RU2199990C2 - Method for treating and preventing visual fatigue syndrome - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves putting-on test rim with slit-shaped apertures. When having determined eye movement line to fixation point apertures of both eyes are rotated. Spherical prismatic elements of glasses are selected with distance from eye to fixation point, refraction and patient age taken into account. Lens apex-base line position is determined from angle of slit aperture deviation from horizontal line. Ciliary muscle is trained during 3-5 min by gradually moving sight from near to remote point after finishing work at short distance. EFFECT: enhanced effectiveness of treatment; reduced accommodation convergence loading. 2 cl

Description

 The invention relates to methods for the prevention and treatment of eye diseases.

 A known method for the prevention and stabilization of myopia (1), which consists in the fact that by using bifocal sphere-prismatic lenses (BSPO) for constant wear, they reduce accommodation-convergence loads during visual work at close range. To do this, spherically prismatic elements are applied to the lower part of the lens, correcting ametropia for the distance. These elements contain a plus lens of 2.25 diopters and a prism of 6.75 diopters, the base of which is facing the nose (2).

 However, the method is distinguished by the low effectiveness of prophylaxis and treatment, due to the fact that the position of the sphere-prismatic element does not take into account the fact that when converging to the fixation point for working in close vision mode, the eye moves not only horizontally inwards, but also downwards heads down. Accordingly, in addition to the internal rectus muscle, the lower rectum, as well as the muscles of the head and neck, participate in this process. Therefore, convergence loads for the lower rectus muscle continue to be excessive. Also high are the loads for the muscles of the head and neck. At this time, further weakening from inactivity of the ciliary and internal rectus muscles, excluded from acts of accommodation and convergence, occurs. These factors contribute to the formation of visual fatigue syndrome, aggravated by a violation of the natural balance of the tones of the internal and lower rectus muscles. In addition, the design of the glasses does not allow using them as a simulator for distance to relax the ciliary muscle.

 There is a method of reducing accommodation-convergence loads using glasses for constant wear, which use glass spherical lenses +3.0 with a center shifted by 7 mm to the nose (3), selected for the prototype. The method is also not very effective, since the peculiarity of the mechanism of movement in the direction of a point or object of fixation for working in close vision mode is not taken into account. Namely, in addition to the movement of the eyes to the nose, they turn downwards, as well as tilt the head. Therefore, only a weakening of the manifestations of visual fatigue syndrome is noted. The constant wearing of glasses contributes to the "getting used" of the optical system of the eye to this state and, as a result, the training effect on the ciliary muscle does not occur. Therefore, using them as an optical simulator of the accommodation mechanism for a given is impractical. From the point of view of practical use, such glasses for constant wearing are unpromising, since the long stay of patients in conditions of artificial myopia at 3.0 diopters causes their negative attitude to glasses. Decentration of glass lenses is always associated with significant additional economic costs.

 The aim of the invention is to increase the efficiency of the method by taking into account in the manufacture of spectacle lenses the mechanism of eye movement in the direction of the fixation point during operation in close vision mode.

 This goal is achieved by the fact that in the method of prevention and treatment of visual fatigue syndrome, accommodative-convergent loads are reduced not only by a combination of positive spherical and prismatic lens elements, but also by an adequate direction of the gaze at the fixation point by the oblique location of the vertex-base lens line. For this, a test frame with slit-like diaphragms is put on the patient, when determining the line of eye movement to the fixation point, the diaphragms are turned for both eyes, the spherical and prismatic elements of the glasses are selected taking into account the distance from the eye to the fixation point of the object, refraction and age of the patient, and the position of the line the apex-base of the lenses in the spectacle frame is determined by the angle of deviation of the slit-like hole from the horizontal, while after completion of work at a close distance, the glasses perform training of the ciliary muscle in t 3-5 minutes by gradually looking from near to far.

 The spherical and prismatic elements of the glasses used in this case are selected by the distance from the eye to the point of fixation of the object, refraction and age of the patient, and the position of the apex-base line of the lenses in the spectacle frame is determined according to claim 1.

 The method is as follows. Before starting treatment, an ophthalmological examination is performed, which consists in checking visual acuity and accommodation reserves, and eye refraction is determined. Ophthalmoscopic, biomicroscopic and echobiometric studies are performed. Determine the distance to the fixation point when working close. When reading and writing, the fixation point is located at a distance of 33 cm from the eyes, while working with a computer - at a distance of 45-50 cm. To determine the line of eye movement to the fixation point, wearing a test frame on the patient, place slit-like diaphragms in it. They ask to fix the gaze of the center of the fixation object. The rotation of the screws rotates the diaphragms for both eyes until the slit-like holes coincide with the path of view. Achieve the most comfortable state when examining the object of fixation. The deviation of the slit-like diaphragms from the horizontal makes it possible to determine the angle of the vertex-base line of the lens. Next, a prescription is written for glasses indicating not only the spherical and prismatic elements of the lens, but also the position of the top-base line on the Tabo scale.

 Glasses are not recommended for continuous use, but are used only for working in close vision mode, the duration of which exceeds 45 minutes per day. After completing all the work at a close distance, the ciliary muscle is trained with the same glasses for 3-5 minutes, using the effect of disaccomodation and micro-fogging caused by them when viewing objects in the far vision mode. Moreover, in the case of the use of these glasses, the relaxation of the ciliary muscle is carried out by gradually moving the gaze from close to far along the optimal path, i.e. exactly in the opposite direction of convergence. After that, the glasses are removed for 30 seconds. The gaze is transferred to the fixation point, the glasses are put on again and a new eye movement is made when looking from close to the distance. Thus, excessive accommodative-convergent loads for the ciliary internal and lower rectus muscles, muscles of the head and neck are excluded, physiological optical “massage” of the ciliary muscle is performed. As a result of the use of sphere-prismatic glasses with an oblique arrangement of the top-base of the lenses, they achieve a reduction in visual stresses to the level of physiological. In addition, their use as a disacomodation simulator for distance allows for effective relaxation of the ciliary muscle, which allows not only to remove asthenopic phenomena, but also to restore high visual acuity in patients with acquired myopia. Since the influence of many adverse factors contributing to the development of myopia is mediated through the accommodation apparatus, a decrease in accommodation-convergence loads and an increase in the efficiency of the ciliary muscle impede the development of myopia in patients at risk.

 An example of a specific implementation of the method.

 Example 1

 Patient V., 14 years old, student of the 8th grade of a technical lyceum. From the age of 12, she began to notice discomfort in the eyes, eyebrows, blurred vision when working with a computer or reading. Visual acuity in the right eye was 0.3-1.5 diopters = 1.0 and in the left eye -0.2 s -1.75 diopters = 1.0. With refractometry, myopia was established at 1.0 diopters in both eyes. The PZO of the right eye was 24.0 mm and the left -24.1 mm. Diagnosed with visual fatigue syndrome, myopia 1.0 diopters, spasm of accommodation in both eyes.

 When prescribing glasses, the spherical and prismatic components of the lenses are determined taking into account the working distance, refraction and age of the patient. Having established the distance from the eyes to the fixation point, the well-known trick is to determine the costs of accommodation when working at this distance in case of electrophic refraction. In the presence of ametropia, an adjustment is made in a known manner. With myopia, this figure decreases by the amount of refraction, and with hypermetry, it increases accordingly. The prismatic component is calculated in such a way that its action compensates for that part of the necessary convergence that turned out to be devoid of stimulus due to lack of accommodation. It has been established that for each diopter of the deficit of accommodation it is required to use prisms with a force of 2.0-3.0 ave. Diopter to unload convergence.

The patient was assigned glasses with lenses made according to the formula: sphere +1.0 and a prism 2.5 diopters with a vertex-base line of the prism according to the Tabo scale of 150 ^o for the right and 30 ^o for the left eye. Glasses were used daily during work with the computer, as well as when reading and writing during the observation period - 3 months. In addition, at the end of the work, the patient conducted a distance training, which consisted of looking from the computer screen into the distance and consisting of 10 repetitions. As a result of the treatment, asthenopic phenomena disappeared after 7-10 days. By the end of the treatment period, visual acuity in the left eye was 1.0 in the right eye and 0.8 sec. -0.25 = 1.0 on the left. As a result of the study, in the group of patients we observed, we managed to eliminate the syndrome of visual fatigue in 100% of cases, the development of myopia was prevented in 90% of patients. An increase in visual acuity was noted by 0.1-0.9. Subjective correction decreased by 0.5-2.0 diopters.

 Echobiometric indicators were stable. Reserves of accommodation in all patients reached the age norm.

 Compared with the known, the proposed method can evenly reduce not only accommodation, but also convergence loads. The latter can hardly be changed by known methods, since the loads on the lower rectus ciliary muscle, head and neck muscles are not regulated by the horizontal position of the vertex-base line of the lens. Thus, the application of the proposed method allows to eliminate the syndrome of visual fatigue, to prevent the appearance of myopia in the risk group, to stop the progression of myopia. The effectiveness of the method is increased by the possibility of training for distance using these points. The method compares favorably with simplicity and safety, which makes it possible to use it for the treatment of visual fatigue syndrome and, as a special case, for the prevention and treatment of acquired myopia. The need to use glasses for distance disappears, which is important in the cosmetic plan, especially in young people.

Sources taken into account
1. Utekhin Yu.A., Tsameren A.P. A method for the prevention and stabilization of myopia using bifocal sphere-prismatic glasses (BSPO). International Symposium "Myopia. Pathology, prevention of progression and complications." M., December 6-8, 1988, pp. 109-110.

 2. Rosenblum Yu. Z. Application of bifocal sphere-prismatic glasses. (BSPO) for myopia. Guidelines. M., 1986.P. 3.

 3. Dashevsky A.I. False myopia. M., 1973.P. 80.

Claims (2)

 1. A method for the prevention and treatment of visual fatigue syndrome using spherical and prismatic lens elements, characterized in that they put on the patient a test frame with slit-like diaphragms, when determining the line of movement of the eyes to the fixation point, the diaphragms are rotated for both eyes, spherical and prismatic elements points are selected taking into account the distance from the eye to the fixation point of the object, refraction and age of the patient, and the position of the top-base of the lenses in the spectacle frame is determined by the angle of deviation of the slit th hole from the horizontal, wherein after completion of the work at a close distance to produce glasses training ciliary muscle within 3-5 minutes by gradual transfer from view near distance.  2. Glasses for the prevention and treatment of visual fatigue syndrome, including spherical and prismatic lens elements, characterized in that the spherical and prismatic elements of the glasses are selected by the distance from the eye to the fixation point of the object, refraction and age of the patient, and the position of the vertex-base line of the lenses is spectacle frames are determined according to claim 1.