RU147275U1 - ARTIFICIAL EYE CRYSTAL - Google Patents

Abstract

1. An artificial lens of the eye (IHG) made of an elastic material as a monolith with the possibility of bending and containing the optical part and two diametrically located supporting elements made flat with a variable thickness, decreasing to the periphery, and bent to the front surface of the optical part to its main plane , the width of the support elements is equal to the diameter of the optical part, their ends are convex, while the diameter of the optical part is 6 mm, in each support element on its longitudinal axis, at the same distance Along the center of the IHG, a through hole of a circular shape with a diameter of 0.1 to 0.5 mm was made, the ratio of the distance between the points most distant from each other lying on opposite ends of the ends to the diameter of the optical part is 1.5-2; and the rear surface of the optical part is provided with a protrusion with a height of 0.001 to 0.3 mm in the form of a cylinder whose diameter is equal to the diameter of the optical part, while the base of the protrusion follows the shape of the rear surface of the optical part, characterized in that the supporting elements are bent to the front surface of the optical part to its main plane at an angle of 15 ° .2. The artificial lens of the eye according to claim 1, characterized in that the front surface of the optical part is concave and the back is convex. 3. The artificial lens of the eye according to claim 1, characterized in that the optical part is made in the form of a biconvex lens. 4. The artificial eye lens according to claim 1, characterized in that the front and / or rear surfaces of the optical part are made in the form of an aspherical surface. The artificial lens of the eye according to claim 1, characterized in that the posterior

Description

The utility model relates to ophthalmology and can be used in the surgical treatment of cataracts in patients with emmetropia and hyperopia.

Closest to the technical solution of the problem is an artificial lens of the eye (IHG) made of an elastic material as a monolith with the possibility of bending and containing the optical part and two diametrically located supporting elements made flat with a variable thickness, decreasing to the periphery and bent to the front surface of the optical parts at an angle of 25 ° to its main plane, the width of the support elements is equal to the diameter of the optical part, their ends are convex, while the diameter of the optical part is 6 mm (RF patent for utility model No. 121438).

The disadvantages of this IHG is that it has an angle of inclination of the haptic elements of 25 °.

A slope of the haptic elements equal to 25 ° can create difficulties in implanting IHG in the eyes with emmetropia and hyperopia, which can lead to an unstable position of the lens in the capsular bag if it is contracted in the distant postoperative period and, as a result, to the decentralization of IOL.

The objective of the utility model is the creation of IHG for the surgical treatment of cataracts in the eyes with emmetropia and hyperopia.

The technical result of the utility model is the stable position of the lens in the capsule bag, to achieve the maximum possible visual functions, reduce the morbidity of the operation and the risk of postoperative complications, such as secondary cataract, decentralized lens injury.

The technical result is achieved in that in an artificial lens of the eye, made of an elastic material as a monolith with the possibility of bending and containing the optical part and two diametrically located supporting elements made flat with a variable thickness, decreasing to the periphery, and bent to the front surface of the optical part to it the main plane, the width of the support elements is equal to the diameter of the optical part, their ends are convex, while the diameter of the optical part is 6 mm, in each support element its longitudinal axis, at the same distance from the center of the ICH, a through hole of a round shape with a diameter of 0.1 to 0.5 mm is made, the ratio of the distance between the points most distant from each other lying on opposite ends of the ends to the diameter of the optical part is 1 5-2; and the rear surface of the optical part is provided with a protrusion with a height of 0.001 to 0.3 mm in the form of a cylinder whose diameter is equal to the diameter of the optical part, while the base of the protrusion follows the shape of the rear surface of the optical part, according to the utility model, the support elements are bent to the front surface of the optical part to its main plane at an angle of 15 °.

The front surface of the optical part can be concave, convex, and the rear is convex.

The optical part can be made in the form of a biconvex lens.

The front and / or rear surface of the optical part can be made in the form of an aspherical surface.

The rear surface of the optical part can be made with a constant radius of curvature of 6 mm

The front or rear optical surfaces may have a variable radius of curvature to correct corneal astigmatism.

On the supporting elements, labels can be applied to center the IHG according to the strong corneal meridian.

The artificial lens of the eye can be made of yellow material to prevent the development of macular degeneration.

Performing ICH in the form of a monolith from an elastic material with the ability to bend and compatible with the tissues of the eye, allows it to be implanted through an ultra-small incision, which minimizes the likelihood of postoperative astigmatism and less damages the blood-ophthalmic barrier, which reduces the rehabilitation time for patients.

The implementation of flat support elements, bent towards the front surface of the optical part and at an angle of 15 degrees to its main plane, allows you to provide the most stable position of the lens in the capsule bag, to achieve the maximum possible visual functions with emmetropia and hyperopia, when removing a transparent or cataract lens.

A protrusion along the entire posterior surface of the optical part excludes the formation of secondary cataract in the distant postoperative period of cataract extraction with emmetropia and hyperopia. The height of the protrusion from 0.001 to 0.3 mm is due to the individual characteristics of the structures of the anterior segment of the eye, namely the thickness of the natural lens of the eye. Through holes located on the longitudinal axis of each haptic element can significantly simplify and reduce the invasiveness of the implantation procedure. The diameter of the holes from 0.1 to 0.5 mm is due to the size of the surgical instruments used in implantation. An angle of 15 degrees, at which the supporting elements are bent from the main plane of the optical part to the front surface, provides tight contact of the IHG with the posterior lens capsule, which is the prevention of secondary cataract and retinal detachment.

The distance between the points most distant from each other, lying on opposite ends of the ends, to the diameter of the optical part is equal to 1.5-2, due to the anatomical features of the capsule bag.

The utility model is illustrated in the drawing, in which FIG. 1 shows a side view of the IHG and in FIG. 2 - on top. IHG, according to the utility model, contains an optical part 1 and flat support elements 2, while the width of the support elements 2 is equal to the diameter of the optical part 1, and the ends 3 are made convex.

In each supporting element 2 on its longitudinal axis, at the same distance from the center of the IHG, a through hole 4 of a round shape with a diameter of 0.1 to 0.5 mm is made.

The rear surface of the optical part 1 is provided with a protrusion 5 of a cylindrical shape, a height of from 0.001 to 0.3 mm, the diameter of which is equal to the diameter of the optical part 1.

The ICH contains two flat supporting elements 2, bent towards the front surface of the optical part 1 at an angle of 15 ° to its main plane, the tops of the ends 3 are made convex, and the rear surface of the optical part 1 can be made with a radius of curvature of 6 mm or with a variable radius of curvature . Flat support elements 2 are made with a variable thickness, gradually decrease to their periphery, and the ratio of the distance between the points most distant from each other, lying on opposite vertices of the ends 3 of the support elements 2, to the diameter of the optical part 1 is 1.5-2. IHG, according to a utility model, after local anesthesia, a corneal or mixed corneoscleral tunnel incision, standard phacoemulsification and filling of the capsule bag with viscoelastic are bent and implanted into the capsule bag. IHG can be performed, for example, from a collagen copolymer. IHG was implanted in patients with two-eyed emmetropia with a cataract lens.

Example 1. A patient, 58 years old, complained of decreased vision OD. On examination, the cornea is transparent, the anterior chamber is deep, the pupil is actively reacting to light, the lenses are transparent. The fundus is behind the fleur.

Objectively - visual acuity in both eyes - 0.01 does not correct, IOP - 14 mm Hg Was diagnosed with OD: age-related cataract.

It was decided to perform lens extraction with implantation of the proposed IHG.

After the standard phacoemulsification procedure, the patient was implanted with IHG on the right eye, made according to a utility model, in which the front surface of the optical part is concave and the back is convex, while the rear surface of the optical part is made with a constant radius of curvature of 6 mm and the supporting elements are bent to the front surface of the optical part to its main plane at an angle of 15 °.

The postoperative period was uneventful. Visual acuity at discharge from the hospital was 0.9 with a slight spherical cylinder correction.

Example 2. A patient, 77 years old, complained of decreased vision of OS. On examination, the cornea is transparent, the anterior chamber is deep, the pupil with an active reaction to light, the lens - pronounced clouding of the nuclear layers.

The fundus is behind the fleur. Objectively - visual acuity OS - 0,01 does not correct. IOP at OU - 18 mmHg

The diagnosis was made: OS age-related cataract, moderate hyperopia. It was decided to perform cataract phacoemulsification with implantation of IHG.

After the standard phacoemulsification procedure, the patient was implanted with an IHG on the left eye, the optical part of which is made in the form of a biconvex lens, and the supporting elements are bent to the front surface of the optical part to its main plane at an angle of 15 °.

The postoperative period was uneventful. Visual acuity at discharge from the hospital was OD 0.7 with a slight spherocylindrical correction.

Claims (8)

1. An artificial lens of the eye (IHG) made of an elastic material as a monolith with the possibility of bending and containing the optical part and two diametrically located supporting elements made flat with a variable thickness, decreasing to the periphery, and bent to the front surface of the optical part to its main plane , the width of the support elements is equal to the diameter of the optical part, their ends are convex, while the diameter of the optical part is 6 mm, in each support element on its longitudinal axis, at the same distance Along the center of the IHG, a through hole of a circular shape with a diameter of 0.1 to 0.5 mm was made, the ratio of the distance between the points most distant from each other lying on opposite ends of the ends to the diameter of the optical part is 1.5-2; and the rear surface of the optical part is provided with a protrusion with a height of 0.001 to 0.3 mm in the form of a cylinder whose diameter is equal to the diameter of the optical part, while the base of the protrusion follows the shape of the rear surface of the optical part, characterized in that the supporting elements are bent to the front surface of the optical part to its main plane at an angle of 15 °. 2. The artificial lens of the eye according to claim 1, characterized in that the front surface of the optical part is concave and the rear is convex. 3. The artificial lens of the eye according to claim 1, characterized in that the optical part is made in the form of a biconvex lens. 4. The artificial lens of the eye according to claim 1, characterized in that the front and / or rear surfaces of the optical part are made in the form of an aspherical surface. 5. The artificial lens of the eye according to claim 1, characterized in that the rear surface of the optical part is made with a constant radius of curvature of 6 mm 6. The artificial lens of the eye according to claim 1, characterized in that the front or rear surface of the optical part has a variable radius of curvature to correct corneal astigmatism. 7. Artificial eye lens according to paragraphs. 1-6, characterized in that the supporting elements are marked for centering IHG according to the strong corneal meridian. 8. Artificial eye lens according to paragraphs. 1-7, characterized in that for the prevention of macular degeneration, it is made of yellow material.

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