RU2400184C1 - Intraocular lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to ophthalmosurgery. An intraocular lens (IOL) comprises haptic and optical parts. The optical part consists of two asymmetric optical elements combined along an interface plane perpendicular to a central optical axis, and generating a single curved closed surface. The first optical element contains a front elliptic surface with its convexity turned to the cornea, and a back surface of the second optical element represents a convex elliptic surface with its convexity turned to the retina. The first and second optical elements have different refraction coefficients. The haptic part is integral and consists of two consistent haptic elements representing rings concentric concerning a centre of gravity of the IOL. The internal haptic element adjoining the surface of the optical part is located in a plane perpendicular to the optical axis and passing through the centre of gravity of the IOL, and the external haptic element is angularly deviated from the internal haptic element.

EFFECT: application of said IOL allows increasing resolution, reducing spherical aberration and improving depth resolution, and said design is supposed to be used in children.

1 dwg

Description

The invention relates to the field of ophthalmic surgery.

Known artificial lens of the eye (IHG) according to the patent of the Russian Federation No. 2332961 dated 05/10/2007. This device contains a flat haptic part and an optical part made in the form of a convex surface. The front surface is made in the form of an elliptical segment of a convex ellipsoidal surface. The surface is convex toward the cornea. Markers in the form of straight lines are made on the haptic part, the direction of which coincides with the direction of the major axis of the elliptical segment. The rear surface of the optical part is made flat.

However, this artificial eye lens has significant drawbacks: it has insufficient resolution, large spherical aberration, insufficient depth of field, insufficient viewing angle, and the inability to use for children.

The technical result of the invention: increasing resolution, reducing spherical aberration, increasing depth of field, the possibility of using IHG for children.

The technical result is achieved by the fact that in the artificial lens of the eye containing the haptic and optical part, according to the invention, the optical part consists of two asymmetric optical elements combined together along the conjugation plane perpendicular to the central optical axis and forming a single curved closed surface, the first optical element contains the front elliptical surface, convex towards the cornea, and the rear surface of the second optical element is made on a convex elliptical surface facing convexity in the direction of the retina; the ratio of the minor axis of the first optical element to the minor axis of the second optical element lies in the range of 2.01-3.12; the ratio of the eccentricity of the first optical element to the eccentricity of the second optical element lies in the range from 0.98 to 1.02; the ratio of the radius of curvature of the first optical element to the radius of curvature of the second optical element lies in the range from minus 1.8 to minus 2.2; the ratio of the compression coefficient of the elliptical surface of the first optical element to the compression ratio of the second optical element lies in the range from 1.1 to 1.4; the refractive indices of the first and second optical elements are different, while the haptic part is made integral and consists of two sequentially located haptic elements made in the form of rings concentric relative to the center of gravity of the IHG, while the inner haptic element adjacent to the surface of the optical part is located in the plane, perpendicular to the optical axis and passing through the center of gravity of the IHG, and the external haptic element is made with the possibility of angular deviation relative to the inside haptic element.

These parameter ratios were developed taking into account childhood.

The set of essential distinguishing features proposed by the authors is necessary and sufficient for the unambiguous achievement of the claimed technical result.

The invention is illustrated in the drawing,

on which a frontal section of the IHG is provided.

The proposed IHG is made as follows.

IHG contains haptic 1 and optical 2 part. It consists of two asymmetric optical elements 3, 4 combined with each other along the conjugation plane 5, perpendicular to the central optical axis 6, and forming a single closed optical part. The first optical element 3 comprises an anterior elliptical surface 7, convex towards the cornea. The rear surface of the second optical element 4 is made in the form of a convex elliptical surface 8, convex towards the retina. The ratio of the minor axis of the first optical element 3 to the minor axis of the second optical element 4 lies in the range of 2.01-3.12. The ratio of the eccentricity of the first optical element 3 to the eccentricity of the second optical element 4 lies in the range from 0.98 to 1.02. The ratio of the radius of curvature of the first optical element 3 to the radius of curvature of the second optical element 4 lies in the range from minus 1.8 to minus 2.2. The ratio of the compression ratio of the elliptical surface of the first optical element 3 to the compression ratio of the second optical element 4 lies in the range from 1.1 to 1.4.

The haptic part 1 is made integral and consists of two sequentially located concentric relative to the center of gravity 9 IHG haptic elements 10, 11 while the internal haptic element 10 adjacent to the surface of the optical part 2 is located in a plane 12 perpendicular to the optical axis 6 and passing through the center of gravity 9 IHG, and the external haptic element 11 is configured to angularly deviate relative to the internal haptic element 10.

An artificial lens of the eye is implanted as follows.

IHG is implanted under local anesthesia. Capsulorexis is performed, phacoemulsification of the lens is carried out, lens masses are removed, IHG is introduced into the capsule bag. The front chamber is washed with a BSS solution, a solution of acetylcholine 0.01% is introduced. Seal the surgical incision.

Using IHG allows you to achieve the claimed technical result - to increase resolution, reduce spherical aberration, increase depth of field, increase the angle of view, expand the arsenal of IHG.

Claims (1)

An artificial eye lens (IHG) containing the haptic and optical part, characterized in that the optical part consists of two asymmetric optical elements combined together along the conjugation plane perpendicular to the central optical axis and forming a single curved closed surface, the first optical element contains a front an elliptical surface convex towards the cornea, and the rear surface of the second optical element is made in the form of a convex elliptical surface awn, convex towards the retina; the ratio of the minor axis of the first optical element to the minor axis of the second optical element lies in the range from 2.01 to 3.12; the ratio of the eccentricities of the first optical element to the eccentricity of the second optical element lies in the range from 0.98 to 1.02; the ratio of the radius of curvature of the first optical element to the radius of curvature of the second optical element lies in the range from minus 1.8 to minus 2.2; the ratio of the compression coefficients of the elliptical surface of the first optical element to the compression ratio of the second optical element lies in the range from 1.1 to 1.4; the refractive indices of the first and second optical element are different, while the haptic part is made integral and consists of two sequentially located haptic elements made in the form of rings concentric relative to the center of gravity of the IHG, while the inner haptic element adjacent to the surface of the optical part is located in the plane, perpendicular to the optical axis and passing through the center of gravity of the IHG, and the external haptic element is made with the possibility of angular deviation relative to the inside haptic element.

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