JPH119550A - Glare contrast tester - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable inspecting of a contrast test and a glare test with the same device and more highly accurate inspection of a vision function. SOLUTION: This glare contrast tester inspects a vision function by presenting a target under the projection of glare light within a visual field 14 provided shielding extraneous light. It is provided with a target presenting part 20 to present one ring-shaped target having a bright part sandwiched by a dark boundary as such at a fixed position in the visual field, a glare light source parts 30 which are arranged in plurality on the perimeter of the target to irradiate the glare light and a control section which selectively presents the size and the luminance of the target displayed by the target presenting part 20 while controlling the lighting and the luminance of the light source at the glare light source part 30.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a glare contrast tester used in ophthalmic examinations.

[0002]

2. Description of the Related Art Cataract surgery in ophthalmic treatment has been widely performed in recent years. In this cataract surgery, there are problems in that it is necessary to accurately judge the operation adaptation time, that is, whether or not to perform the operation, and to inspect the visual function after the operation. The timing of surgery is determined comprehensively from various visual function tests. Generally, a glare test for checking contrast sensitivity and visibility is used in combination.

[0003] The most widely used test for visual function is a test table in which high contrast optotypes such as Landolt rings, pseudonyms, and numerals are arranged. On the other hand, there is a contrast sensitivity test for inspecting the visual function when the contrast is different. As a method of measuring the contrast sensitivity, a subject of a sinusoidal grid stripe is visually recognized by a subject,
There is a method in which the contrast of the fringe and the number of cycles (the number of fringes) are changed, and an inspection is performed based on how much the examinee has identified the difference between the number of fringes and the contrast.

[0004] The glare test is a visual function when the lens is opaque or when the surface of the cornea is operated by irradiating a laser, and fine irregularities are formed on the surface of the cornea. Used for inspection. If there is no opacity in the lens, the light that has entered the eye will not be scattered by the lens and the retinal image will not be blurred, but if there is opacity in the lens, light will be scattered by the lens. Then, the retina image is blurred and the target becomes blurred.

[0005] The effect of glare causes the difference between indoor visual acuity and outdoor visual acuity, and it is known that the difference between the indoor visual acuity and the outdoor visual acuity is large when the lens has opacity. In other words, when there is a lot of external light, such as outdoors, the effect of light entering the eye being scattered by the crystalline lens appears strongly. Therefore, if the crystalline lens has a malfunction, the visual acuity is reduced. Even when the cornea is treated with laser light, glare disorders after surgery can be easily measured by the glare test.

As a conventional glare test apparatus, a target such as a Landolt ring or a striped pattern is presented at the center of a screen viewed by a subject, and glare light is projected through a screen around the target. Or a screen provided with a glare light projection unit around the screen. These create a state where glare light simultaneously enters the eye when the subject visually recognizes the target. The projection of the glare light can be variously controlled, and the glare light can be emitted at a specific position around the target, or the glare light can be emitted so as to surround the target. .

[0007]

The glare test is intended to test the visual acuity in an environment with glare light, and is used for visual functions such as when there is cloudiness in the crystalline lens or when the surface of the cornea is treated with laser light. Very effective as a test. Since the visual function is obtained as numerical data in this test, the advantage is that it is possible to objectively judge the adaptability of surgery and the timing of surgery, and also to accurately grasp the state of visual function after surgery. is there.

However, when the contrast sensitivity is inspected together with the glare test in the visual function inspection, it cannot be said that the conventional glare test apparatus is always sufficient. That is, a conventional glare test apparatus is also used to perform an inspection by presenting a Landolt ring at the center position of the screen, but in this case, the Landolt ring has a constant contrast and cannot be inspected by changing the contrast. .

The present invention is an inspection apparatus which can be used effectively for inspection of visual functions, particularly for inspection of disorders caused by optical properties of the eyes such as opacity of the crystalline lens and corneal surface. An object of the present invention is to provide a glare contrast tester which can perform a certain contrast test and a glare test with the same apparatus, and enables a more accurate visual function test, and can be effectively used for a cataract test or the like.

[0010]

The present invention has the following arrangement to achieve the above object. That is, a glare contrast tester that tests a visual function by presenting a target under glare light projection within a field of view provided by blocking external light, and is a bright glare sandwiched between dark boundaries as the target. An optotype presenting section that presents one ring-shaped optotype having a portion at a fixed position in the visual field, a glare light source section that is arranged around the optotype and irradiates glare light, and the optotype presenting section Selectively present the size and luminance of the target displayed in the section,
Further, a control unit for controlling lighting and brightness of the light source in the glare light source unit is provided. Further, the ring-shaped target is set such that the brightness of the inner ring and the outer ring presented as a dark boundary is darker than the luminance of the background, and the inner ring and the outer ring are presented by the control unit. The brightness of the middle portion of the ring is set to be brighter than the brightness of the background. Further, the optotype presenting section is constituted by a black and white CRT for presenting the optotype,
A plurality of light sources are arranged at predetermined intervals around the optotype presenting unit as the glare light source unit.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the glare contrast tester according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is an external view of one embodiment of a glare contrast tester. In the figure, reference numeral 10 denotes an outer cover of the glare contrast tester. The optotype presenting unit 20, the glare light source unit 30, the power supply 60, the control unit 50, and the like are housed inside the exterior cover unit 10.

FIG. 2 shows a schematic configuration of the inside of the exterior cover unit 10. Reference numeral 12 denotes a viewing window provided on the front surface (the surface on the subject side) of the exterior cover unit 10. Dome 1 for shielding external light is provided inside exterior cover 10 behind viewing window 12.
4 is installed. An optotype presenting section 20 is provided on a rear surface of the dome section 14 facing the viewing window 12. In the present embodiment, a black and white CRT is used as the optotype presenting unit 20. The optotype presenting surface of the optotype presenting section 20 and the viewing window 12 are 350 mm.
They are provided at a certain distance. For the optotype presenting unit 20, another display such as an LCD can be used. Reference numeral 30 denotes a glare light source unit. In the present embodiment, a plurality of light bulbs are arranged around the optotype presenting section 20 to form a glare light source section. 32 is a diffusion plate.

In FIG. 1, the viewing window 1 at the front of the exterior cover 10 is shown.
Place the forehead 15 on the top of 2. The forehead 15 supports the subject's face so that it does not move back and forth during the examination, and enables a stable examination without wobbling the eye position. The forehead 15 is provided with a pair of left and right recesses so that the right eye and the left eye can be inspected separately.

Reference numeral 16 denotes a chin receiving portion. The chin receiving portion 16 is for placing the chin of the subject and adjusting the position of the eye of the subject to a predetermined height position. The height of the chin receiving portion 16 can be adjusted by operating the knob 18.

Reference numeral 40 denotes a display unit for allowing the examiner to visually recognize the presentation state of the target, the contrast, the control state of the glare light source unit, and the like during the examination. The display unit 40 is installed on the side surface of the exterior cover unit 10 at a position 90 degrees with respect to the surface on which the viewing window 12 is provided. By arranging the display unit 40 in this manner, the examiner can be placed in a lateral position with respect to the subject to perform the examination.

Reference numeral 42 denotes an input operation unit for operating the inspection device. In the embodiment, various operations are performed using a keyboard as the input operation unit 42. Since the inspection device is controlled by computer control, it is of course possible to use an input device other than a keyboard. Also,
It is also possible to install the input operation unit 42 integrally with the exterior cover unit 10 without providing the input operation unit 42 separately from the exterior cover unit 10. An output device 44 is used for outputting data and the like. In the present embodiment, a general-purpose printer is used as the output device 44.

The glare contrast tester according to the present embodiment has one feature in the form of the target presented by the target presenting unit 20. Next, the target presented by the target presenting unit 20 will be described. As described above, the optotype presenting section 20 presents one optotype at the center of the optotype presenting surface, in this embodiment, at the center of a black and white CRT. FIG. 3 shows a form of the optotype 22 presented by the optotype presenting section 20. The target is a ring having a bright portion sandwiched between dark boundaries.

In FIG. 3, the area A, which is the area inside the optotype, and the area B, which is the area outside the optotype, are background parts and are set to the same luminance. The inner ring 22a and the outer ring 22b arranged concentrically are set to have a darker brightness than the background portion. An intermediate portion (C portion) between the inner ring 22a and the outer ring 22b is set to be brighter than the brightness of the inner ring 22a and the outer ring 22b.

In the present embodiment, the background portion (A portion and B portion)
Set the brightness of the portion) to 20 cd / m ^2, the luminance of the ring 22b portion of the inner periphery of the ring 22a and the outer 15 cd / m
^2. The luminance of the portion C sandwiched between the inner ring 22a and the outer ring 22b was set to 25 cd / m ² . The brightness of each of these parts can be appropriately adjusted by computer control. When the optotype 22 is presented, the size can be changed appropriately, but the visual angle of the optotype outer diameter is 0.8
It is in the range of about 20 °. In addition, due to the shape of the target 22, the distance between the inner ring 22a and the outer ring 22b is about 1/5 of the diameter of the outer ring 22b.

A ring-shaped target having a bright portion sandwiched between such dark boundaries can almost match the recognition threshold value with the resolution threshold value. The target melts into the image and becomes the same as the background, making it impossible to determine the target. The use of the optotype in this embodiment in the present embodiment means that the visual function of the subject can be easily obtained as numerical data with high accuracy by changing the contrast of the optotype, and more accurate judgment can be made. In addition, since the target shape is ring-shaped and has no directionality, it is possible to eliminate the influence of the direction as in the case of using a striped target, and the like.

In addition to the presentation of the optotype, the glare contrast tester of this embodiment is characterized in that the visibility of the optotype by glare light can be measured. As described above, in the present embodiment, a plurality of light bulbs are arranged around the optotype presenting unit 20 to form the glare light source unit 30. FIG. 4 shows a state in which a bulb is actually arranged as the glare light source unit 30 around the optotype presenting unit 20. The optotype presenting unit 20 uses a 5-inch CRT in the embodiment, and the bulb as the glare light source unit 30 has a diameter of 1 around the optotype presenting unit 20 in the embodiment.
Eight pieces were arranged on the circumference of 50 mm at equal intervals. Of course, the number of light bulbs arranged around the target can be changed as appropriate, and another light source can be used instead of the light bulb.

It is possible to turn on all the bulbs or select an arbitrary bulb. Diffuser 32 on the front of the bulb
Is provided. The diffusion plate 32 has a transmittance of 80%. The glare light from the bulb is semi-fixed with a maximum brightness of 10,000 cd / m ² . The background illumination, that is, the inside of the dome portion 14 can be adjusted at 0 to 12.7 cd / m ² , and is usually set at 10 cd / m ² in a semi-fixed manner. This background illumination is the same as the luminance of a portion other than the optotype portion of the monochrome CRT that presents the optotype.

FIG. 4 shows a state in which the optotype 22 is presented at the center of the optotype presenting section 20 for explanation. However, in an actual test, the CRT of the optotype presenting section 20 is also displayed to the subject. The arrangement of the light bulbs in the glare light source unit 20 is not visible, and the target is presented in a field of view kept dark as a whole, and the glare light is inspected in a state in which glare light enters the subject as backlight against the subject. You. The test proceeds as to whether or not the subject can see the optotype presented under the backlight while responding to the examiner.

FIG. 5 is a block diagram of the glare contrast tester according to this embodiment. Reference numeral 50 denotes a control unit of the computer main body, which controls presentation of a target, blinking of a glare light source, and the like.
It performs various controls such as displaying various information and printing inspection results. The optotype presenting section 20 is controlled by the image control section 51 based on a control signal from the control section 50, and is controlled so that a predetermined optotype is presented as an image. Glare light source unit 30
Is controlled via a lamp driver 52 controlled based on an output signal of the control unit 50. The display unit 40 displays the operation status of the inspection program, the inspection result, and the like. 5
Reference numeral 3 denotes a graphic board for displaying an image on the display unit 40.

Various controls for the control unit 50 are performed by the input operation unit 42. That is, the input operation unit 42 performs an operation such as selecting a specific program for controlling the presentation of the optotype or the lighting of the glare light source lamp or the like at the time of the examination, or setting as needed by the examiner. Numeral 54 denotes an FDD drive, which can store inspection result data on a floppy disk and install an inspection program from the floppy disk.

Reference numeral 55 denotes a patient response switch for allowing the control unit 50 to capture a response from the subject. The patient response switch 55 responds to the examiner's question by pressing the patient response switch 55. Based on the response result, the examiner may operate to move to the next step. Control unit 5 based on the response result.
The program can be programmed so that 0 automatically proceeds to the next step. It can also be used for dynamic measurements.

As described above, in the glare contrast tester of the present embodiment, whether the subject can visually recognize the optotype for the contrast test sequentially presented by the optotype presenting section 20 in the state where the glare light is irradiated. Inspection proceeds in response to a negative response. The glare test is very effective for cataracts and the case where the surface of the cornea of the eye is exposed. In the present embodiment, a ring-shaped target is presented. And the glare light test at the same time as the contrast test can be performed by the same inspection apparatus, so that it can be used particularly effectively for the inspection of cataracts and the like.

Using the same inspection apparatus as that of the glare contrast tester of this embodiment, a healthy person, a cataract person,
According to the result of the test conducted on the OL inserter, it was confirmed that a value close to CSV was obtained. Since the glare contrast tester according to the present invention can obtain the visual function of the subject as objective data, it can be effectively used as visual function evaluation. For example, it is objectively possible to judge the suitability of cataract surgery, the timing of surgery, etc. from the test results,
It can also be used effectively for the degree of recovery of visual function after surgery and for visual function tests in retinal vitreous surgery and macular disease.

[0029]

According to the glare contrast tester of the present invention, as described above, a contrast test using glare light can be performed by the same test apparatus, and therefore, it is extremely effective for testing ophthalmic diseases such as cataracts. It can be used for In addition, since the test result can be obtained as highly accurate objective data, a more accurate visual function evaluation can be performed, and the remarkable effects such as being able to be widely used for clinical applications are exhibited.

[Brief description of the drawings]

FIG. 1 is an external view of an embodiment of a glare contrast tester.

FIG. 2 is an explanatory diagram showing a schematic structure inside a glare contrast tester.

FIG. 3 is a front view showing the form of a target presented by a glare contrast tester.

FIG. 4 is an explanatory diagram showing an arrangement of a glare light source unit installed on a glare contrast tester.

FIG. 5 is a block diagram of a glare contrast tester.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Exterior cover part 12 Viewing window 14 Dome part 15 Forehead support 16 Chin receiving part 18 Knob 20 Optotype presenting part 22 Optotype 22a Inner ring part 22b Outer ring part 30 Glare light source part 40 Display part 42 Input operation part 44 Output device 50 Control unit 52 Lamp driver 55 Patient response switch 60 Power supply

Claims (3)

[Claims] 1. A glare contrast tester for inspecting a visual function by presenting a target under a glare light projection in a visual field provided by blocking external light, wherein the glare contrast tester is sandwiched between dark boundaries as the target. A target presenting unit that presents one ring-shaped target having a bright portion at a fixed position in the visual field, a glare light source unit that is arranged around the target and emits glare light, A glare contrast tester, comprising: a control unit for selectively presenting the size and luminance of an optotype to be displayed by an optotype presenting unit and controlling lighting and luminance of a light source in the glare light source unit. 2. The method according to claim 1, wherein the control unit sets the brightness of the inner ring and the outer ring that are presented as dark boundaries to be lower than the brightness of the background. 2. The glare contrast tester according to claim 1, wherein the luminance of an intermediate portion between the outer ring and the outer ring is set to be higher than the luminance of the background. 3. The optotype presenting section is constituted by a black and white CRT for presenting the optotype, and a plurality of light sources are arranged at predetermined intervals around the optotype presenting section as the glare light source section. The glare contrast tester according to claim 1 or 2, wherein