JP2021132823A - Visual field abnormality diagnostic method and visual field abnormality diagnostic device - Google Patents

Abstract

To provide a novel visual field abnormality diagnostic method and a visual field abnormality diagnostic device for diagnosis of abnormality in a visual field such as a visual field defect.SOLUTION: The method causes a subject to gaze with one of his or her eyes the center part of a screen on which a digital random noise image of a snow noise or a color noise are displayed, and diagnoses whether a visual field is abnormal or not based on how the screen appears.SELECTED DRAWING: Figure 1

Description

The present invention relates to a visual field abnormality diagnosis method for diagnosing a visual field abnormality such as a visual field defect, and a visual field abnormality diagnosis device.

Many eye diseases are accompanied by visual field abnormalities such as visual field defects. For example, when suffering from glaucoma, an abnormality occurs in the optic nerve as the intraocular pressure increases, causing visual acuity and visual field impairment. Although current medical practice has not established a method for recovering a damaged optic nerve, it is possible to slow the progression and avoid the risk of blindness by starting treatment for the disease early.

However, the progression of eye diseases is often slow and most of them have few subjective symptoms. If you go to an ophthalmologist, you can detect the disease at an early stage with a specialized testing device, but the motivation to go to an ophthalmologist without any subjective symptoms cannot easily occur in general life.

Therefore, a visual field abnormality self-diagnosis chart has been developed that allows a simple diagnosis of visual field abnormality at home (see, for example, Patent Document 1 below).

There is also a report that visual field abnormalities can be diagnosed by the appearance of an analog noise screen called "snow noise" caused by radio interference in an analog television receiver (see, for example, Non-Patent Document 2 below). ..

Japanese Unexamined Patent Publication No. 2011-78469 Journal of the Japanese Society of Eyes 96: 492-495, 1992 "Detection of visual field abnormalities in low-tension glaucoma using the noise screen of a home television"

In the diagnosis of visual field abnormality by the visual field abnormality self-diagnosis chart disclosed in Patent Document 1, the subject himself rotates the sheet while staring at the fixed viewpoint printed in the center of the sheet, and the inspection visual field is arranged around the fixed viewpoint. It is a mechanism to diagnose visual field abnormality depending on whether the target looks normal or not.

That is, in the diagnosis of visual field abnormality proposed in Patent Document 1, if the visual field abnormality is not visible, it is determined that the visual field abnormality is present. Accurate rotation of the sheet around a fixed viewpoint was unexpectedly difficult, and it was difficult to say that an accurate diagnosis could always be made.

On the other hand, in the diagnostic method disclosed in Non-Patent Document 1, the quality of the image differs depending on the quality of the receiver and the radio wave condition, so that the reliability of the appearance of the screen at the time of diagnosis cannot be ensured.

The present invention has been completed in view of the above technical problems, and an object of the present invention is to provide a novel visual field abnormality diagnosis method for diagnosing visual field abnormalities such as visual field defects, and a visual field abnormality diagnosis device.

In the method for diagnosing visual field abnormality of the present invention, which solves the technical problem, a subject is made to stare at the central part of a screen on which a digital random noise image of snow noise or color noise is displayed with one eye, and is based on the appearance of the screen. It is characterized by diagnosing the presence or absence of visual field abnormality (hereinafter, referred to as "the diagnostic method of the present invention").

In the diagnostic method of the present invention, a screen in which any of the dot size, saturation, brightness, or frequency of the digital random noise image is changed is further displayed, and the visual field abnormality is caused based on the appearance of the changed screen. Diagnosis of the presence or absence is a preferred embodiment.

The visual field abnormality diagnostic device of the present invention that solves the technical problem is a visual field abnormality diagnostic device for diagnosing the presence or absence of a visual field abnormality, and includes a display device and a control device. A mechanism is provided in which a command for displaying a digital random noise image of snow noise or color noise is given to the screen of the display device via the above (hereinafter, referred to as "diagnosis device of the present invention").

In the diagnostic apparatus of the present invention, it is preferable that any one of the dot size, saturation, brightness, or frequency of the digital random noise image displayed on the screen of the display device can be changed via the control device. It becomes an aspect.

According to the present invention, visual field abnormalities such as visual field defects can be diagnosed, and the subject himself can self-diagnose visual field abnormalities.

FIG. 1 is a block diagram showing an outline of the diagnostic apparatus of the present invention. FIG. 2 is a front view showing how a subject having normal vision sees a digital random noise image displayed on the screen of the display device of the diagnostic apparatus of the present invention. FIG. 3 is a front view showing an example of how a subject having a visual field abnormality sees a digital random noise image displayed on the screen of the display device of the diagnostic apparatus of the present invention. FIG. 4 is a front view showing a display device of the diagnostic device of the present invention for displaying a digital random noise image by changing the dot size.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings, but the present invention is not limited to this embodiment.

<Diagnostic apparatus 1 of the present invention>
FIG. 1 shows an embodiment of the diagnostic apparatus 1 of the present invention. The diagnostic device 1 of the present invention includes a "display device (2)" and a "control device (3)".

-Display device 2-
The display device 2 is a device having a screen for displaying an image generally called a monitor or a display. In the present embodiment, a liquid crystal display having a screen size of 24 inches is used as the display device 2.

-Control device 3-
The control device 3 plays a role of determining an image to be displayed on the display device 2. In the present embodiment, a computer is used as the control device 3, and a mechanism is provided in which a command for displaying a digital random noise image of snow noise or color noise is given to the screen of the display device 2 via the control device 3. It was constructed. The "digital random noise image" in the present invention means computer graphics digitally processed so that fine dots having different brightness and saturation flicker uniformly at a constant frequency on the entire screen. And, in the digital random noise image, "snow noise" means a monotone image made only of white and black dots, and "color noise" means not only white and black dots but also dots of all colors. It means a color image that is randomly selected and displayed.

In the present embodiment, a single sheet is drawn by drawing randomly colored quadrangular dots (dot size 3 ± 2 mm) with high brightness by a random number generation function (XorShift method) from the upper left to the lower right of the screen. By repeating the image creation step of creating an image and the image display step of displaying this image on the screen of the display device 2 at a frequency of 60 Hz, a digital random noise image (color noise) is displayed on the display device 2. bottom.

The diagnostic device 1 of the present invention is a device for executing the diagnostic method of the present invention for determining the presence or absence of visual field abnormality. Hereinafter, the diagnostic method of the present invention using the diagnostic apparatus 1 of the present invention will be described.

<Diagnosis method of the present invention>
In the diagnostic method of the present invention, the subject is made to stare at the central portion of the screen on which the digital random noise image is displayed with one eye, and the presence or absence of visual field abnormality is diagnosed based on the appearance of the screen.

-For normal vision-
When the subject's vision is normal, the digital random noise image displayed on the screen of the display device 2 as shown in FIG. 2 is in the same state, that is, fine dots are uniform at a constant frequency over the entire screen. It has been confirmed that it looks as it is in a flickering state.

-If there is an abnormality in the visual field-
On the other hand, when the subject has a visual field abnormality such as a visual field defect due to glaucoma or the like, the appearance of the digital random noise image displayed on the screen of the display device 2 does not remain as it is, and FIG. 3 shows. As shown, it has been confirmed that a cloud-covered portion (X), in other words, a “dark-looking portion” or a “dot flicker-free portion” can be seen in a part of the screen. It has been confirmed that the part (X) that appears to be covered with clouds occurs at the bottom of the screen when the visual field defect occurs at the lower side of the visual field range, and occurs at the upper part of the screen when it occurs at the upper side. .. It has also been confirmed that when the visual field defect occurs on the right side of the visual field range, it occurs on the right side of the screen, and when it occurs on the left side, it occurs on the left side of the screen.

From this, according to the present invention, the visual field abnormality can be diagnosed only by looking at the screen on which the digital random noise image is displayed. The time required for diagnosis is about 3 to 5 seconds for each eye, and diagnosis can be performed in a short time. In addition, since the presence or absence of visual field abnormality is determined based on the abnormality in the appearance of the screen, it is possible to make a diagnosis with higher accuracy than the conventional diagnosis chart that diagnoses the visual field abnormality based on the invisibleness. Further, since the digital random noise image can stably display a certain image quality as compared with the analog random noise image, the reliability of the diagnosis can be ensured.

By the way, in the present embodiment, the visual field abnormality is diagnosed on the screen displaying the digital random noise image having a constant dot size and frequency, but in the diagnosis method of the present invention, for example, the digital as shown in FIG. 4 is diagnosed. A screen in which the dot size of the dots that make up the noise has been changed, or a screen in which any of the saturation, brightness, or frequency of the dots has been changed is displayed, and the presence or absence of visual field abnormality is based on the appearance of the changed screen. Is a preferred embodiment.

In addition to the primary diagnosis of visual field abnormality by the screen displaying the digital random noise image in a certain range of dot size and frequency, the secondary display of the digital random noise image in which either the dot size, coloring, or frequency is changed. It has been confirmed that a diagnosis can detect mild visual field abnormalities that may be overlooked by the primary diagnosis alone.

For example, if a visual field abnormality is observed in a digital random noise image having a frequency exceeding 15 Hz for a certain subject, this subject can be diagnosed with a visual field abnormality of 15 Hz. On the other hand, if a visual field abnormality is observed in a digital random noise image having a frequency exceeding 30 Hz for another subject, this subject can be diagnosed with a visual field abnormality of 30 Hz.

This also applies to diagnosis by changing the dot size and coloring. Therefore, by showing the subject a digital random noise image in which the dot size, coloring, or frequency is continuously changed, the dot size and coloring (brightness, saturation, and color distribution) in which visual field abnormality is observed are observed. , The frequency range can be specified, and thus quantitative diagnosis (degree of visual field abnormality) can be performed in addition to qualitative diagnosis (presence or absence of visual field abnormality).

Therefore, also in the diagnostic device of the present invention, any one of the dot size, saturation, brightness, color distribution, or frequency of the digital random noise image displayed on the screen of the display device 2 is changed via the control device 3. What is made possible is the preferred embodiment.

The dot size, saturation, brightness, and frequency of the dots that make up the digital random noise image can be changed arbitrarily by setting the algorithm of the program that creates the digital random noise image. It is preferable that the dot size can be changed in the range of 1 to 20 mm (more preferably 1 to 5 mm).

Regarding the saturation, lightness, and color distribution of dots, any hue can be appropriately selected according to the display capability of the selected display device 2, such as black and white, color, and shading. Further, a digital random noise image of only a specific selected color such as yellow or blue may be constructed.

The frequency of the digital random noise image can be changed in an arbitrary range (for example, in the range of 0 to 240 Hz) and at an arbitrary interval (for example, an interval of 1 msec) according to the performance of the selected display device 2. ..

In the present invention, the production environment for the digital random noise image is not particularly limited. The digital random noise image can be created using, for example, Windows (registered trademark), OpenGL Utility Toolkit (registered trademark), Visual Studio (registered trademark), GLUT library (registered trademark), and the like.

Further, in the present invention, the pseudo-random number creation method for producing randomness in creating a digital random noise image is not particularly limited. Examples of the pseudo-random number creation method include the linear congruential method and the Mersenne Twister method, in addition to the XorShift method used in the present embodiment.

In the present embodiment, a 24-inch liquid crystal display is used as the display device 2, but the image display method of the display device 2 is not particularly limited, and for example, an image display method such as plasma or organic EL. Is also good. Further, the form of the display device 2 is not particularly limited, and any form of display such as a head-mounted display such as a head-mounted display can be used as the display device 2. Further, the screen size of the display device 2 is not particularly limited, and for example, a large panel as in a stadium may be used. The general size of the display device 2 is preferably 5 to 100 inches.

Further, in the present embodiment, the subject self-diagnoses the visual field abnormality using the diagnostic apparatus 1 of the present invention, but the implementation of the diagnostic method of the present invention is not limited to this aspect. For example, the diagnostic method of the present invention may be constructed as application software capable of displaying a digital random noise image on a mobile terminal such as a smartphone, a personal computer, or a screen of a television or the like, and a system that can be captured by downloading or the like may be constructed. In addition, a system that remotely diagnoses visual field abnormalities by creating a site that displays the screen of digital random noise images on a homepage operated by an expert such as an ophthalmologist and allowing the subject to communicate the appearance of the screen online. May be constructed.

It should be noted that the present invention can be practiced in various other forms without departing from its spirit or major features. Therefore, the above embodiments are merely exemplary in all respects and should not be construed in a limited way. The scope of the present invention is shown by the scope of claims, and is not bound by the text of the specification. Furthermore, all modifications and modifications that fall within the equivalent scope of the claims are within the scope of the present invention.

The present invention is suitably used as a means for diagnosing visual field abnormalities.

1 Diagnostic apparatus of the present invention (visual field abnormality diagnostic apparatus)
2 Display device 3 Control device

Claims (4)

A visual field abnormality diagnosis method characterized in that a subject is made to stare at the central portion of a screen on which a digital random noise image of snow noise or color noise is displayed with one eye, and the presence or absence of visual field abnormality is diagnosed based on the appearance of the screen. .. In the visual field abnormality diagnosis method according to claim 1,
Further, a visual field abnormality diagnosis method for displaying a screen in which any of the dot size, saturation, brightness, or frequency of the digital random noise image is changed and diagnosing the presence or absence of visual field abnormality based on the appearance of the changed screen. .. It is a visual field abnormality diagnostic device for diagnosing the presence or absence of visual field abnormality.
Display device and
Control device and
Be equipped with
A visual field abnormality diagnostic device characterized in that a mechanism is provided in which a command for displaying a digital random noise image of snow noise or color noise is given to the screen of the display device via the control device. In the visual field abnormality diagnostic apparatus according to claim 3,
A visual field abnormality diagnostic device in which any one of the dot size, saturation, brightness, or frequency of a digital random noise image displayed on the screen of the display device can be changed via the control device.

Images