RU65743U1 - PRIMARY GLAUCOMA DIAGNOSTIC DEVICE - Google Patents

Abstract

The utility model relates to medicine, namely to ophthalmology, and can be used for mass studies of the population in order to identify patients with primary glaucoma. Achievable technical result - an increase in the reliability of diagnosing glaucoma using the device. It contains a base 1, a control unit 2, a rotary display 3 mounted vertically, a facial unit 4 for fixing the position of the head and the control panel 5 of the patient, and the panel is equipped with openings covered with matte diffusers, inside of which are installed light bulbs that illuminate the test objects located on isopters at 10, 20, 30, 40, 45 ° and 50 ° and on meridians with an interval of 15 ° from 0 to 90 °, six on each meridian from the fixation point.

Description

The utility model relates to medicine, namely to ophthalmology, and can be used for mass research of the population in order to identify patients with primary glaucoma (PG).

Known studies of visual acuity and field of view using a flat-screen TV (S.A.Shneidman et al. Self-monitoring of visual functions. Bulletin of Ophthalmology, No. 6, 1987, p. 56-58). When using the TV screen, the patients were shown the “Check your eyesight” and “Warning, glaucoma” posters on it. The device is affordable, but the information content of the study with it is low.

It is known that a thermal imager was used to study visual acuity and field of view. The study was initiated by the Department of Ophthalmology, Medical Center, Stanford University (USA). When examining the field of view, multiple test objects were demonstrated. The videogram was shown for 10 minutes and the patients themselves determined visual impairment, which was the reason for an additional examination (Sarv Ophtnalm. 1983, No. 3, m. 28, p. 188-187). The disadvantage of this device is its low information content.

The closest set of essential features to the proposed is a device for the diagnosis of primary glaucoma, described in the Certificate of authorship No. 1222269 (SU)

The known device consists of a base, a control unit 1, a rotary display 2 with lamps, mounted with the possibility of vertical movement, a facial installation for supporting, fixing and adjusting the position of the head and remote control of the patient. The panel is equipped with openings covered with frosted diffusers, inside of which are installed light bulbs that flash test objects. Test objects are located on isopters 10, 15, 20, 30, 40 and 50. At the same time, test objects are located on meridians with an interval of 15 ° (0, 15, 30, 45, 60, 75, 90 °), six on each meridian from the fixation point. The patient's gaze is directed to the fixation point, and he notes with the help of the control panel the moment when any additional test object appears in the field of view. By the number of test objects not seen on different isopters, we can conclude that there are GHGs. For example, if the patient did not see a single test object on the 50 ° isopter, the diagnosis of PG is not in doubt. If the patient has not seen most of the test objects on isopters

50, 40, 30 and 20, including isopters 15 and 10 ° (Bierrum zone), then we can assume the transition of GHGs to the third stage.

A disadvantage of the known device is that it is not reliable enough. The fact is that, in accordance with the methodology for research in the Bierrum zone, the illumination of test objects should be minimal, just above the threshold. But, given the fact that the sensitivity to illumination is different for all people, studies in this area cannot be considered reliable, since in this case it is easy to get false drops.

The task to which the proposed utility model is directed is to create a device for reliable diagnosis of primary glaucoma.

The problem is solved due to the fact that the proposed device, like the known one, contains a base, a control unit, a rotary display 2 mounted with the possibility of vertical movement, a facial installation for fixing the position of the head and the patient control panel. The panel is equipped with openings covered with frosted diffusers, inside of which are installed light bulbs that flash test objects. Test objects are located on isopters at 10, 20, 30, 40 and 50 °. At the same time, test objects are located on the meridians with an interval of 15 ° from 0 to 90 °, six on each meridian from the fixation point. But, in contrast to the known, in the proposed device, the scoreboard is equipped with an isopter 45.

The essence of the utility model is that test objects on the 15 ° isopter are removed from the scoreboard and transferred to the 45 ° isopter. At the same time, increasing individual suprathreshold illumination of test objects, they get depression of extreme isopters, which indicates a peripheral narrowing of the visual field. In this regard, without changing the total number of test objects (i.e., without increasing the study time) increase the reliability of the examination using the device.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a device for the diagnosis of GHGs, and in Fig.2 - diagram of the scoreboard.

A device for diagnosing primary glaucoma consists of a base 1 (Fig. 1) of a control panel 2, a rotary panel 3, a facial unit 4, a patient panel 5, and a device 6 for moving the panel. Scoreboard 3 is equipped with openings covered with frosted diffusers, inside of which bulbs are installed that flash test objects. Test objects are located on isopters 7 at 10, 20, 30, 40, 45 and 50 °. At the same time, the same test objects are still located on the meridians with an interval of 15 ° (0, 15, 30.45, 60, 75, 90 °), six on each meridian from fixation point 8.

Inspection using the device is as follows. The patient's face is fixed on the facial installation 4. Using the control unit 1 set the required temporary and brightness modes of operation. To study the right eye, the scoreboard 3 is turned to the left (from the patient) and set in the desired vertical position (depending on the patient's height). During the examination, the patient should look at the fixation point. He is selectively presented with test objects located on different isopters on the scoreboard, and he, clicking on the patient’s remote control, marks the test objects that he sees. The optimal research mode is as follows: the exposure of the test object is 0.5 seconds, the interval between demonstrations (pause) is 2 seconds. This mode of operation allows you to examine each eye for 2.5-3 minutes.

It can be considered a regularity that the decrease in seen test objects in primary glaucoma during examination using the inventive device occurs with a constant sequence due to test objects of isopters 50 ° as a manifestation of the earliest changes in the field of view, then isopters 45 °, 40 ° and t .d. depending on the stage of the disease, i.e. isopter depression occurs from the periphery to the central parts of the visual field. Since the study in this case can be carried out under significant illumination, the probability of false drops decreases, i.e. the reliability of diagnosing primary glaucoma increases.

Claims (1)

A device for diagnosing primary glaucoma, containing a base, a control unit, a rotary panel mounted with the possibility of vertical movement, a facial unit for fixing the position of the head and the patient’s control panel, and the panel is equipped with holes closed by matte diffusers, inside of which are installed light bulbs that illuminate the test objects located on isopters at 10, 20, 30, 40 and 50 ° and on meridians with an interval of 15 ° from 0 to 90 °, six on each meridian from the fixation point, characterized in that ablo further provided isopter 45 °.