RU2429802C1 - Intraocular lens - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: intraocular lens contains a reciprocating optical part and support elements in the form of three sections. Each of the sections represents a curvilinear quadrilateral petal each of which is symmetric to a longitudinal symmetry axis which is passing through the centre of the optical part. Two lateral surfaces of each of the petals are converging generating Riemann surfaces with their concavities facing the symmetry axis of the petal and having an opposite sense of curvature. The third side of the petal opposite to the optical part represents a portion of a convex elliptic segment with its convexity facing a side opposite to the optical part. The fourth side of each petal is concave to the centre of the optical part and attached thereto. The petal itself consists of at least of three coupled, mutually concentric segments repositionable with respect two the other segments of the petal and a principal plane of the optical part. The flexible curvilinear petals are of the same area and angularly equidistanced from each other. Frontal parts of each curvilinear petal represents a segment of a torous surface, the areas and the thickness of three segments are different. ^ EFFECT: expanded lens accommodation, better elasticity, decreased local and surrounding eye deformations. ^ 2 dwg

Description

The invention relates to the field of ophthalmic surgery and can be used to create artificial lenses of the eye.

Known artificial lens of the eye (IHG) according to the patent of the Russian Federation No. 2320295.

The artificial lens of the eye contains the optical and supporting parts. The supporting part is made in the form of a ring with the possibility of changing the geometric shape of the ring, the inner surface of the ring is connected to the end surface of the optical part, made with the possibility of reciprocating motion along the optical axis of the artificial lens of the eye. Three sections are made in the form of logarithmic spirals curved in one direction clockwise, with the possibility of changing their curvature, in the plane of the ring and in space, together with the optical part. Moreover, at least three concave curvilinear open sections are formed on the surface of the ring, convex towards the optical part and located at the same angular distance from each other, with the possibility of changing the shape of the open curved section and the supporting part.

However, this IHG has significant drawbacks: it has insufficient accommodation and is quite complicated during implantation.

EFFECT: expansion of the volume of accommodation of the lens of the eye, improvement of elasticity, simplification of implantation, reduction of local deformations of the surrounding tissues of the eye.

The technical result is achieved by the fact that in the artificial lens of the eye, containing the optical part with the possibility of reciprocating motion and supporting elements in the form of three sections, each of the sections is made in the form of a curved four-sided lobe, each of which is symmetrical about the longitudinal axis of symmetry passing through the center optical part, two lateral end surfaces of each of the petals are formed by converging generators of Riemann surfaces, directed by concavities towards the axis symmetry of the petal and having the opposite sign of curvature, the third side of the petal, opposite the optical part, is the part of the convex elliptical segment, convex to the side opposite to the optical part, the fourth side of each petal is made concave relative to the center of the optical part and attached to it, and the petal itself consists of at least three segments connected to each other and congruent to each other, made with the possibility of changing their position no other two petal segments and the principal plane of the optical portion, the elastic curved petals are of equal area and are arranged at equal angular distances from each other, wherein the end portion of each curved petal formed as a segment of the toric surface, the area and thickness of the three segments different.

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

The artificial lens of the eye (IHG) is illustrated by drawings, where

figure 1 is a top view

figure 2 is a section along a-b.

IHG is as follows.

The artificial lens of the eye contains the optical 1 and the supporting part. The supporting part is made in the form of three elastic curved four-sided petals 2, each of which is symmetrical with respect to the longitudinal axis of symmetry 3 passing through the center 4 of the optical part 1. Two side surfaces 5 of each of the petals 2 are formed by converging generators of Riemann surfaces directed by concavities towards the longitudinal axis symmetry of the petal and having the opposite sign of curvature. The implementation of the side surfaces 5 in the form of generatrix surfaces of the Riemann allows you to minimize the force of pressure on the intraocular structures. The third side 6 of the four-sided lobe opposite the optical part 1 is a part of the convex elliptical segment convex to the side opposite to the optical part 1. The fourth side 7 of each lobe is made concave relative to the center 4 of the optical part 1 and attached to the optical part, and the lobe itself 2 consists of at least three segments, inner 8, middle 9 and outer 10, connected to each other, concentric to each other (figure 1). Each of the three segments 8, 9, 10 of each petal 2 is made with the possibility of changing its position relative to the other two segments of the petal and the main plane 11 of the optical part 1 passing through its center 4. This changes the shape of the entire ICH. The elastic curved petals 2 have the same area and are located at the same angular distance from each other. The end parts of the outer segment 10 of each curved lobe 2 are made in the form of a segment of a toric surface 12. The areas and thickness of the segments 8, 9, 10 are different and decrease from the periphery to the center (figure 2).

IHG is implanted under local anesthesia. The anterior chamber is filled with viscoelastic. Capsulorexis is performed, phacoemulsification of the lens is performed, and 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.

The technical result achieved by using the invention is the creation of an accommodating lens of the eye with a large range of accommodation, simplicity of design, the expansion of the potential of artificial lenses of the eye, simplification of implantation, and reduction of local deformations of surrounding tissues.

Claims (1)

The artificial lens of the eye (IHG), containing the optical part with the possibility of reciprocating motion and supporting elements in the form of three sections, characterized in that each of the sections is made in the form of a curved four-sided petal, each of which is symmetrical about the longitudinal axis of symmetry passing through the center optical part, two side surfaces of each of the petals are formed by converging generators of Riemann surfaces, directed by concavities towards the axis of symmetry of the petal and having and the opposite sign of curvature, the third side of the petal, opposite the optical part, is the part of the convex elliptical segment, convex to the side opposite the optical part, the fourth side of each petal is concave relative to the center of the optical part and attached to it, and the petal itself consists at least of three segments connected to each other, concentric to each other and made with the possibility of changing their position relative to the other two segments l the petal and the main plane of the optical part, and the elastic curved lobes have the same area and are located at the same angular distance from each other, and the end parts of each curved lobe are made in the form of a toric surface segment, while the areas and thickness of the three segments are different.

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