SU1119652A1 - Method of determining the topography of cornea surface - Google Patents

Abstract

A METHOD FOR DETERMINING THE CORNIQUE SURFACE TOPOGRAPHY, which consists in registering the images of the measuring mark formed by the reflecting surfaces of the cornea and the reference pattern, compare the radial positions of the points of these images and determine the topography of the cornea by using the comparison results, which are used to improve the accuracy of the image. corneas, an image of a radial mesh applied to the surface of the measuring mark is recorded, the angular positions of the image points are compared for the cornea and the reference, the comparison results are taken into account when determining the topography of the cornea.

Description

The invention relates to medicine, namely to ophthalmology, and can be used for contact vision correction.

A known method for determining the topography of the surface of the cornea, using which photographs are made of the measuring mark having a cruciform shape formed by the reflecting surfaces of the cornea and the reference image of the test mark. In one photograph, only two mutually perpendicular sections of the corneal surface are obtained. To obtain information on the entire surface of the cornea, it is necessary to take a series of shots by turning the measuring mark. After processing the film, the radial coordinates of the points of the measuring mark images formed by the cornea and the reference surfaces are measured and compared. Based on the comparison results, corneal topography 1 is determined.

The disadvantages of this method are its laboriousness, due to the need to perform a series of shots, and the lack of accuracy in determining the topography of the corneas, especially corneas of complex shape.

There is also known a method for determining the topography of the corneal surface, in which the images of the measuring mark formed by the reflecting surfaces of the cornea and the sample being measured are measured, the radial positions of the points of these images are compared, and the corneal topography 2 is determined from the comparison results.

The disadvantage of this method is the insufficient accuracy of determining the topography of the corneas, due to the lack of information about the conditions of the position of the image points of the measuring mark.

The aim of the invention is to increase the accuracy of determining the topography of the cornea.

The goal is achieved by the method of determining the topography of the cornea's surface, which consists in registering the images of the measuring mark formed by the reflecting surfaces of the cornea and the reference pattern, comparing the radial positions of the points of these images, and comparing the radial image of the cornea grids applied to the surface of the measuring mark compare the angular positions of the cornea and reference image points and the results Eyes take into account when determining the corneal topography.

FIG. 1 shows schematically an apparatus for carrying out a method for determining the topography of a corneal surface; in fig. 2 is a view A of FIG. one; in fig. 3 is a section BB in FIG. 2; in fig. 4 - the image of the measuring mark on the surface of the sensitive element.

The method is carried out as follows.

In a special device, a keratometer, a radial grid is applied on the surface of the measuring mark, having the form of a system of concentric reflecting rings 1, the angular distance between the divisions 2 of which is about 5 °. This mesh can be made, for example, from adhesive tape. Then, an image of the measuring mark formed by the surface of the cornea under investigation is recorded. At the same time, a beam of light from the source of light 3 falls on the ring 1 of the measuring mark, is reflected from it and falls on the surface of the cornea 4. Having reflected from it, this beam passes the lens 5, the aperture of the diaphragm 6 located in its focal plane and forms the image of the measuring mark on the surface of the sensing element 7 in the image registration device, which can be used as a camera or optoelectronic device (Fig. 4).

If the normal to the surface of the cornea at the point of reflection of the beam does not lie in the meridian plane, then the beam incident on the cornea also passes not in the meridial plane.

This beam does not come from point A of the measuring mark ring, but from point B located relative to point A at a certain angle E-. If we neglect this deviation of the incident beam from the meridian plane, then the angle is 2о1., The projection of the incident beam on the meridian plane relative to the optical axis of the objective is determined with an error that depends on the degree of deflection of the normal to the cornea surface from the meridian plane. For corneas of complex irregular shape, this deviation can be significant. To eliminate this error, using a radial grid applied to the surface of the measuring mark, determine the angular overlap of the points of its image and thereby specify the angle of inclination of the normal to the surface of the cornea relative to the optical axis of the lens in the vertical plane and additionally determine the angle of inclination of this normal to horizontal plane

Thus, information about the topography of the surface of the cornea is obtained as a set of coordinates of reflection points,

Claims (1)

A METHOD FOR DETERMINING A CORNER SURFACE TOPOGRAPHY, which consists in registering the images of the measuring mark formed by the reflecting surfaces of the studied cornea and the reference mark, comparing the radial positions of the points of these images and determining the corneal topography, which is different in order to increase the accuracy of determining the cornea topography register the image of the radial grid deposited on the surface of the measuring mark, compare the angular positions of the image points for the horn sheep and reference and the results of comparison are taken into account when determining the topography of the cornea. with © SP yo>