23.

4. Teterina T.P. Color therapy as a method of preventing myopia in schoolchildren with psychosomatic disorders. // Ophthalmology at the turn of the Century, Anniversary Scientific. Conf., dedicated to the 80th anniversary of prof. V.V. Volkova: Sat. scientific stat. - St. Petersburg, 2001 .-- p. 95-96.

Claims (1)

A method for the prevention and treatment of myopia, which includes optical reflex exercises on the Visotronic apparatus and biorhythmic effects by light quanta of various lengths, characterized in that they initially carry out a red glow exercise cycle simultaneously on both eyes for 2-3 minutes with a pulse duration of 2- 8 s and a switching interval of 1 s, then a cycle of optical reflex exercises lasting 6-24 s each, between which they are exposed to a single green pulse of glow at the same time both eyes for 2-8 s, impact exercise session is complete cycle blue light pulses in both eyes for 2-3 min, the time of each pulse is 2-8 with a switching interval of 1 second.