RU113940U1 - COLOR TEST FOR THE STUDY OF BINOCULAR VISION - Google Patents

Abstract

Color test for the study of binocular vision, including a hemispherical body with the ability to mount it on the wall with a black flat screen placed on it with two green, one red and one white filter circles located in the form of the letter "T" turned to the side, inside the body a radiation source is installed, characterized in that a white circle-light filter is equipped with a set of shutters with a longitudinal slit with parameters from 0.5-20 mm in width and 12 mm in height.

Description

The proposed utility model relates to medicine, and more particularly to ophthalmology, to the study of binocular vision.

The study of binocular vision includes determining the nature of vision (with two eyes open), studies of muscle balance (phoria), binocular fixation, aniseikonia, fusion reserves, stereoscopic vision.

Binocular vision is one of the main functional systems providing the process of visual perception. His research is currently carried out by two types of instruments.

The devices of the first type are based on the principle of haploscopy, that is, the separation of visual fields and the presentation of separate tests for each eye. This type includes synotypic devices and stereoscopes. Using a synoptophore, it is possible to assess a violation of the motor system of the eye and determine the magnitude of strabismus, and from sensory disturbances, the state of fusion ability. The disadvantage of haploscopic methods is that the study is carried out in artificial conditions and the results cannot be regarded as physiological.

The devices of the second type are based on the presentation of one test for two eyes and the fusion of retinal images in the brain. The Tsvetotest device is close in its structure to devices of the second type. The presence or absence of binocular vision is determined using the "four-point test." This test was proposed by the English ophthalmologist Worth. The examinee observes four luminous circles of different colors through the glasses of the filter. The colors of the circles are chosen in such a way that one circle is visible only to one eye, two circles - only to the other, and one circle (white) is visible with both eyes.

A known color test for the study of binocular vision, comprising a hemispherical case with the possibility of wall mounting with two green, one red and one white circles-filters located on it in the form of a turned “T” sideways, a radiation source is installed inside the case . The device is connected to a power source. Glasses with a set of light filters (red and green) are supplied with the device. (Color test “CT-1” LLC “Medpribory” www.medpribori.ru).

The known device allows to determine the presence or absence of binocular vision. However, it does not allow to detect the initial changes in the violation of binocular vision. With low visual acuity (less than 0.3), color fusion (binocular fusion) is impossible, and instead of double vision, simultaneous vision occurs.

The technical task of the proposed utility model is the creation of a color test with increased distinguishing ability of visual acuity, by providing an increase in its sensitivity at various degrees of ametropia on three different angular scales in degree, minute and arbitrary units of visual acuity.

The technical result is achieved by the fact that in the color test for the study of binocular action, which includes a hemispherical case with the possibility of wall mounting with a black flat screen mounted on it with two green, one red and one white circles-filters, located in the form of a turned side the letter "T", while a radiation source is installed inside the housing, and the white filter is equipped with a set of dampers with a longitudinal slit with parameters of 0.5-20 mm in width and 12 mm in height.

A slit 4 mm wide at a distance of 5 m has angular dimensions of 0.05 °, which corresponds to 2.75 angular minutes, in units of visual acuity this is 1.8. Selection of a set of dampers with a longitudinal slit with parameters of 0.5-20 mm in width and 12 mm in height allows you to change the visual acuity from 14.54 to 0.36, which ensures comparison, the thinner the gap, the higher the visual acuity.

Visual acuity is the ability to see separately two objects located from each other or the spatial threshold of vision determined by the minimum angular dimensions of the object that the eye is still able to perceive. When switching to visual acuity, the formula S = i: γ is used

where S is visual acuity,

i - 5 arc minutes

γ is the limiting angle of resolution.

S = 5: 5 = 1.0

This explains what is the scale of visual acuity.

Table 1 shows the angular dimensions of the test figures on the color test in three types of measurements: in degree, minute and in arbitrary units of visual acuity.

Degree scale refers to the definition of a linear object in space, i.e. the right line from the right side of the object, and the left line from the left side of the object at a certain angle fall on the retina. Also, the deviation angle when the strabismus of one of the eyes is measured in angular degrees. More subtle binocular vision impairment is measured in the minute scale. A scale of generally accepted visual acuity gives a comparison of these scales in this relative value.

The proposed utility model is illustrated by drawings, in which Fig. 1 is a general diagram of the device, Fig. 2 is a screen, Fig. 3 is a shutter with a longitudinal slit, Fig. 4 is a screen with a shutter, and Fig. 5 is a visiogram in the case of normal binocular vision; 6 is a visiogram in the case of weak esotropia and esophoria; 7 is a visiogram in the case of monocular doubling; Fig. 8 is a visiogram in the case of normal binocular vision and bilateral lens compaction.

The color test contains a hemisphere-shaped housing 1 with a flat screen 2 in black with two green 3, one red 4 and one white 5 circles-filters, arranged in the form of the letter “T” turned to the side. The casing is equipped with wall mounting elements 6, and a radiation source is installed inside the casing 7. The color test is equipped with a set of dampers 8 with a longitudinal slot 9 for the white circle-filter 5. Glasses with color filters red and green are attached to the color test (not shown in the drawings).

The proposed utility model operates as follows.

The patient sits down on a chair, in front of him at a distance of 5 meters there is a Tsvetotest device. Glasses with color filters (not shown) are placed in front of the subject’s eyes. The filters are installed in strict order. A red filter is placed in front of the right eye, and green is placed in front of the left. Closing the shutter each of the eyes asking the patient to name what he sees with an open eye. So, with the right eye, the patient normally sees through the red filter the red circle 4 on the right and the red line on the left 5. When examining the left eye, through the green filter he sees two green circles 3 and one green line 5. With two eyes he sees two green circles 3 and the white line 5 on the left, as well as the red circle 4 on the right on the common black screen.

Table 2 shows the results of working with various sizes of the longitudinal slit at a distance of 5 meters. The table consists of two parts, which shows a smooth transition from a large gap to a small one.

When considering table 1 of slots at a distance of 5 meters, we see a pattern that the narrower the gap, the higher the perception value.

Thus, the proposed utility model allows one to study minimal binocular vision impairments, i.e., phorias (hidden strabismus), and also allows one to study binocular sensory cooperation not only with strabismus, but also in the case of sensory double vision.

Table number 1 Observation distance (mm) The angular dimensions of the center circle (diameter 22 mm.) The angular size of the vertical slit (2 mm wide, 12 mm long) In degrees In corner minutes Unit of visual acuity In degrees In corner minutes In units of visual acuity 3000 0.42 ° 25.21 ' 0.2 ≈0.04 ° 2.29 ' 2.18 4000 0.31 ° 18.91 ' 0.26 ≈0.03 ° 1.71 ' 2.9 5000 0.252 ° 15,12 ' 0.33 0.022 ° 1.37 ' 3.6 6000 0.21 °° 12.6 ' 0.39 0.019 ° 1.14 ' 4.3

Claims (1)

Color test for binocular vision research, including a hemispherical case with the possibility of wall mounting with a black flat screen placed on it with two green, one red and one white circles-filters, located in the form of a turned “T” letter on the side, inside the case a radiation source is installed, characterized in that the white circle-filter in it is equipped with a set of dampers with a longitudinal slit with parameters from 0.5-20 mm in width and 12 mm in height.