RU2380027C2 - Analysis of stereoscopic visual acuity - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to ophthalmology and can be used for analysis of stereoscopic visual acuity, training of deep perception in various age groups, and also for diagnostics of sensory disorders in some diseases of central nervous system. There is applied set of the test objects containing a number of anaglyph easily recognised silhouettes of various transverse disparation level observed on a monitor screen. Herewith fields of vision are divided by applying glasses with red and blue-green colour filters, while silhouette dimensions of the objects under observation can vary within the wide range and are presented to the patient in mesopic environment at the distance 0.3 to 5 metres, keeping the proportionality of the silhouette dimensions and transverse disparation extension.

EFFECT: method allows improving accuracy of evaluating stereoscopic vision, excludes parallax, accommodation, linear perspective effects on stereoscopic vision, and can be used in children.

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Description

The invention relates to medicine, namely to ophthalmology, and can be used to study the acuity of stereoscopic vision, training deep perception in various age groups, as well as for the diagnosis of sensory disturbances in certain diseases of the central nervous system.

A known method for the study of stereoscopic vision Titmus test (Wright K.W., Pediatric ophthalmology and strabismus. Mosby, 1995. - P.159-178). This method is carried out by presenting a booklet consisting of two tables and representing a three-dimensional polaroid vectograph. On the right half there is an image of a large fly (for determining a “rough” stereopsis), on the left - two groups of objects of observation: “circles” and “animals”, which are step tests for quantifying stereo vision (each element within both groups has a certain degree of transverse disparities). The study is carried out in polaroid glasses with a perpendicular orientation of the polarization planes of polaroids from a distance of 40 centimeters. The test subject must indicate the relative position of the elements within each group. The visual acuity is calculated according to a special table attached to the test. However, when using this method, a certain position of the patient’s head or test tables is required, high quality polaroid filters are required and, in addition, the distance from which the study is carried out is strictly determined.

The described method is selected as a prototype, since it is an object of the same technical purpose as the claimed method.

The technical result of the proposed method lies in the fact that to study the acuity of stereoscopic vision using observation objects made on the basis of color anaglyphs and observed in glasses with appropriate color filters.

The proposed method is implemented as follows. On a computer monitor screen under mesopic conditions, the patient is shown test objects containing 3 to 5 silhouette figures (photo 1), and glasses with red and blue-green color filters are installed in front of the patient’s eyes (photo 2). Only easily recognizable figures are used (cat, tree, plane, umbrella, butterfly, etc.). In the process of creating each figure of the object of observation, a red silhouette image is superimposed with an image of the same figure, but made in a blue-green color: lateral disparity is achieved by linear horizontal incomplete combination of these two color images.

The standard for calculating the magnitude of linear disparity when creating anaglyphic figures of objects of observation is such a minimal linear disparity, in which a person with normal stereoscopic vision has a deep perception: when examined from a distance of 1 meter, it is 1.5 mm, which corresponds to a disparity angle equal to 20 seconds. When creating each of the figures of the test object, the value of the transverse dispersion progressively increases by a unit of linear measurement (for example, on each specific test object, the dispersion value is 0.5 mm, 1.0 mm, 1.5 mm, 2.0 mm; on the other is 1.0 mm, 2.0 mm, 3.0 mm, 4.0 mm, etc.). When demonstrating test objects on a computer monitor screen, a 3-4-fold increase or decrease in the size of the figures of the objects to be observed, as well as a change in the distance between the patient and the screen from 0.3 to 5 meters: the proportionality between the size of the figures and the size of the transverse disparities remains research conditions, which makes it accessible even with reduced visual acuity and at various distances. The results of the study are independent of the interpupillary distance.

Each object of observation has a corresponding comment (indicating the order of arrangement of the figures and the acuity of stereo vision, expressed in angular units).

The study begins with presenting to the patient a test object, the figures of which have the smallest degree of transverse disparization and dimensions (height and width) of about 5 cm, clearly distinguishable with visual acuity of 1.0 at a distance of up to 10 meters. With negative responses, the patient consistently demonstrate test objects with an increasing degree of dispersion. The test object, upon presentation of which the subject correctly indicates the relative position of all the figures (“closer”, “further”), characterizes his sharpness of deep vision. When conducting the study using the proposed method, the patient does not need a forced head position, excludes the influence on the deep perception of such additional factors as parallax, accommodation, linear perspective, etc., and the study itself can be carried out from various distances if necessary. Since only easily recognizable silhouette figures were used in test objects, this method can be applied even in the study of vision in children aged 3-5 years.

Example.

Alexey S., 4 years old. The diagnosis is a convergent accommodating alternating inconsistent strabismus, hyperopia degree of 4.5 D in both eyes. The corrected visual acuity of each eye is 1.0, the position of the eyes in the glasses is symmetrical. Binocular vision in the study on a 4-point color device is saved. When presenting objects of observation from a distance of 5 meters, the subject’s visual acuity was 50 angular seconds, when examined from a distance of 3 meters — 30 arc seconds, from a distance of 1 meter the value of stereo vision was 25 angular seconds. The results of the study made it possible to diagnose relative stereoambliopia in the patient, which was an indication for the course of stereoptic treatment in this patient.

Photo 3 shows the patient during a study of the acuity of stereoscopic vision.

Claims (1)

A method for studying the acuity of stereoscopic vision by presenting objects of observation under conditions of separation of the fields of view, characterized in that the objects of observation are a set of test objects containing several easily recognizable anaglyphic silhouette figures with varying degrees of transverse dispersion created by superimposing a red color on the figure images of the same figure, made in blue-green color, and viewed on a computer screen, while the separation of the field of view reaches by using glasses with red and blue-green color filters, and the sizes of the figures of the objects of observation can vary over a wide range and present them to the patient in mesopic conditions from a distance of 0.3 to 5 m, while maintaining the proportionality between the size of the figures and the magnitude of the transverse disparization.

Images