RU2173119C1 - Method of binocular vision recovery - Google Patents

Abstract

FIELD: medicine, particularly, ophthalmology. SUBSTANCE: use is made of liquid-crystalline spectacles with possible presentation of image simultaneously to two eyes. Image is presented successively: monocular for one eye, binocular, monocular for other eye. In process of treatment, duration of image monocular presentation is reduced. EFFECT: development of fusion reflex, reflex of bifixation. 3 cl

Description

 The invention relates to ophthalmology and is intended to restore binocular vision.

 Known orthoptic methods for restoring binocular vision and devices for their implementation are based on the principle of haploscopy: separation of the visual fields of both eyes and without separation of the visual fields. Various methods of implementing this principle are used, such as mechanical separation of visual fields, phase presentation of images with a flicker frequency of 2-8 flickers per second (synoptophores) [3, 7], color (color anaglyphs) [1], polaroid separation of visual fields, raster separation of visual fields (Bagolini glass), (Lang test) [2, 7], as well as the merging of double images without separation of visual fields. There are known diploptic methods for restoring binocular vision (methods for restoring the reflex of bifixation), which maximally bring the treatment conditions closer to natural conditions [1, 3, 4, 5]. However, all of the above methods do not allow the development of the fusion reflex with constant diplopia and (or) when image fusion is completely absent.

 The closest analogue of the proposed method is a method for the study and restoration of binocular vision using liquid crystal glasses (RU 2133103, 07.20.99). The method consists in presenting images to one or the other eye with a switching frequency of 50 Hz, which is synchronized through a computer with the supply of a visual signal from the TV monitor screen to one or the other eye. This has a positive effect in the normal fusion reflex. The disadvantage of this method is the absence of a visual signal in the visual system when both eyes are open, due to the design of the liquid crystal glasses. All this leads to the fact that this method cannot be used with pathological constant diplopia, when there is no fusion reflex, as well as with binocular vision impairment in children at an early age (2-7 years).

 Increasing the possibility of developing a fusional reflex and restoring binocular vision with constant diplopia, as well as expanding the possibility of restoring the binocular fixation reflex in children at an early age and restoring binocular vision with functional impairments, can be achieved by using liquid crystal glasses of a different design, which contains not only monocular image presentations to one, then to another eye, but also binocular presentation of images. These tasks can be achieved with the help of liquid crystal glasses (proposed by P. Chaumot [8], an orthoptist from France), which were previously used to study binocular vision when presenting images without dividing the field of view and using a mirror separator of the field of view and which were not used to restore the mechanism of bifixation in children at an early age and in cases of impaired fusion reflex with constant diplopia.

 The technical result of the proposed method consists in the gradual formation of a fusional reflex, and then the education reflex bifixation. The technical result is achieved by sequential alternation of a monocular or binocular visual signal to the retina.

 When the method is implemented, the visual signals are alternated to the centers of the visual system, first a monocular visual signal comes through one eye, then a binocular signal comes in, then a monocular visual signal comes in through the other eye, and then the binocular signal comes in again. So, the whole cycle of actions is rhythmically repeated, i.e. there should be an alternation of monocular or binocular effects on the visual system. Thus, neurons of the visual centers are mobilized, responding to the arrival of both monocular and binocular signals, and then binocular neurons are gradually included in the work of the visual system.

 This alternation of the arrival of the visual signal can be carried out using liquid crystal glasses connected to the electronic control unit, which allows you to change the duration of the monocular presentation of the image for each eye in a continuously adjustable rhythm, as well as the duration of the binocular presentation of the visual signal. In other words, the control unit creates conditions when the glass is transparent - in front of the right eye, and in front of the left eye - the glass is opaque and the visual signal enters only the right eye, then both glasses are transparent and the visual signal enters both eyes, then the glass is transparent in front of the left eye and in front of the right eye the glass is opaque and the visual signal enters only the left eye, then both glasses are transparent, the visual signal enters both eyes, and again the cycle of this alternation is repeated.

The essence of the method consists in the cyclical alternation of the following methods of visual signal during the course of treatment:
- monocular signal input to one or the other eye in the time interval from 1 to 0.1 s, binocular signal input with a duration of 0.05 s. Moreover, the patient has monocular visual fixation, since the duration of the binocular presentation of the image is short;
- monocular signal input to one or the other eye in the time interval from 0.1 to 0.05 s, binocular signal input lasting 0.05 s. At the same time, binocular centers begin to be included in the patient’s work, the fusion reflex develops, since the duration of the monocular presentation of the image is shortened;
- monocular signal input to one or the other eye with a duration of 0.05 s, binocular signal input in the time interval from 0.05 to 1 s. In this case, the bifixation mechanism is restored in the patient and the binocular centers work more stable, since the duration of the binocular signal increases.

 The method is as follows. The patient is seated in front of the object of visual fixation. As an object of visual fixation, you can use the television program of a conventional TV or a drawn object on a white sheet of paper. The patient's task is to observe the object through liquid crystal glasses.

 Set the mode of operation of the glasses for the first lesson, the first: a visual signal lasting 1 s only comes into the right eye, the second: a visual signal lasting 0.05 s comes into both eyes, the third one: a visual signal lasting 1 second comes only into the left eye, fourth : A visual signal lasting 0.05 s enters both eyes. The cycle of all presentations is repeated for 4-5 minutes. After 4-5 minutes of work, the patient is allowed to rest. Then the duration of the monocular presentation of the image is set to 0.9 s with a binocular duration of 0.05 s and offer the patient to look at the visual stimulus in this mode. At each subsequent lesson, the duration of the monocular presentation of the image is reduced by 0.1-0.2 s. When in subsequent classes it is achieved that the monocular visual signal for one or the other eye reaches a duration of 0.1 s, and the binocular presentation of the image lasts 0.05 s, the fusion reflex begins to turn on. With a monocular presentation of 0.05 s and a binocular 0.05 s, the fusion reflex reaches its development. Then, in subsequent classes, the duration of 0.05 seconds of presentation of the visual stimulus to the right or left eye is maintained, the duration of the binocular presentation of the image is gradually increased from 0.05 to 1 second, as a result of which the bifixation mechanism develops and binocular vision is restored.

 The course of treatment consists of 12-20 sessions held daily or every other day. Each lesson lasts for 15-20 minutes.

 Thus, the course of treatment is aimed at the development of the fusional reflex, the restoration of the fusional ability, the development of the bifixation mechanism, which in turn leads to the restoration of binocular vision, and hence to the elimination or reduction of the strabismus angle.

 Since a television image was used as an object of visual fixation, during the lessons the child watched a film and interest in what was happening on the screen prompted him at the first stage to monocular, and at the second stage to binocular fixation. However, you can use any image of a geometric shape or a single drawing located on a sheet of paper. Thus, this led to a sequential restoration of optomotor reflexes: fixation reflex; fusion reflex; reflex bifixation.

 The meaning of the proposed method of treatment is to cause a restructuring of the visual system, gradually move from monocular fixation to the development of a fusion reflex, restoration of the fusion mechanism, and then to the formation of a binocular fixation mechanism. Binocular vision restoration exercises are playful in nature, which is especially important for young children.

Example 1. Patient K.A., age 11 years. The right eye and the left eye were operated on for congenital cataract, operations were performed - IOL implantation in the left eye and IOL implantation in the right eye. A month after the last operation, the patient complained of constant double vision. Diagnosis: artifact of both eyes, permanent diplopia, the position of the eyes is symmetrical. On examination, the visual acuity of the right eye of 0.6 s core. Sph +1.0 D = 0.7, sharpness of the left eye 0.5 s core. Sph +2.5 D = 0.7. The fundus without pathology. Hirschberg strabismus angle +0 ^o . The nature of vision according to the color test from 5 m and from 0.33 m at the same time. At synoptophore, merging of double images is impossible. For the entire period of treatment, alternate occlusion is prescribed. The treatment on the synoptophor and on the device AVIZ-01 (binarimeter) unsuccessfully for 4 months. It was decided to start treatment with liquid crystal glasses.

 In the 1st lesson, the child was at a distance of 0.5 m from the presented image (a blue circle with a diameter of 30 mm pasted in the center of a sheet of A4 paper). At the beginning of the lesson, the duration of each monocular presentation of the image for one or the other eye is 1 s, the duration of the binocular presentation of the image is 0.05 s. Every 5 minutes, the patient closed his eyes and rested, as he felt tired of the oculomotor muscles. During the lesson, the duration of each monocular presentation of the image for one or the other eye was gradually reduced to 0.4 s, while the duration of the binocular presentation of the image was 0.05 s. The duration of the entire lesson is 20 minutes.

 The 2nd lesson was carried out according to the same scheme, the duration of each monocular presentation of the image for one or the other eye was gradually reduced from 0.4 to 0.1 s with the duration of the binocular presentation of the image 0.05 s. The distance to the object of visual fixation was gradually changed - from 15 to 50 cm (with adaptation after 3-5 cm).

 The 3rd lesson was carried out according to the same scheme, the duration of each monocular presentation of the image for one or the other eye was gradually reduced from 0.1 to 0.05 s with the duration of the binocular presentation of the image 0.05 s. The distance to the object of visual fixation was gradually changed from 15 to 50 cm (with adaptation after 3-5 cm). There was a fusion on the device AVIZ-01. The task of the house: to train the bifxation of the image of the circle at a distance of 15 to 50 cm.

 In the 4th lesson, the fusion reflex was fixed and the bifixation mechanism was developed with a duration of monocular image presentation for each eye of 0.05 s and a duration of binocular image presentation of 0.05 s, and the distance to the object of visual fixation was gradually changed - from 40 to 100 cm ( with adaptation after 3-5 cm), in addition, the object of visual fixation was shifted horizontally and vertically (to the right - to the left, up - down).

 In the 5th lesson, the fusion reflex was fixed and the bifixation mechanism was developed with a duration of monocular presentation of the image for each eye of 0.05 s and a duration of binocular presentation of the image of 0.05 s, and the distance to the object of visual fixation was gradually changed from 50 to 200 cm ( with adaptation after 3-5 cm), as well as the object of visual fixation was shifted horizontally and vertically (right - left, up - down). Bifixation of the image up to 200 cm has appeared.

 6-12th sessions were carried out with a duration of monocular presentation of the image for each eye of 0.05 s, and the duration of the binocular presentation of the image was gradually increased by 0.2 s (from 0.05 to 1 s). In this case, the patient saw a single (non-dual) visual stimulus at a distance from 200 to 500 cm to the image.

As a result of treatment, visual acuity of the right eye of 0.8, the left eye of 0.8. Hirschberg strabismus angle 0 ^o . Complaints of double vision in the patient ceased. The nature of the vision according to the color test from 5 m and from 0.33 m is binocular, at the synoptophore positive reserves of 15 ^o , negative 2 ^o .

Example 2. Patient G.M., 6 years old, with a diagnosis of friendly convergent non-accommodating alternating operated strabismus, mild hyperopia of both eyes. The child suffers strabismus from 1.5 years old, operated on at the age of 4 years - a recession of the internal rectus muscle of both eyes. Before and after surgery, the patient was prescribed appropriate optical correction and occlusion. Visual acuity of the right eye of 0.7 s core. +0.5 = 0.9, left eye 0.8 s. +0.5 = 1.0. The strabismus angle according to Hirschberg +5 ^o alternates. The nature of vision according to the color test from 5 m and from 0.33 m is simultaneous. Functional scotoma at the synoptophore at an objective strabismus angle of +7 ^o .

 In the 1st lesson, the child was at a distance of 2 m from the visual stimulus, which was a television image. At the beginning of the lesson, the duration of each monocular presentation of the image for one or the other eye is 1 s, the duration of the binocular presentation of the image is 0.05 s. Expressed adjusting eye movements. Every 5 minutes, the patient closed his eyes and rested, as he felt tired of the oculomotor muscles. At the end of the session, the duration of each monocular presentation of the image for one or the other eye was reduced to 0.9 s, while the duration of the binocular presentation of the image was 0.05 s.

 The 2-5th sessions were carried out according to the same scheme, the duration of each monocular presentation of the image for one or the other eye in each session was reduced by 0.2 s with the duration of the binocular presentation of the image 0.05 s.

 In the 6th lesson, the duration of the monocular presentation of the image for each eye was reduced to 0.05 s with the duration of the binocular presentation of the image 0.05 s. At the same time, the adjusting eye movements disappeared.

 The 7-12th sessions were carried out with a duration of monocular presentation of the image for each eye of 0.05 s, the duration of the binocular presentation of the image was gradually increased by 0.2 s (from 0.05 to 1 s). In this case, the patient saw a single (non-dual) visual test in the absence of adjusting eye movements.

 At the 13-14th lessons, the distance to the visual test was changed from 30 to 5 m, while the duration of the monocular presentation of the image for each eye was 0.05 s, and the duration of the binocular presentation of the image was changed from 0.05 to 1 s.

As a result of treatment, the visual acuity of the right eye is 0.9, the left eye is 1.0. Hirschberg strabismus angle 0 ^o . The nature of vision according to the color test from 5 m and from 0.33 m is binocular, at the synoptophore positive reserves of 12 ^o , negative 2 ^o , scotoma is absent.

Example 3. Patient C.U., 5 years old, with a diagnosis of friendly convergent non-accommodating strabismus, alternating strabismus, complex hyperopic astigmatism, mild amblyopia in both eyes. Strabismus appeared at the age of 2 years. Up to 5 years, a corresponding optical correction was prescribed; the patient did not receive other treatment. On examination, the visual acuity of the right eye of 0.5 s core. Sph +4.0 D Cyl +1.0 D = 0.6, the sharpness of the left eye 0.5 s core. Sph + 4.0 D Cyl +1.5 D = 0.6. Hirschberg strabismus angle +5 ^o . The nature of vision according to the color test from 5 m and from 0.33 m is monocular. At the synoptophor, the objective angle is 9 ^o , the functional scotoma is at a subjective angle of + 5 ^o .

 In the 1st lesson, the child was at a distance of 2 m from the television image. At the beginning of the lesson, the duration of each monocular presentation of the image for one or the other eye is 1 s, the duration of the binocular presentation of the image is 0.05 s. Expressed adjusting eye movements. Every 5 minutes, the patient closed his eyes and rested, as he felt tired of the oculomotor muscles. At the end of the lesson, the duration of the monocular presentation of the image was reduced to 0.9 s with the duration of the binocular presentation of the image being 0.05 s.

 The 2-5th sessions were carried out according to the same scheme, the duration of monocular presentation of the image in each session was reduced by 0.2 s with the duration of the binocular presentation of the image 0.05 s.

 In the 6th lesson, the duration of the monocular presentation of the image for each eye was reduced to 0.05 s with the duration of the binocular presentation of the image 0.05 s. At the same time, the adjusting eye movements disappeared.

 The 7-12th sessions were carried out with a duration of monocular presentation of the image of 0.05 s, the duration of the binocular presentation of the image was gradually increased by 0.2 s (from 0.05 to 1 s). In this case, the patient saw a single (non-dual) visual test in the absence of adjusting eye movements.

 At the 13-14th lessons, the distance to the visual test was changed from 0.3 to 5 m, while the duration of 0.05 s of monocular presentation of the image, and the duration of the binocular presentation of the image was changed from 0.05 to 1 s.

As a result of treatment, visual acuity with the same correction of the right eye was 0.7, the left eye 0.7. Hirschberg strabismus angle 0 ^o . The nature of the vision according to the color test from 5 m is simultaneous and from 0.33 m is binocular, at the synoptophore the objective angle coincides with the subjective + 6 ^o , positive reserves 8 ^o , negative 2 ^o , scotoma is absent.

 Thus, the proposed method allows to develop a refusion of fusion, to educate a reflex of bifixation and increase the possibility of restoring binocular vision.

List of references
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 3. Grigoryan A. Yu. Use of liquid crystal glasses in diploptic treatment of strabismus. Diss. Cand. honey. sciences. - M., 1998 .-- 116 p.

 4. Grigoryan A.Yu., Avetisov ES, Kashchenko TP, Yachmeneva E.I. The use of liquid crystal glasses for the study and restoration of binocular functions // Bulletin of Ophthalmology 1999. - N 1, p. 27-28.

 5. Kashchenko T. P. Binocular system with friendly strabismus. Diss. Dr. med. sciences. - M., 1978. - 312 p.

 6. Kashchenko TP Methodology of work on synoptophore // Transactions of the All-Union Scientific Research Institute of Instruments and Equipment. - M. - 1963, issue. 2, p. 48-51.

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Claims (3)

 1. A method of restoring binocular vision, including phase separation of the fields of view using liquid crystal glasses, characterized in that they use liquid crystal glasses with the ability to present images to two eyes simultaneously, and the images are presented in the following sequence: monocular to one eye, binocular, monocular to the other eye, this during the course of treatment reduce the duration of monocular presentation of the image and increase the duration of the binocular presentation of the image nings.  2. The method according to claim 1, characterized in that the duration of the monocular presentation of images is changed in the range from 1.0 to 0.05 s.  3. The method according to claim 1, characterized in that the duration of the binocular presentation of the images is changed in the range from 0.05 to 1.0 s.