JP2006158749A - Placido ring image photographing device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable to accurately measure a cornea shape based on a placido ring image even when the placido ring image of the shape deviated remarkably from a concentric circle shape is obtained. <P>SOLUTION: The device is equipped with a light source 1 for photographing the placido ring image comprising a plurality of ring-like light sources 2a-2f arranged in a concentric circle shape, a video camera 9 for photographing the projected image of the light on the cornea of an eye to be examined when light irradiates the eye 3 to be examined from the light source for photographing the placido ring image, an A/D conversion part 10, a memory part 12 for storing a digital image data outputted from the A/D conversion part, and a control part 11 which lets one or a plurality of the ring-like light sources of the light source for photographing the placido ring image light, lets the video camera photograph every time the projected image of the light from the ring-like light sources on the cornea of the eye to be examined, and stores the digital image data outputted from the A/D conversion part together with the position information in the concentric circle pattern of the ring-shaped light sources in the memory part. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a platide ring image photographing apparatus that irradiates concentric light on the corneal surface of a subject eye and photographs a platidal ring image in which the corneal shape of the subject eye is recorded by a concentric pattern.

  2. Description of the Related Art Conventionally, in the field of ophthalmology, a platidal ring image of a subject's eye is photographed using a platid ring image photographing device, and the corneal shape of the subject's eye is measured based on the obtained platid ring image.

The placido ring imaging device includes a platid ring imaging light source that emits concentric light to the cornea of the eye to be examined, and a light on the cornea of the eye to be inspected when light is emitted from the platid ring imaging light source. And a camera for taking a projected image of the light.
A light source for photographing a placido ring includes a housing having a front opening, a panel fitted in the front opening of the housing and having a concentric light-transmitting pattern, and a lamp disposed inside the housing and behind the panel. I have. When the lamp is turned on, concentric light is irradiated to the outside of the housing through the light transmission pattern of the panel.
A placido ring image capturing opening is formed at the center of the concentric light transmission pattern on the panel, and a camera is disposed inside the housing to face the placido ring image capturing opening.

Then, the placido ring image photographing device is set so that the front panel of the housing is arranged to face the eye to be examined, and concentric light is irradiated from the placido ring light source to the cornea of the eye to be examined. The projected image of the light, that is, a platid ring image in which the corneal shape of the eye to be examined is recorded by a concentric pattern is taken by the camera.

However, when the eye to be examined has an irregular cornea such as a keratoconus, the captured platid ring image is significantly disturbed from the concentric pattern, and each ring of the platid ring image is captured by the platid ring image. It is difficult to determine the number of ring-shaped light from the center of the light source for use, and there is a case where an error occurs in the specific work. As a result, there has been a problem that an erroneous measurement result of the corneal shape is obtained.
JP-A-11-137520 JP-A-8-66369

  Accordingly, an object of the present invention is to provide an eye to be examined having an irregular cornea such as a keratoconus, and even when a platidling image having a significantly disturbed shape from a concentric circular shape is obtained, The purpose is to enable accurate measurement of the corneal shape.

  In order to solve the above problems, the present invention comprises a plurality of ring-shaped light sources arranged concentrically, and includes a platid ring image photographing light source disposed facing the eye to be examined, and the platid ring image photographing light source. Projected image of the light on the cornea of the eye to be examined when the cornea of the eye to be examined is irradiated from the light source for imaging a placido ring image at the central portion of the concentric pattern. A video camera, an A / D converter that converts the video signal output from the video camera and outputs digital image data, and a memory that stores the digital image data output from the A / D converter And the operation of the light source for photographing the placido ring image and the video camera in synchronization with the operation timing of the A / D converter, and the placido ring image One or a plurality of ring-shaped light sources for shadows are turned on each time, and each time the A / D is projected onto the cornea of the eye to be examined, the projected image of the light from the ring-shaped light source is captured by the video camera. A control unit for storing the digital image data output from the conversion unit in the memory unit together with position information in the concentric pattern of the ring-shaped light source; It is composed.

  In order to solve the above-described problems, the present invention also includes a light source for photographing a placido ring image, which is arranged to face a subject's eye, and includes a plurality of ring light sources arranged concentrically. A concentric circular pattern of the light source is disposed opposite to the eye to be examined, and when the cornea of the eye to be examined is irradiated with light from the light source for imaging a placido ring image, the light on the cornea of the eye to be examined is A digital camera that captures a projected image, a memory unit that stores digital image data output from the digital camera, a light source for photographing a placido ring image, and an operation of the digital camera, and the light source for placido ring image photographing Each of the ring-shaped light sources is turned on one by one or more, and each time a projected image of light from the ring-shaped light source on the cornea of the eye to be examined is displayed. A control unit that causes the digital camera to capture the digital image data output from the digital camera and store the digital image data in the memory unit together with position information in the concentric pattern of the ring-shaped light source. The characteristic placido ring imaging device is configured.

  In the above configuration, preferably, each of the ring-shaped light sources constituting the light source for photographing a placido ring image is a light irradiation unit including a plurality of LEDs arranged at intervals on a circumference having a size corresponding thereto. have.

  According to the present invention, in a platid ring image photographing light source composed of a plurality of ring-shaped light sources arranged concentrically, one or a plurality of ring-shaped light sources constituting the light source are turned on each time. Since the projection image of the ring-shaped light source on the cornea is recorded together with the positional information in the concentric pattern of the ring-shaped light source, the captured platid ring image can be obtained even with an irregular cornea such as a keratoconus. , It is possible to accurately identify the number of ring-shaped light sources from the center of the light source for photographing a placido ring image, and thereby accurately measure the corneal shape of the eye to be examined from the placido ring image. .

  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a block diagram showing a schematic configuration of a placido ring imaging apparatus according to one embodiment of the present invention. Referring to FIG. 1, the placido ring image photographing apparatus of the present invention includes a placido ring image light source 1. The light source 1 for photographing a placido ring image is composed of a plurality of ring-shaped light sources 2a to 2f arranged concentrically, and is arranged facing the eye 3 to be examined.

As shown in FIG. 1, the light source 1 for photographing a placido ring image includes a housing 4 having a front opening, and a panel 5 is fitted in the front opening of the housing 4. FIG. 3 is a front view of the light source 1 for photographing a placido ring image. Referring to FIG. 3, a plurality of (eight in this embodiment) LEDs 7 are arranged on panel 5 along each circumference 6a-6f constituting a concentric pattern. And the light irradiation part of one corresponding ring-shaped light source is formed from LED7 which belongs to one circumference.
Although not shown, each LED 7 is connected to a power source through a cable. The lighting operation of each LED 7 is controlled by the control unit 11 described later for each of one or a plurality of ring-shaped light sources.

  Thus, according to the present invention, the light irradiating part of each ring-shaped light source is formed from a plurality of LEDs arranged at intervals on the corresponding circumference, so that the ring-shaped light source can be manufactured very easily and This can be done at low cost.

At the center of the concentric pattern in the panel 5, a placido ring image capturing opening 8 is formed, and inside the housing 4, a video camera 9 is disposed so as to face the placido ring image capturing opening 8. The video camera 9 captures a projection image of the light on the cornea of the eye 3 to be examined when light is emitted from the light source 1 for photographing a placido ring image to the cornea of the eye 3 to be examined.

The video signal output from the video camera 9 is converted into digital image data by the A / D converter 10.
The digital image data output from the A / D conversion unit 10 is stored in the memory unit 12.

The placido ring image capturing apparatus further includes a control unit 11 that controls the operations of the placido ring image capturing light source 1 and the video camera 9 in synchronization with the operation timing of the A / D conversion unit 10. In synchronization with the operation timing of the A / D conversion unit 10, the control unit 11 lights one or a plurality of ring-shaped light sources 2 a to 2 f of the light source 1 for photographing a placido ring image each time. The projection images of the light from the ring light sources 2a to 2f on the cornea are photographed by the video camera 9, and the digital image data output from the A / D converter 10 is used as concentric circles of the ring light sources 2a to 2f. It is stored in the memory unit 12 together with position information in the pattern (how many ring-shaped light sources are from the center of the concentric pattern).
In this case, the order in which one or a plurality of ring-shaped light sources are turned on is not particularly limited. For example, the ring-shaped light sources may be turned on one by one from the center of the concentric circular pattern one by one. The ring-shaped light sources may be turned on one by one in a completely random order, or two ring-shaped light sources may be turned on at the same time from the center of the concentric pattern toward the outside.

Thus, according to the present invention, a plurality of platid ring images taken by irradiating light from each single ring-shaped light source, or a plurality of platides taken by irradiating light from each of the plurality of ring-shaped light sources. A ring image is obtained.
According to the present invention, even when a platid ring image having a significantly disturbed shape from a concentric circle shape is obtained, the captured platid ring image is in the ring shape of what number from the center of the platid ring image photographing light source. Whether the light source is caused by the light source can be accurately identified, and thereby the corneal shape of the eye to be examined can be accurately measured from the placido ring image.

FIG. 2 is a block diagram showing a schematic configuration of a placido ring imaging apparatus according to another embodiment of the present invention. The embodiment of FIG. 2 is different from the embodiment of FIG. 1 only in that a digital camera is provided instead of the video camera. Therefore, in FIG. 2, the same components as those in the embodiment of FIG.
With reference to FIG. 2, in this embodiment, a digital camera 13 is disposed inside the housing 4 so as to face the opening 8 for photographing a placido ring image. When the cornea is irradiated with light, a projection image of the light on the cornea of the eye 3 to be examined is taken.

Further, in this embodiment, the control unit 14 controls the operation of the light source 1 for photographing a placido ring image and the digital camera 13, and one or a plurality of ring light sources 2a to 2f of the light source 1 for placido ring image photographing. Each time it is turned on, the digital camera 13 is caused to take the projected images of light from the ring-shaped light sources 2a to 2f on the cornea of the eye 3 to be examined, and the digital image data output from the digital camera 13 is It is stored in the memory unit 12 together with position information in the concentric pattern of the ring-shaped light sources 2a to 2f.
Needless to say, this embodiment can provide the same effects as those of the embodiment of FIG.

1 is a block diagram showing a schematic configuration of a placido ring image capturing apparatus according to an embodiment of the present invention. It is a block diagram which shows schematic structure of the placido ring imaging device by another Example of this invention. It is a front view of the light source for placido ring image photographing of the placido ring image photographing device of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Light source 2a-2f for placido ring image photography Ring-shaped light source 3 Eye 4 to be examined 4 Housing 5 Panel 6a-6f Circumference 7 LED
8 Placido ring imaging aperture 9 Video camera 10 A / D converter 11 Controller 12 Memory

Claims (3)

Consisting of a plurality of ring-shaped light sources arranged concentrically, and a light source for photographing a placido ring image arranged facing the eye to be examined;
The concentric circular pattern of the light source for photographing a placido ring image is arranged opposite to the eye to be examined, and when the cornea of the eye to be examined is irradiated from the light source for photographing a placido ring image, A video camera that captures a projected image of the light on the cornea;
An A / D converter that converts a video signal output from the video camera and outputs digital image data;
A memory unit for storing digital image data output from the A / D conversion unit;
The operation of the light source for photographing a placido ring image and the operation of the video camera is controlled in synchronization with the operation timing of the A / D converter, and one or more ring light sources of the light source for photographing a placido ring image are turned on one by one. Each time, the video camera takes a projection image of light from the ring-shaped light source on the cornea of the eye to be examined, and the digital image data output from the A / D converter is used as the ring-shaped image. And a control unit for storing the light source in the memory unit together with position information in the concentric pattern of the light source. Consisting of a plurality of ring-shaped light sources arranged concentrically, and a light source for photographing a placido ring image arranged facing the eye to be examined;
The concentric circular pattern of the light source for photographing a placido ring image is arranged opposite to the eye to be examined, and when the cornea of the eye to be examined is irradiated from the light source for photographing a placido ring image, A digital camera that captures a projected image of the light on the cornea;
A memory unit for storing digital image data output from the digital camera;
The operation of the light source for photographing a placido ring image and the operation of the digital camera is controlled, and one or a plurality of ring-shaped light sources of the light source for photographing a placido ring image are turned on, and each time, the ring on the cornea of the eye to be examined A control for causing the digital camera to take a projected image of light from a cylindrical light source and storing the digital image data output from the digital camera in the memory unit together with position information in the concentric pattern of the ring-shaped light source And a placido ring image photographing device. Each of the ring-shaped light sources constituting the light source for photographing a placido ring image has a light irradiating unit composed of a plurality of LEDs arranged at intervals on a circumference having a size corresponding to the light source. The placido ring image capturing apparatus according to claim 1, wherein the placido ring image capturing apparatus is characterized.

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