RU81428U1 - ARTIFICIAL EYE CRYSTAL - Google Patents

Abstract

The invention relates to ophthalmology and can be used in the surgical treatment of high myopia, both with refractive purpose when removing a clear crystalline lens, and with a cataract lens.

An artificial lens of the eye, containing the optical part and two diametrically located support elements, bent to the front surface of the optical part and at an acute angle to its main plane, characterized in that the ICH is made of elastic material with the possibility of bending the optical part and supporting elements, the optical part is made in the form of a biconcave lens, while the rear surface of the optical part is made with a radius of curvature of 6 mm, and the supporting elements are made in the form of flat curvilinear figures with a variable the thickness decreasing to the periphery, while the ends of each supporting element are rounded, and their central sections are concave to the optical part, while the sides of each supporting element at the periphery of the optical part are concave toward each other, while the ratio of the distance between the most distant from each other points lying opposite each other on the sides at the end of each supporting element to the diameter of the optical part is equal to 1.07; at the same time, a through hole is made on each supporting element at the periphery of the optical part, the large rectilinear sides of which are perpendicular to the longitudinal axis of each supporting element, and the smaller sides are rounded and their vertices are directed in different directions; the ratio of the distance between the most distant points lying on opposite vertices of the ends of the support elements and the diameter of the optical part is equal to 1.92; wherein the optical diameter is 6 mm.

Description

The invention relates to ophthalmology and can be used in the surgical treatment of high myopia, both with refractive purpose when removing a clear crystalline lens, and with a cataract lens.

The closest to the technical solution of the problem is the artificial lens of the eye (IHG), containing the optical part and diametrically located supporting elements, bent to the front surface of the optical part at an acute angle (15 degrees) from its main plane. However, the IHG is made of hard material, the support elements are made in the form of closed loops with hinges of the first kind at the vertices (RU 43153211), which does not allow implantation through an extremely small incision, and an angle of 15 degrees is not enough for the posterior lens capsule to completely straighten.

The technical result, according to the invention, is the creation of IHG, allowing it to be implanted through an ultra-small incision, which reduces the invasiveness of operations and the risk of postoperative complications, due to the implementation of IHG in the form of a monolith from an elastic material. At the same time, an angle of 25, which is bent from the main plane of the optical part and to its front surface, provides prophylaxis of retinal detachment in the distant postoperative period in the treatment of myopia.

The technical result, according to the invention, is achieved in that in the artificial lens of the eye, containing the optical part and two diametrically located supporting elements, bent to the front surface of the optical part and at an acute angle to its main plane;

wherein the IHG is made of an elastic material with the possibility of bending the optical part and supporting elements, the optical part is made in the form

biconcave lenses; the rear surface of the optical part is made with a radius of curvature of 6 mm, and the supporting elements are made in the form of flat curved shapes with a variable thickness, decreasing to the periphery; the ends of each supporting element are rounded, and their central sections are made concave to the optical part; wherein the sides of each support element at the periphery of the optical part are concave to meet each other; the ratio of the distance between the maximum remote from each other points lying opposite each other on the sides at the end of each supporting element, to the diameter of the optical part is equal to 1.07; in this case, a through hole is made on each supporting element at the periphery of the optical part, the large rectilinear sides of which are perpendicular to the longitudinal axis of each supporting element, and the smaller sides are rounded and their vertices are directed in different directions; the ratio of the distance between the most distant points lying on opposite vertices of the ends of the supporting elements to the diameter of the optical part is equal to 1.92; wherein the optical diameter is 6 mm.

The implementation of IHG in the form of a monolith from an elastic material with the possibility of bending compatible with the tissues of the eye, for example, from a collagen copolymer, allows it to be implanted through an ultra-small incision, which minimizes the likelihood of postoperative astigmatism and less damages the blood-optic barrier, which reduces the rehabilitation time sick.

And the implementation of flat supporting elements, bent in the side of the front surface of the optical part and at an angle of 25 degrees from its main plane, as well as the implementation of the optical part biconcave toward the retina and with a radius of curvature of the rear surface of the optical part of 6 mm, allows for the most stable position of the lens in the capsule bag, to achieve the maximum possible visual functions with

high myopia with the removal of a transparent and cataract lens, and the supporting elements are made in the form of flat curved shapes with a variable thickness, decreasing to the periphery; the ends of each supporting element are rounded, and their central sections are concave to the optical part, while the sides of each supporting element at the periphery of the optical part are concave towards each other; the ratio of the distance between the maximum remote from each other points lying opposite each other on the sides at the end of each supporting element to the diameter of the optical part is 1.07; at the same time, a through hole is made on each supporting element at the periphery of the optical part, the large rectilinear sides of which are perpendicular to the longitudinal axis of each supporting element, and the smaller sides are rounded and their vertices are directed in different directions; the ratio of the distance between the most distant points lying on opposite vertices of the ends of the support elements and the diameter of the optical part is equal to 1.92; the diameter of the optical part is 6 mm, which allows the capsule bag to be expanded as much as possible and the IHG to be bent for implantation through an extremely small incision.

The invention is illustrated in the drawing, where in Fig.1 shows a view of the lens from above, and Fig.2 is a side view of the lens.

IHG, according to the invention, contains the optical part 1 and flat support elements 2,3, bent towards the front surface of the optical part 1 and at an angle of 25 ° to its main plane, and the flat support elements 2, 3 are made with a variable thickness and gradually decrease to their periphery, while the diameter (D) of the optical part 1 is 6 mm, while the ratio of the distance (L1) between the most distant points lying on respectively opposite vertices 6, 7 and 8, 9 of the ends of 4.5 support elements 2, 3 , to the diameter (D) of the optical part 1 is 1.92; the ratio of the distance (L2) between

maximally distant from each other points lying opposite each other on the sides at the end 4, 5 of each supporting element, to the diameter (D) of the optical part is equal to 1.07; at the same time, a through hole 10.11 is made on each supporting element at the periphery of the optical part; and the rear surface 12 of the optical part 1 is made with a radius of curvature (R) of 6 mm

IHG according to the invention, after local anesthesia, the corneal or mixed corneoscleral tunnel incision, standard phacoemulsification and filling the capsule bag with viscoelastic are bent and implanted into the capsule bag.

IHG can be performed, for example, from a collagen copolymer.

IHG, according to the invention, was implanted in patients with high myopia in 2 eyes with a transparent lens and in 4 eyes with a cataract lens.

Example 1. A patient, 34 years old, complained of decreased vision of OU. On examination, the cornea is transparent, the anterior chamber is deep, the pupil is actively reacting to light, the lenses are transparent. Fundus - pronounced myopic changes. Objectively - visual acuity in both eyes - 0.01 sph - 25 = 0.3-04, IOP - 16 mmHg. He was diagnosed with OU: high degree myopia. Based on the fact that the patient does not tolerate contact correction and the impossibility of wearing glasses at work, it was decided to perform a transparent extraction of the lens with implantation of an elastic "reverse" IOL.

After the standard phacoemulsification procedure, the patient was implanted with a soft “reverse” IOL in the right eye. The postoperative period was uneventful. Visual acuity at discharge from the hospital was 0.5 with a slight spherical cylinder correction.

Example 2. A patient, 59 years old, complained of decreased vision of OU, more on the right. On examination, the cornea is transparent, the anterior chamber is deep, the pupil is actively reacting to light, the lenses are transparent. Fundus - pronounced myopic changes. Objectively - visual acuity OD - 0.01 sph - 25 = 0.07, OS - 0.05 sph - 27 = 0.06. IOP at OU - 18 mmHg

Was diagnosed with OU Complicated cataract. Myopia of a high degree.

Based on the fact that the patient has more pronounced opacification in the cortical layers of the lens on the right eye, it was decided to perform cataract phacoemulsification with implantation of an elastic "reverse" IOL.

After the standard phacoemulsification procedure, the patient was implanted with a soft “reverse” IOL in the right eye. The postoperative period was uneventful. Visual acuity at discharge from the hospital was OD 0.7 with a slight spherocylindrical correction.

Claims (1)

An artificial lens of the eye, containing the optical part and two diametrically located support elements, bent to the front surface of the optical part at an acute angle to its main plane, characterized in that the ICH is made of elastic material with the possibility of bending the optical part and supporting elements, the optical part is made in in the form of a biconcave lens, while the rear surface of the optical part is made with a radius of curvature of 6 mm, and the supporting elements are made in the form of flat curvilinear figures with a variable with a tire decreasing to the periphery, while the ends of each supporting element are rounded, and their central sections are concave to the optical part, while the sides of each supporting element at the periphery of the optical part are concave toward each other, while the ratio of the distance between the most distant from each other points lying opposite each other on the sides at the end of each supporting element to the diameter of the optical part is equal to 1.07; in this case, a through hole is made on each supporting element at the periphery of the optical part, the large rectilinear sides of which are perpendicular to the longitudinal axis of each supporting element, the smaller sides are rounded and their vertices are directed in different directions, while the ratio of the distance between the most distant points lying on opposite the tops of the ends of the supporting elements, to the diameter of the optical part is equal to 1.92; wherein the optical diameter is 6 mm.