RU2049451C1 - Method for treating the cases of strabismus and ambliopia and device for gradually switching off the eyes from vision process - Google Patents

Abstract

FIELD: medicine; ophthalmology. SUBSTANCE: method involves smoothly changing in turn occluder transparency in automatic mode in the frequency range of 0.15-0.25 Hz so that one of them has maximum transparency when the other one is under condition of maximum darkening. The frequency of 0.25 Hz is set when looking at the objects from close distance, whereas 0.15-0.20 Hz is set when looking at the object from long distance. The device has means having variable transparency, head position gage and control unit. The means having variable transparence has two occluders left one and right one. Control unit has master oscillator of rectangular signals connected in series and having frequency ranges being 64 and 0.3-0.5 Hz and phase shifter with two paraphase outputs forming two channels each of which has rectangular signals converter with frequencies being 0.15-0.25 Hz transforming the signals into triangular ones, modulator and buffer amplifier. Each occluder is connected to the corresponding buffer amplifier. Control unit input is connected to power supply source through a stabilizer. The master oscillator can increase frequency from 0.3-0.4 Hz to 0.5 Hz on inclining head of patient. The occluders are manufactured based on liquid crystal matrixes of 15-30 cm² area. EFFECT: enhanced effectiveness of treatment. 6 cl, 3 dwg

Description

 The invention relates to medicine, namely to ophthalmology, and is intended for the treatment of strabismus and amblyopia.

 One of the negative reasons in the treatment of strabismus and amblyopia is that the visual system operates in a monocular mode. In this case, one of the visual tracts dominates right or left. In the presence of diplopia, inhibition of one of them occurs, which is determined by the increase in amblyopia. Fixing itself in time, the inhibitory process acquires a new quality and becomes persistent (Handbook of Pediatric Ophthalmology. Ed. By E.S. Avetisov. M. Medicine, 1987, p. 203).

 A necessary condition for the development of binocular vision is the correct formation of temporary excitatory inhibitory processes of visual perception. This process is called the phenomenon of competition of visual fields (FSPZ). The latter is formed against the background of a normally functioning central and peripheral visual nervous system. The main sign of the presence of FSPZ is the alternation of perception of the right or left eye. Its frequency normally ranges from 8 to 12 times in 1 min (0.15-0.20 Hz). It depends on the condition of the person, attention, time of day, age. It is also known that the cyclical nature of visual perception does not change from the conditions of haploscopy. Moreover, its average frequency when looking into the distance is 10 times, and near 12 times per minute. The law of change in perception corresponds to a sinusoidal one.

 Clinical observations show that with strabismus and amblyopia, FSPZ is significantly upset. Moreover, the higher the degree of amblyopia and strabismus, the less often it is possible to detect PHSP in patients. The most commonly used methods of treating this pathology (penalization, occlusion, overexposure) artificially causes monocular perception and thereby greater dissociation of the optic tracts. This leads to a violation of the correct formation of FSW or even its suppression.

 In practice, in the treatment of amblyopia and strabismus, a prerequisite is used in which, if you close the better seeing eye with an occluder, then there is an incentive to improve function worse than the seeing eye. Based on this principle, many methods of treating amblyopia are based, where the better seeing eye is "fined". In this case, the effect is only on one eye. The impact on both eyes with occluders was not applied. However, a method is known (penalization), where both eyes work alternately. Moreover, against the background of disaccomodation and ciploplegia, one eye can see well in the distance, and the other near. The frequency of alternating eye work is not regulated, and the presence of disaccomodation leads to a monolateral character of perception. As a result of the separation of eye functions, a violation of the natural binocular perception occurs, which is a negative point in the treatment of this pathology.

 A known method of restoring bifoveolar fusion (ed. St. N 1463286, class A 61 F 9/00, 1985), which consists in presenting the object to the better seeing eye through a filter that reduces vision of the better seeing eye until the functional inequality of both eyes is eliminated. The method has an inherent lack of constant inhibition of one of half of the visual analyzer.

 There is also a method of restoring binocular vision (ed. St. USSR N 1346152, class A 61 F 9/00, 1985), in which on a synaptophore without presentation of objects blinking illumination of the eye with lower vision is carried out when illuminating the other eye for 10- 15 minutes in glasses with filters of complementary colors (red-green) at an objective angle of squint.

 In both methods, a synaptophor is used, which violates the natural relationships in the visual system, by separating them. The synaptophor frequency, according to the passport, cannot be lower than 2 Hz, which is an order of magnitude higher than the frequency of the FSPZ.

 Methods of treatment that can cause the formation of FSPZ can be implemented on the basis of occluders with varying transparency or devices that use a change in the illumination of the object. Moreover, for the correct formation of binocular vision, it is necessary to exclude the separation of visual fields.

 Known occluders that alter light transmission. Their main application is associated with the protection of the eyes from powerful light radiation. However, the impossibility of their use in the treatment of strabismus and amblyopia lies in the fact that they have high speed and, as a rule, simultaneously reduce light transmission in both eyes. Similar properties are possessed by devices for changing the illumination of the eyes of drivers of vehicles, where both eyes overlap simultaneously.

 Closest to the proposed method is an occluder that turns off the eye from the act of vision [1] The occluder consists of a spiral photocline, a frame.

 The main disadvantages of the occluor are as follows: it cannot be used for smooth adjustment of transparency, since the occluder has rectangular frames, which suggests four degrees of change in the transparency of the occluder; the occluder cannot automatically adjust the light transmission; the occluder is set in one eye.

 A device is known, which is an occluder (ed. St. N 207340), consisting of an eye cover, crossed polaroids placed in front of one eye.

 Closest to the proposed device is a gradual shutdown of the eye from the act of vision, consisting of an occluder that covers both eyes and a control unit. The device works in such a way that the signal from the control unit completely blocks the light transmission through the occluder, made on the basis of LC (liquid crystal cell) [2]. The device has a predetermined main function: quick shutdown of the eyes of both eyes. The disadvantages of the device are as follows: the use of one occluder, overlapping both eyes; the impossibility of changing the transparency of the occluder in automatic mode. In the device, the transparency of the occluder changes from the position of the subject's eyes and is regulated by the will of the latter; high speed switching occluder 10-20 s; the impossibility of alternating exposure to each eye.

 Thus, from the known methods and devices, there is no method that would allow the phenomenon of competition of visual fields in patients with strabismus and amblyopia to develop, which can be formed by alternating occlusion of the eyes with a frequency close to the frequency of FSPZ.

 The technical result from the use of the invention is the development of a physiological phenomenon of competition of the visual fields of patients with strabismus and amblyopia.

 This is achieved by the fact that both eyes are subjected to occlusion at the same time, while alternately smoothly automatically changing the transparency of the occluders with a frequency of 0.15-0.25 Hz so that at the time of maximum dimming of one of them, the other has maximum transparency, and when viewing objects on close range set the frequency of 0.2-0.25 Hz, and when viewing objects at a long distance of 0.15-0.20 Hz.

A device that implements a gradual shutdown of the eyes from the act of vision, contains a tool with varying transparency, made in the form of two occluders, right and left, a control unit consisting of a series-connected generator, rectangular signals with a frequency of 64 and 0.3-0.5 Hz and phase shifters with two paraphase outputs, forming two channels, each of which consists of a series-connected converter of rectangular signals with a frequency of 0.15-0.25 Hz, in a triangle, a modulator and a buffer force eating, while each occluder is connected to a corresponding buffer amplifier, the input of the control unit is connected through a stabilizer to a power source, and the master oscillator is configured to increase the frequency from 0.2-0.4 to 0.5 Hz when the patient's head is tilted, and the occluders made on the basis of liquid crystal matrices with an area of 15-30 cm ² .

The proposed method is described graphically (Fig. 1). The time is plotted on the X axis, and the degree of transparency of the occluders on the Y axis. The X axis has two meanings: X _{1 is the} transparency of the right, and X _{2 is the} transparency of the left occluder. The transparency of the occluders is 180 ° shifted relative to each other by ^a sinusoidal relationship. The frequency of the transparency change is in the range from 0.15 to 0.25 Hz, which is expressed in the shortening or lengthening of the period (not shown). Thus, at the time of maximum dimming of one occluder, the other has minimal dimming (maximum transparency).

 The main objective of the device is a smooth and alternating change in the transparency of the occluders. Smoothness is a necessary condition for normal psycho-physiological perception with the act of binocular vision. A sharp change in it leads to a violation of the patient’s attention and the development of inhibitory processes in the visual analyzer. This circumstance does not allow the efficient use of occluders with a sharp transitional characteristic of transparency change.

As occluders in the proposed device used liquid crystalline matrix. They consist of two transparent glasses between which there is a non-metallic liquid crystal. Inverted surfaces have conductive elements, and surfaces have polaroid properties. The area of each occluder is chosen so that it overlaps the field of view of the patient and can be fixed in a spectacle frame. Given this, the area of the matrices is 15-30 cm ² .

 For a smooth change in the transparency of liquid crystal matrices (LCM), the output control voltage on it must change according to a sinusoidal law. Since the LCD has a large inertia (0.1-0.5 s), it turned out that LCD control is possible from triangular signals. At the same time, the human eye does not notice a sharp change in the transparency of the occluder.

 LCD work in such a way that its dimming begins at a certain threshold supply voltage. The maximum dimming of the LCM occurs at a voltage of only a few percent more than the threshold, which is expressed in fractions of a volt. To uniformly darken the LCD and increase their service life, the control and reference voltages should be modulated higher than 0.15-0.25 Hz, for example, 30-100 Hz.

Thus, to achieve the technical result of the invention, occluders made on the basis of the LCD, it is necessary to control the signal of complex shape (Fig. 2). Where, on the X axis, time is plotted, and on the Y axis, the amplitude of the signal supplied to the occluders. At the same time, the signal of the left _{one is} shown along the X ₁ axis, and the right occluder along the X ₂ axis. The signals are shifted relative to each other at ¹⁸⁰ °, allowing smoothly and alternately change the transparency okklyudorov. The reference voltage (A-B) and the control voltage (O-A) are modulated by a higher voltage (Ф).

 A device implementing the method is shown in FIG. 3. It consists of two occluders: right 1 and left 1a, connected to the control unit 2. Block 2 consists of a generator 3 connected to converters of a rectangular signal into a triangular 5, which supplies pulses to modulators 6. Modulator 6 is connected, in turn, to the master oscillator 3. In addition, the outputs of the modulators 6 are connected to the buffer amplifiers 7, from the outputs of which the total signal is fed to the occluders 1 and 1a. The master oscillator 3 of the control unit is connected to the head position sensor 8. All nodes of the control unit 2 are fed through the stabilizer 9 from the power source 10.

 The purpose of the individual nodes of the device is as follows.

 The master oscillator 3 generates a rectangular signal with a frequency of 64 and 0.3-0.5 Hz. The first serves to modulate, and the second to form a triangular signal. The head position sensor 8, made on the basis of a resistive divider, controlling the generator 3, changes its frequency from 0.3 to 0.5 Hz. Thus, when the head of the patient is tilted, the frequency of the generator 3 increases. Depending on the purpose of the treatment, manual adjustment of this frequency in the range of 0.3-0.4 Hz is provided.

 The phase shifter 4 generates a direct and inverse signal of the occluders. It is built on the basis of a trigger with an output of which the frequency of 0.3-0.5 Hz is reduced by half.

A rectangular to triangular signal converter 5 is necessary to obtain a continuously rising and falling voltage of a triangular shape. EG characteristics determine the degree of change in the transparency of occluders 1 and 1a. Converter 5 is made on the basis of an integrator. Two triangular signal obtained shifted by ¹⁸⁰ ° and allow to alternately change the transparency okklyudorov.

 In modulators 6, a pulse signal with a frequency of 64 Hz is modulated by signals of a triangular shape with the output of the converters 5. The modulators are based on resistive dividers. Buffer amplifiers based on emitter repeaters coordinate the load (1, 1a) with the control unit 2.

 The power supply of the control unit 2 is carried out from the battery 10. This allows you to complete the entire design portable. Since the voltage on the battery is not constant, for the stable operation of the control unit 2, it is powered through the stabilizer 9. The stabilizer is made according to the compensation scheme with minimal power consumption.

 The technique for treating patients with amblyopia and strabismus is as follows. A patient is wearing a frame with occluders 1, 1a, to which a control unit 2, a stabilizer 9 and a power source 10 are connected. When wearing the frame, the occluders alternately darken, changing the visual perception of the patient's eyes. Depending on the form of the disease and the degree of amblyopia or strabismus, the time to wear frames with occluders is dosed, up to unlimited, which is determined by the effectiveness of the treatment.

Claims (6)

 1. A method of treating strabismus and amblyopia, including occlusion of the eye, characterized in that both eyes are subjected to occlusion at the same time, while alternately smoothly automatically changing the transparency of the occluders with a frequency of 0.15 0.25 Hz so that at the time of maximum dimming of one of them the other has maximum transparency.  2. The method according to claim 1, characterized in that when examining objects at close range, a frequency of 0.2 0.25 Hz is set.  3. The method according to claim 1, characterized in that when examining objects at a long distance, a frequency of 0.15 0.20 Hz is set.  4. Device for the gradual shutdown of the eyes from the act of vision, containing means with varying transparency, a head position sensor and a control unit, characterized in that the means with varying transparency is made in the form of two occluders, right and left, and the control unit consists of a serially connected master a rectangular signal generator with a frequency of 64 and 0.3 0.5 Hz and a phase shifter with two paraphase outputs, forming two channels, each of which consists of a straight-connected converter angular signals with a frequency of 0.15 0.25 Hz in a triangular, modulator and buffer amplifier, with each occluder connected to the corresponding buffer amplifier, and the input of the control unit connected through a stabilizer to a power source.  5. The device according to claim 4, characterized in that the master oscillator is configured to increase the frequency from 0.3 0.4 to 0.5 Hz when the patient's head is tilted. 6. The device according to claim 4, characterized in that the occluders are made on the basis of liquid crystal matrices with an area of 15-30 cm ² .

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