KR100407676B1 - Digital ophthalmoscope for telemedicine - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital ophthalmoscope system, comprising: an optometry comprising illumination for irradiating light to observe the fundus, a reflector for reflecting light irradiated through the illumination to the fundus side, and a correcting lens for correcting hyperopia and myopia ; And a lens unit for capturing an ocular fundus image transmitted through the correcting lens of the ophthalmoscope, a storage unit for recording the fundus image photographed through the lens unit, and data for outputting the fundus image recorded in the storage unit to an external output device. Provided is a digital ophthalmoscope system having a digital photographing unit including an output unit and a control unit for controlling the lens unit, the memory unit, the data output unit and the like.

Accordingly, the present invention is to develop a low-cost portable digital ophthalmoscope system, it is possible to remotely receive the patient's fundus image from a remote patient, or to diagnose or diagnose, the doctors associated with the patient regardless of the geographic location of the fundus image Because it can be observed without increasing the confidence in the patient's judgment of the lesion, the patient can show the fundus image directly to the patient and explain the patient's own condition.

Description

Digital ophthalmoscope system for telemedicine {Digital ophthalmoscope for telemedicine}

The present invention relates to a digital ophthalmoscope system, and more particularly, it is used to diagnose a patient's disease by obtaining a patient's fundus image, and more particularly to a digital otoscope system for remote diagnosis to record the digitized fundus image.

The fundus refers to the second half of the retina in the eye. The fundus examination can be used to observe the macula, optic nerve papilla and retinal vessels, which are the central part of the retina. Eye exams can be done. From the shape of optic nerve papilla, it is used for diagnosis of various optic nerve diseases such as glaucoma, cerebral pressure increase, optic neuritis, ischemic neuropathy, and is essential for retinal diseases such as macular degeneration and prematurity retinopathy. In particular, it is a very important test for early diagnosis of glaucoma and macular degeneration, two of the three causes of blindness. An ophthalmoscope for examining such a fundus is a device for an ophthalmologist to observe the patient's fundus, and is equipped with illumination operated by a power source such as a battery, and a reflector for irradiating the light of the illumination to the fundus. And a correction lens for correcting myopia and hyperopia.

Such a conventional ophthalmoscope, only the ophthalmologist directly checks the patient's fundus state to make a diagnosis, there is a problem that the patient and the doctor must be in the same treatment place to diagnose the lesion.

Therefore, the present invention has been proposed to solve the above problems, and an object of the present invention is to allow the other doctors to check the fundus image of the patient in addition to the doctor or the doctor in a different place or the patient treating the patient. It is possible to increase the reliability of the diagnosis, and to provide a digital ophthalmoscope system that can enable remote medical care in the village.

In addition, the present invention is to provide a portable remote medical digital ophthalmoscope system that can obtain and store the fundus image at low cost.

In addition, the present invention is to provide a remote medical digital ophthalmoscope system that can explain the state while showing the patient's fundus image directly to the patient in the office.

In order to achieve the above object, the present invention, an illumination for irradiating light to observe the fundus, a reflector reflecting the light irradiated through the illumination to the fundus side and a sword comprising a correction lens for correcting hyperopia and myopia safety; And a lens unit for photographing the fundus image transmitted through the correction lens of the optometry unit, a storage unit for recording the fundus image photographed through the lens unit, and data for outputting the fundus image recorded in the storage unit to an external output device. It provides a remote medical digital ophthalmoscope system having a digital photographing unit including an output unit and a control unit for controlling the lens unit, the memory unit, the data output unit and the like.

In such a digital ophthalmoscope system, illumination emitted by a power source is reflected on the patient's fundus through a reflector, and the state of the fundus may be confirmed through a myopia and hyperopia correcting lens. At this time, the fundus image projected on the correction lens through the lens unit of the digital photographing unit is taken and recorded in the storage unit.

1 is a configuration diagram for explaining an embodiment according to the present invention.

2 is a flowchart illustrating an operation process according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram for explaining an embodiment according to the present invention, which shows an ophthalmoscope system 3 for photographing the fundus of the eyeball 1.

The ophthalmoscope system 3 includes an optometrist 5 and a digital photographing unit 7 for acquiring the state of the fundus obtained from the optometrist 5 as a digital image.

The optometry 5 includes an illumination 55 for emitting light by a power source such as a battery 51 and a reflector 53 for irradiating the light emitted from the illumination 55 to the fundus in the eyeball 1. have. The optometry 5 further includes a correcting lens 57 that corrects myopia and hyperopia to show the state of the fundus. In addition, the optometry 5 further includes a gaze target 56 for stopping the movement of the eye to determine the position of the fundus necessary for examination and imaging. The gaze target 56 is provided to the optometrist 5 to be displayed as a weak gaze lamp or gaze point so that a patient can observe or photograph a fundus image of a specific portion desired by the examiner while viewing the gaze target 56. will be. The watch target 56 is controlled by a control unit 79 to be described later, and when connected to a separate operation switch (not shown), the position of the target can be changed while shooting while watching the LCD screen of the display unit. This may help to obtain fundus images of the area.

The digital photographing unit 7 stores the lens unit 71 for photographing the fundus image transmitted through the correction lens 57 and the fundus image photographed through the lens unit 71 as digital signal values. And a storage unit 73 made of a flash memory. In addition, the digital photographing unit 7 includes a display unit 75 for observing a fundus image input through the lens unit 71 or a doctor diagnosing a lesion. The display unit 75 is composed of a normal liquid crystal screen.

In addition, the digital photographing unit 7 includes a data output unit 77 for transmitting the fundus data stored in the storage unit 73 to a computer 9 which is an external output device or the like, and the lens unit 71 described above. And a control unit 79 for controlling the storage unit 73, the display unit 77, and the data output unit 79.

The computer 9 connected to the ophthalmoscope system 3 so as to receive data from the data output unit 77 is preferably connected to a network (not shown). When the computer 9 is connected to a network, a digital fundus image stored in the memory 73 may be shared by a third party as needed, thereby enabling remote medical care and the like. In addition, a wireless terminal (10, mobile phone, etc.) may be connected to receive the data of the data output unit 77 through a wireless network (not shown). The wireless terminal 10 is connected to the ophthalmoscope system 3, the third party can share the fundus image stored in the storage unit 73 regardless of the place can further extend the scope of telemedicine Has an advantage.

The operation of the digital ophthalmoscope system configured as described above will be described in more detail with reference to FIGS. 1 and 2.

First, the doctor or examiner examines the fundus via the optometry 5 (S1). That is, when the power source is connected to the system of the present invention and operated, the illumination 55 irradiates light, and the light is irradiated to the fundus in the eye through the reflector 53. At this time, the correction lens 57 corrects myopia and hyperopia to show the state of the fundus as an image. At this time, when the inspector manipulates the watch target 56 and the operation switch to obtain the fundus image of the specific site, the controller 79 displays the watch target 56 with light or dots at a position selected by the inspector (S2). . At this time, the patient looks at the observation target 56 according to the inspector's instructions, so that the examiner can check the fundus of the specific region through the LCD screen.

Then, the lens unit 71 of the digital photographing unit 7 captures the fundus image input through the correction lens 57 under the control of the control unit 79 (S3). Of course, the eye fundus image is projected onto the display unit 75 before the photographing so that the doctor or inspector can visually check the necessary data and accurately photograph the subject.

Subsequently, the control unit 79 controls the photographed fundus image to be stored as a digital signal in the storage unit 73 and, if necessary, uses a public communication network such as a computer or a mobile phone, which is an external output device, through the data output unit 77. Output to a wireless communication device. When the fundus image signal is input to the computer 9, the inspector or the doctor may process the fundus image data as necessary and transmit the fundus image data to another medical institution or a doctor using a network. In addition, when using a printer or the like as an external output device there is an advantage that can be viewed by printing a large amount of fundus image.

Therefore, there is an advantage that it is possible to enable remote imaging and the like using a relatively low-cost system. And when using such a miniaturized system can have the advantage of easy to move and easy to use.

As described above, the present invention enables remote medical examination to obtain or diagnose a fundus image of a remote patient at a low cost, and the doctors associated with the patient can observe the fundus image regardless of a local place to determine the lesion of the patient. It has the effect of increasing confidence in. By showing the patient's fundus image directly to the patient in the doctor's office, he can explain the condition of the patient.

Claims (4)

Illumination that illuminates to observe the fundus, Reflector reflecting the light irradiated through the illumination to the fundus side, Correction lens for correcting hyperopia and myopia, Observation target that is controlled by the controller and placed in a specific position so that the inspector can photograph the specific part of the patient's fundus Optometry including; And A lens unit for photographing the fundus image transmitted through the correction lens of the optometry unit, A memory unit for recording the fundus image photographed through the lens unit; A data output unit for outputting the fundus image recorded in the storage unit to an output device; A controller for controlling the lens unit, the memory unit, the data output unit, etc .; Liquid crystal display unit for visually viewing the fundus image transmitted through the lens unit Digital photographing unit comprising a; Remotely equipped digital medical ophthalmoscope system. delete The method of claim 1, wherein the digital ophthalmoscope system And a digital medical ophthalmoscope system connected to the data output unit to transmit the fundus image data recorded in the storage unit to a personal computer or a wireless terminal. delete