RU2622207C1 - Method for pleoptic therapy of amblyopia in case of optic nystagmus - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: light stimulation of the central retinal fossa of both eyes is performed. Temporary blockage of nystagmus is preliminarily obtained by visual axes reduction by means of a synoptophore. This blockage is retained in the process of blinding irritation of the central retinal fossa under the control of bifoveal fusion. Light stimulation is carried out for 10-15 minutes, only for a course of 15-20 sessions, the courses are repeated 3-4 times a year.

EFFECT: achievement of the stability of light exposure in the central retinal fossa with a corresponding increase in visual acuity.

3 cl, 2 ex

Description

The invention relates to ophthalmology and is intended for pleoptic treatment of amblyopia with optical nystagmus.

In the structure of pediatric ophthalmopathology, leading to disability, optical nystagmus is one of the most common diseases. According to a number of authors, among visually impaired children, congenital optical nystagmus is diagnosed in 20-40% in different regions of Russia.

Long-term optical nystagmus was considered a practically incurable disease. There were no effective means of helping the visually impaired with nystagmus.

Optical nystagmus is a complex form of pathology, which is based on various pathogenetic mechanisms. Along with involuntary movements caused by pathology of the neuromuscular apparatus of the oculomotor muscles, nystagmus reveals serious violations of the central vision mechanism that develop when various parts of the complex fixation reflex are damaged, based on both optical and non-optical stimuli. Optical stimuli along the visual pathways from the retinal cones through the lateral cranked body arrive at the frontal and occipital cortical centers of eye movement. From the cortical centers, the pathways go as part of the posterior longitudinal bundle to the oculomotor nuclei. Motor impulses from the nuclei through the oculomotor nerves enter the external muscles of the eye. The optic afferent impulses, proprioceptive impulses from the eye muscles, neck muscles and impulses from the vestibular apparatus also arrive at the nuclei of the oculomotor nerves through various receptor pathways. However, reflexes based on non-optical stimuli are not very pronounced in humans, since light stimuli inhibit their influence.

Reflex fixation is not congenital. Its occurrence, development and consolidation occurs in the process of the activity of the visual analyzer. In violation of this mechanism, nystagmus occurs.

In patients with optical nystagmus, the stability of the visual fixation system suffers, the prevailing role of the central retinal fossa falls out, the receptive field of monocular fixation expands, the reflexogenic zone weakens, providing feedback signals when the fixation point is shifted from the foveolar field, which leads to instability of monocular fixation. However, this mechanism prevails if people with optical nystagmus have impaired vision. In patients with high vision (motor type), the tracking system suffers mainly. According to Dell'Osso L.F. and Daroff R. B. (Dell'Osso L. F., Daroff R. B. Congenital nystagmus waveforms and foveation strategy. Doc. Ophthalmol. - 1975. N 39 - P. 155-182) this is due to the underdevelopment of the visual motor paths. Violation of the ability of slow eye movement behind a visual object causes corrective jerky and pendulum-like eye movements (Avetisov E.S. Nistagm. - M., 2001, p. 30-33).

Optical nystagmus is accompanied by a serious disorder of monocular and binocular functions and is a cosmetic drawback in psychological terms. This complicates the visual activity of patients with nystagmus and limits the ability to choose a profession.

In recent years, methods of treating amblyopia with nystagmus have been widely adopted, based on various principles of exposure and activating the corresponding channels of the visual analyzer, according to the theory of its multi-channel functioning (Campell FW, Hess RF, Watson PG, Banks R. // Brit., Ophtalmol - 1978. - Vol - 62, N. 11 - P. 748-755).

Currently, a set of therapeutic measures has been developed to improve visual functions in nystagmus, including optical correction, pleoptic treatment, exposure to the accommodative apparatus of the eye, medication that stimulates visual functions, surgical treatment (Avetisov E.S. Nystagm. 1980, p. 56- 58).

In the presence of various approaches to the treatment of nystagmus in patients, the effect of treatment is individual. In this regard, there is a need to choose the most appropriate treatment method for each individual patient.

One of the most important directions in the treatment of amblyopia with optical nystagmus is pleoptic treatment.

Highly effective are methods of treatment based on the use of light as an adequate retinal irritant: the methods of Bangerter, Cuppers, and especially the proposed E.S. Avetisov method of local “blinding” stimulation of foveola with light (Avetisov ES, Dysbinocular amblyopia and its treatment. 1968, p. 151-157).

This method is the closest analogue of the proposed method of treatment. However, the vibrational movements caused by nystagmus prevent local irritation of the central retinal fossa, eroding sent light pulses throughout the fixation area, which leads to a decrease in the effectiveness of pleoptic treatment.

To localize light effects in the foveolar zone, it is necessary to create conditions for blocking nystagmus - using the selection of prisms, surgical or other influences. In a significant part of patients with nystagmus, blocking it or a significant decrease in amplitude can be achieved in convergence.

The problem to which the invention is directed, is to create conditions for blocking optical nystagmus, in which continuous light stimulation of the foveolar zone of the eye is possible.

This problem is solved due to the fact that the effect is carried out under conditions of nystagmus blocking by reducing the visual axes using a synoptophor under the control of bifoveal fusion.

The technical result of this method is to achieve stability of light exposure in the central fossa of the retina with a corresponding increase in visual acuity.

The technical result is achieved due to the continuous light stimulation of the foveolar zone against the background of temporary blocking of nystagmus by reducing the visual axes using synoptorophore under the control of bifoveal fusion.

The essence of the proposed method of pleoptic treatment of nystagmus is to block nystagmus using the maximum voltage convergence and the supply of light pulses into the central fossae of the retina under the control of bifoveal fusion. Temporary stop of oscillatory eye movements, i.e. blocking of nystagmus, makes it possible to localize the transmitted light effects, the purpose of which is to ensure the functional prevalence of the central fossa of the retina in relation to the paraveolar sections. In conditions of persistent nystagmus, this is impossible to achieve, which leads to low efficiency of traditional pleoptic treatment.

24 patients with nystagmus and relative amblyopia at the age of 5-10 years were treated in this way. All patients had previously undergone courses of traditional pleoptic treatment (occlusion, spectacle correction, laser speckle), which resulted in an average visual acuity of 0.35. I could not get a further increase in visual acuity. Conducting 2-4 courses of pleoptic treatment according to the proposed method led to an increase in both corrected (by an average of 0.14) and not corrected (by 0.12) binocular visual acuity, a decrease in the amplitude of nystagmus, as confirmed by microperimetry methods.

The method is as follows. Test objects are placed in synoptophore cassettes to merge the largest sizes and the heads are gradually shifted towards convergence. In this case, the patient must hold the right and left objects, merged into a single image. Continue to reduce the visual axes under the control of bifoveal fusion until blocking of nystagmus occurs. Patients who failed to cause nystagmus blocking were not treated. Then proceed to the light exposure. Brightness is set to maximum values. A session can last as long as the patient can hold both objects, merged into a single image, mainly 10-15 minutes. The course consists mainly of 20 sessions, mainly 3-4 times a year.

Clinical example 1

Patient A. Boy 8 years old. Diagnosis: Congenital horizontal nystagmus. Weak hypermetropia in both eyes. Complex hyperopic astigmatism in both eyes. Amblyopia of moderate degree.

Spectacle correction from 3 years. Before treatment, the proposed method has repeatedly passed pleoptic treatment courses (occlusion, laser pleoptics, computer programs). Visual acuity, reaching OD = 0.3, OS = 0.4, did not increase for one year.

3 courses of treatment were carried out. Test objects for fusion were presented to the patient at the synoptophore and the visual axes were reduced until the blocking of nystagmus occurred. In this state, the child was for 15 minutes.

Of the traditional methods, eyeglass correction has remained.

Before treatment, Vis OD = 0.2 sph + 2.0 cyl + 1.75 × 85 ° = 0.3

OS = 0.3 sph +1.5 cyl + 2.0 × 90 ° = 0.4

After 3 courses Vis OD = 0.3 sph + 2.0 cyl + 1.75 × 85 ° = 0.4

OS = 0.4 sph + 1.5 cyl + 2.0 × 90 ° = 0.6

Thus, as a result of 3 courses of treatment of 10 sessions each at intervals of 3 months, visual acuity increased for the right eye by 0.1, and for the left by 0.2.

Clinical example 2

Patient D. Girl 7 years old. Diagnosis: Pushed horizontal nystagmus. Hypermetropia of an average degree of both eyes. Complex hyperopic astigmatism in both eyes. Weak amblyopia in both eyes. Eye Torticollis.

Has been using glasses since 2 years. Before treatment, the proposed method has repeatedly passed courses of pleoptic treatment (occlusion, laser pleoptics, computer programs). Before and after treatment, an ophthalmic examination was performed. Forced rotation of the head to the right, at which the amplitude of nystagmus decreases and increases visual acuity. Within 6 months she underwent 2 courses of treatment. Test objects for fusion were presented to the patient at the synoptophore and the visual axes were reduced until the blocking of nystagmus occurred. In this state, the girl was for 15 minutes, only 20 sessions. The interval between courses was 4 months.

Before treatment (in a forced head position)

Vis OD = 0.5 sph + 4.0 cyl + 1.0 × 90 ° = 0.7

OS = 0.4 sph + 4.5 cyl + 1.0 × 90 ° = 0.5

After treatment (in a forced position of the head) I course.

Vis OD = 0.6 sph + 4.0 cyl + 1.0 × 90 ° = 0.7

OS = 0.5 sph + 4.5 cyl + 1.0 × 90 ° = 0.5

After treatment (in a forced position of the head) II course.

Vis OD = 0.6 sph + 4.0 cyl + 1.0 × 90 ° = 0.8

OS = 0.5 sph + 4.5 cyl + 1.0 × 90 ° = 0.6

An increase in visual acuity by 0.1 of each eye was achieved. Parents also note a decrease in forced head rotation. Thus, the proposed method allows to increase visual acuity and reduce the amplitude of nystagmus.

Claims (3)

1. A method for pleoptic treatment of amblyopia with optical nystagmus, including light irritation of the central fossa of the retina of both eyes, characterized in that they temporarily block nystagmus by reducing the visual axes using synoptophore and maintain this blocking in the process of blinding irritation of the central fossa of the retina under the control of bifoveal fusion . 2. The method according to p. 1, characterized in that the light irritation is carried out for 10-15 minutes, a total of 15-20 sessions. 3. The method according to p. 1, characterized in that the courses are repeated 3-4 times a year.