KR20200049182A - The method and system for pre-perimetric glaucoma diagnosis - Google Patents

Abstract

The present invention relates to a method of configuring a system for diagnosis of glaucoma suspect among eye diseases which can cause blindness, and more specifically, to a method of configuring a system for diagnosis of glaucoma suspect, which automatically diagnoses glaucoma suspect by using fundus image data which is generally used for diagnosis of glaucoma in eye medicine, and induces precise diagnosis. In addition, the method of configuring a system for diagnosis of glaucoma suspect according to an embodiment of the present invention provides an effect of enabling accurate diagnosis of glaucoma suspect instead of subjective diagnosis deriving different results depending on specialists by determining glaucoma suspect through a fundus image analysis algorithm for diagnosis of glaucoma suspect. Also, an examinee checks a result by directly inputting fundus image data to a system for diagnosis of glaucoma suspect with omitting consultation with a specialist after funduscopy while photographing only an image in the funduscopy, thereby efficiently reducing a diagnosis time, and relieving mental burden of a specialist who needs to derive an accurate diagnosis result only with fundus image data. Further, the method of configuring a system for diagnosis of glaucoma suspect according to an embodiment of the present invention provides an effect of determining diagnosis of glaucoma suspect based on an objective and scientific algorithm so as to notify the result to an examinee and induce precise examination, thereby allowing the examinee to find out and treat glaucoma in early stages.

Description

The method and system for pre-perimetric glaucoma diagnosis}

The present invention relates to a method for constructing a system for diagnosing glaucoma symptoms among ophthalmic diseases that may cause blindness, and more specifically, to diagnose glaucoma symptoms automatically by using fundus image data commonly used for glaucoma diagnosis in ophthalmology. The present invention relates to a method for constructing a system for diagnosing glaucoma symptoms induced by precise diagnosis.

Glaucoma is a typical ophthalmic disease that causes visual field defects and blindness due to damage to the optic nerve or impaired blood supply due to an increase in intraocular pressure. Due to the increase in use, the outbreak is also rapidly increasing in young people, such as those in their 20s and 30s.

When these glaucoma are diagnosed early and are not treated, permanent visual field defects are left, so a fundus examination method for optic nerve examination is mainly used to detect and treat a large number of blindness diseases early.

As a prior art, a program device for automatically diagnosing optic nerve disease using the thickness pattern of Patent No. 10-1095302, and its program method, is a device for diagnosing optic nerve disease by measuring the thickness of the optic nerve fiber layer to diagnose optic nerve disease including glaucoma. In addition, a scanning unit that scans around the optic nerve nipple along the optic nerve margin (margin); A pattern analysis unit that analyzes the pattern of the optic nerve fiber layer scanned by the scan unit; And a disease determination unit for determining a disease based on the pattern of the optic nerve fiber layer analyzed by the pattern analysis unit.

As a method of supporting the reading of the fundus image with respect to the subject of Patent No. 10-1848321 as a registered prior art, and a device using the same, in a method of supporting the reading of the fundus image with respect to the subject, (a) Supporting a computing device to acquire a fundus image of the subject or to obtain another device linked to the computing device; (b) the computing device extracting the attribute information from the fundus image based on a machine learning model for extracting the attribute information of the fundus image or supporting the other device to extract; And (c) the computing device providing the extracted attribute information to an external entity or assisting the other device to provide the attribute information of the fundus image, wherein the fundus image is the left eye. Binocular segmentation information indicating whether the image is a right eye image or a right eye image, location information indicating a location of at least one of the macular and optic nerve nipples included in the fundus image, segmentation information representing a segment of the fundus image, included in the fundus image It is described as a method for supporting fundus image reading, characterized in that it comprises at least one of blood vessel information displayed by separating only images of the optic nerve vessels and C / D ratio (cup-to-disk ratio) according to the fundus image. have.

However, the fundus examination of the conventional configuration as described above is the only non-invasive examination that can directly observe the retina, choroid, and optic nerve nipples by photography, but can diagnose the ophthalmic disease early, but after the fundus examination Through interviews, the results are determined according to the subjective diagnostic evaluation, but it is not easy for the specialist to determine the exact diagnosis to the patient by using fundus images alone, and there is a disadvantage in that the burden of psychological burden is increased.

Therefore, the present invention was devised to solve the above problems, and through the provision of a system for diagnosis of glaucoma diagnosis, which is easy to install, the subject directly inputs image data using fundus image data obtained during fundus examination. After that, it is an object of the present invention to provide a method for constructing a system for diagnosing glaucoma symptoms, so that the diagnosis system for glaucoma automatically provides diagnostic results for image analysis so that the examinee can decide whether or not to overhaul themselves.

In order to achieve the above object, a method of configuring a system for diagnosing glaucoma suspects according to an embodiment of the present invention includes a fundus image data obtained during fundus examination or an analog photograph printed on photo paper on the control unit of the system for diagnosing glaucoma suspects. Includes the ability to enter.

In this case, the fundus image data may be digital-type fundus image data stored in a storage medium such as USB. The fundus image data stored in the storage medium by connecting the storage medium to a system USB port for diagnosis of glaucoma suspect It is preferable to configure so that it can be input to the control of the system for the diagnosis of glaucoma.

In addition, it is preferable that the camera provided in the system for diagnosing glaucoma is configured to take an analog picture printed on a photo paper and input the analog picture as a digital data to the control unit.

It is preferable that the fundus image data is configured so that the control unit determines the diagnosis of glaucoma diagnosis by a fundus image analysis algorithm for diagnosing glaucoma diagnosis.

The system configuration method for diagnosing glaucoma suspicion according to an embodiment of the present invention is not a subjective diagnosis in which different results are derived according to a specialist by determining the glaucoma suspicion through a fundus image analysis algorithm for diagnosing glaucoma suspicion. This gives a possible effect.

In addition, in fundus examination, only the image is taken, after the fundus examination, the interview with a specialist is omitted, and the examinee directly inputs fundus image data into the system for diagnosing glaucoma suspicion and confirms the result, effectively reducing the diagnosis time. In addition, it provides an effect to relieve the mental burden of a specialist who has to derive an accurate diagnosis result only with fundus image data.

In addition, the method for constructing a system for diagnosing glaucoma suspected according to an embodiment of the present invention is determined by determining the diagnosis of glaucoma suspected based on an objective and scientific algorithm, notifying the test subject of the test result, and inducing it through a precise test to discover early It provides a treatable effect.

1 is a view showing a system for diagnosing glaucoma symptoms according to an embodiment of the present invention
2 is a view showing a connection configuration of a communication module, a camera, and an LCD touch panel connected to a control board that controls a system for diagnosing glaucoma diagnosis according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of a system for diagnosing glaucoma symptoms according to an embodiment of the present invention.

A method of constructing a system for diagnosing glaucoma suspicion of the present invention includes obtaining fundus image data from the control unit 70; The control unit 70 transmits the acquired fundus image data to the server (s70); When the control unit 70 receives the result determined for the diagnosis from the server (s80), displaying the result on the display panel so that the user can confirm the result; It is characterized by consisting of.

In addition, the control unit 70 includes a USB port 20 for connecting to a storage medium, a communication module 90 for receiving and transmitting results of image data with a server, a camera 80 for capturing analog pictures, and results Characterized in that the display panel for displaying is connected.

In addition, as a method of acquiring the safety image data from the control unit 70, a storage medium in which the safety image data is stored is connected to the USB port 20, or an analog picture is taken with the camera 80 to obtain the safety image data. It is characterized by.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

1 is a view showing a system for diagnosing glaucoma diagnosis according to an embodiment of the present invention, and FIG. 2 is a communication module, camera, and LCD connected to a control board controlling a system for diagnosing glaucoma diagnosis according to an embodiment of the present invention 3 is a flowchart illustrating a connection configuration of a touch panel, and FIG. 3 is an operation flowchart of a system for diagnosing glaucoma suspect according to an embodiment of the present invention.

In particular, the system for diagnosing glaucoma symptoms of the present invention includes a body 100; A transparent glass 10; A USB port 20 to connect a storage medium; An antenna 30; A display panel; A power plug 50; A button 60; A control unit 70; A camera 80; It is made of a communication module (90).

At this time, the control unit 70 uses a control board, and the display panel uses an LCD panel, but an LCD touch panel 40 that can be input by touch can be used.

Referring to FIG. 1, the system for diagnosing glaucoma suspicion is capable of receiving fundus image data obtained through fundus examination. The front surface of the body 100 receives digital fundus image data from a storage medium. When the USB port 20 is formed and the user connects a storage medium to the USB port 20, the control unit 70 recognizes the storage medium connected to the USB port 20, and the control unit 70 stores When the file stored in the medium is controlled to be displayed on the display panel, and the user selects the fundus image data, the selected fundus image data is copied from the storage medium to the control unit 70.

The upper portion of the body 100 is provided with a transparent glass 10 for positioning an analog photo printed on photo paper, and when the analog photo is positioned on the transparent glass 10, pressing the button 60, the body ( The camera 80 installed inside 100 captures an analog picture placed on the transparent glass 10 and transmits a signal to the control unit 70, but the control unit 70 obtains fundus image data.

The control unit 70 transmits the input fundus image data to the server through the communication module 90, and when receiving the diagnosis result from the server, controls the display panel to be checked by the user.

In addition, a power plug 50 for supplying power to the rear of the body 100 is disposed.

In addition, referring to FIG. 2, the control unit 70 includes a USB port 20 for connecting to a storage medium, a communication module 90 for receiving and transmitting image data to and from a server, and a camera for capturing analog pictures. 80, and a display panel for displaying the results are connected, control of the system for diagnosing glaucoma symptoms is controlled by the control unit 70, and the communication module 90 is connected to the antenna 30 It performs functions such as transmitting fundus image data and receiving results.

When the diagnosis result is received by the communication module 70, the control unit 70 controls to display the received result on the display panel so that the user can check it.

Hereinafter, referring to FIG. 3, a method of constructing a system for diagnosing glaucoma symptoms will be described.

In the present invention, the method for inputting fundus image data to the control unit 70 is applied according to a user's selection.

In the first method, when the digital fundus image data stored in the storage medium is to be input to the control unit 70, when the storage medium is connected to the USB port 20, the control unit 70 recognizes the connection of the storage medium ( s40), and controls the display panel to be driven (s50) to display a file on the display panel, and the display panel is an LCD touch panel 40, which is used by a user to display fundus image data desired by using the display panel through touch. If is selected, the fundus image data is input to the control unit 70.

As a second method, when the fundus image data using an analog photograph is to be input to the control unit 70, the analog photograph printed on the photo paper is placed in close contact with the transparent glass 10, and on the right side of the transparent glass 10. When the located button 60 is pressed (s20), when the camera 80 inside the body 100 takes an analog picture, digitally imaged fundus image data is input to the control unit 70.

Therefore, through one of the two methods described above, the control unit 70 acquires fundus image data for diagnosing glaucoma suspicion (s60).

When the fundus image data is acquired, the control unit 70 transmits the acquired fundus image data to the server (s70), and when a result determined for diagnosis is received by the server (s80), the user displays the result. It is displayed on the panel.

As described above, in the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, they are merely used in a general sense to easily describe the technical contents of the present invention and to help understand the invention. , It is not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modified examples based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

10: transparent glass
20: USB port
30: antenna
40: LCD touch panel
50: power plug
60: Button
70: control
80: camera
90: communication module
100: body

Claims (3)

Obtaining fundus image data from the controller 70; The control unit 70 transmits the acquired fundus image data to the server (s70); When the control unit 70 receives the result determined for the diagnosis from the server (s80), displaying the result on the display panel so that the user can confirm the result; System configuration method for the diagnosis of glaucoma symptoms, characterized in that consisting of The method of claim 1, wherein the control unit 70, a USB port for connecting to a storage medium (20), a communication module (90) for receiving and transmitting results of image data to and from the server, a camera (80) for capturing analog pictures ), And a display panel for displaying the results are connected to the system configuration method for the diagnosis of glaucoma symptoms The method of claim 2, wherein the control unit 70 is a method for acquiring safety image data, by connecting a storage medium in which the safety image data is stored in the USB port 20, or by taking an analog picture with the camera 80. System configuration method for diagnosis of glaucoma suspect, characterized by acquiring image data

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