RU2391070C1 - Intraocular lens - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention refers to ophthalmology and can be used for surgical correction of high myopia. Intraocular lens has an optical part in the form of a defocusing lens and a supporting element. The supporting element is made in the form of a curvilinear shape, which two sides are flat and parallel to each other, the longitudinal axis of the lens and are located at the same distance from it. The other two sides are made convex in the form of circular arcs concentric to the optical part. The supporting element is provided with two identical curved ribs, sides of each convex are made convex in the form of circular arcs concentric to each other, which radius of curvature exceeds the radius of the supporting element convex side. Convexity of each rib is directed to the opposite direction of the optical part, the outer side of the rib is connected to the flat side of the supporting element. The connections of the ribs with the supporting element flat side are located cater-cornered, and the inner side of the rib is connected to the convex side of the supporting element and forms grooves between them. The ribs are directed towards each other and towards the longitudinal axis and go beyond it. Peaks of the ribs are blunted. Two diametrically located holes are located at the supporting element, which are situated on the longitudinal axis, the hole is made in the center of the optical part. The optical part and the supporting element, including ribs, are made as a single entity bent to the back surface, at that the entire lens is made with a variable radius of curvature increasing from center to periphery, and the places of transition from one surface to another are rounded. ^ EFFECT: risk reduction of postoperative complications such as the development of cataracts and pigmentary glaucoma, as well as expanding the arsenal of intraocular lenses (IL) arsenal. ^ 2 dwg

Description

The invention relates to ophthalmology and can be used in the surgical correction of high myopia.

Known artificial lens of the eye (IHG), containing the optical part, which is a negative lens, and diametrically located supporting elements with protrusions at the edges in the form of ears, with a constant radius of the rear surface of 8 mm (RF patent for the invention No. 1823178).

However, the IHG of this design has several disadvantages associated with the difficulty of accurately matching the size of the IHG and the size of the ciliary groove, the contact of the IHG with the natural lens of the eye is not excluded.

The objective of the invention is the creation of the design of IHG for the surgical correction of high myopia, exactly corresponding to the size of the ciliary groove and excluding the contact of the IHG with the natural lens of the eye and the need for a basal coloboma.

The technical result is to reduce the risk of developing such complications of the postoperative period as the development of cataracts and pigmented glaucoma, as well as expanding the arsenal of ICH.

The technical result according to the invention is achieved by the fact that the artificial lens of the eye, containing the optical part in the form of a negative lens and a support element, according to the invention, the support element is made in the form of a curved figure, the two sides of which are made flat (straight) and parallel to each other and the longitudinal axis of the lens and are at the same distance from it, and the other two sides are convex in the form of circular arcs concentric to the optical part, the supporting element is provided with two single with curved protrusions, the sides of each protrusion are convex in the form of circular arcs concentric to each other, the protuberance of each protrusion is directed to the opposite side of the optical part, the outer side of the protrusion is connected to the flat side of the support element, while the junction of the protrusions with the flat side of the support the element is located diagonally, the inner side of each protrusion is connected to the convex side of the supporting element, with the formation of a recess between them. Each protrusion is directed towards each other and towards the longitudinal axis and extends beyond it, while the top of each protrusion is rounded, two diametrically located holes lying on the longitudinal axis are made on the support element, a hole is made in the center of the optical part, and the optical part and the support element including protrusions, made as a whole, bent to the rear surface, while the entire lens is made with a variable radius of curvature increasing from the center to the periphery, and the places of transitions of one surface to another rounded off.

The protrusions of a curved shape provide the adaptation of IHG in the ciliary groove. The radius of curvature of the outer side of the protrusion exceeds the radius of the convex side of the support element by 1.1-2 times, the width of the protrusion is 0.1-2 mm, and the distance between the most remote points of the protrusions lying on the longitudinal axis is 10.5-12 5 mm. Each protrusion extends 0.1-2 mm beyond the longitudinal axis. The recess determines the possibility of cushioning the protrusion, two diametrically located holes are necessary for the convenience of implantation and centering of the IHG. A hole made in the center of the optical part is necessary to ensure free circulation of intraocular fluid between the posterior and anterior chambers of the eye.

The invention is illustrated by drawings, figure 1 shows a General view of the IHG from above, figure 2 is a side view.

IHG consists of an optical part 1, made in the form of a negative lens, and a supporting element 2. The supporting element 2 is made in the form of a curved figure, two sides 3 of which are made flat and parallel to each other and the longitudinal axis 4 of the lens and are at the same distance from it and the other two sides 5 are convex in the form of circular arcs concentric with the optical part 1. The support element 2 is provided with two identical protrusions 6 of a curved shape located diagonally, the sides of each protrusion Pa 6 are made convex in the form of circular arcs concentric to each other, the protrusion of the protrusion is directed to the side opposite to the optical part 1. The outer side 7 of each protrusion 6 is connected to the flat side 3 of the support element 2, and the inner side 8 of each protrusion 6 is connected to the convex side 5 of the support element 2, with the formation of a recess 9 between them. Each protrusion 6 is directed towards the other and towards the longitudinal axis 4 and extends behind it by 0.1-2 mm, while each vertex 10 of each protrusion 6 is rounded, two diametrically located holes 11 are made on the supporting element 2, lying on the longitudinal axis 4 , in the center of the optical part 1, a hole 12 is made, and the optical part 1 and the supporting element 2, including the protrusions 6, are made as a whole, bent to the rear surface 13. The rear surface 13 of the optical part 1 and the supporting element 2 is made with a variable radius of curvature, increasing from the center to the periphery, and the transition points of one surface to another are rounded.

After local anesthesia, conducting a corneal incision 2.2 mm long, filling the anterior and posterior chambers of the eye with viscoelastic ICH, they are folded along the longitudinal axis 4, inserted into the cartridge and implanted into the posterior chamber of the eye.

Example 1. Patient B., 32 years old, complained of poor objective vision. On examination, the cornea is transparent, the anterior chamber is deep, the pupil is actively reacting to light, the lens is transparent. On the fundus, changes characteristic of high myopia. Visual acuity of 0.01 sph 19 = 0.5. IOP = 16 mmHg He was diagnosed with OU: high myopia.

Based on the fact that the patient was intolerant of contact correction and the LAZIK procedure was refused, it was decided to implant a phakic intraocular lens made according to the invention. After standard preoperative preparation, IHG was implanted into the posterior chamber of the eye using an injector. The postoperative period was uneventful. Visual acuity at discharge from hospital 0.6 without correction.

IHG, performed according to the invention, was implanted in patients with high myopia and a clear crystalline lens in five eyes. In all cases, high visual functions were achieved, IHG occupied a central position, in no case was an increase in intraocular pressure and pigment dispersion noted.

Claims (1)

An artificial lens of the eye, containing the optical part in the form of a negative lens and a support element, characterized in that the support element is made in the form of a curved shape, the two sides of which are flat and parallel to each other and the longitudinal axis of the lens and are at the same distance from it, and two other sides are convex in the form of circular arcs concentric to the optical part, the supporting element is provided with two identical protrusions of a curved shape, the sides of each protrusion are made bent in the form of circular arcs concentric to each other, the radius of curvature of which exceeds the radius of the convex side of the support element, the convexity of each protrusion is directed to the opposite side of the optical part, the outer side of the protrusion is connected to the flat side of the support element, while the junction of the protrusions with the flat side the support element are located diagonally, and the inner side of the protrusion is connected to the convex side of the support element, with the formation of a recess between them, the protrusions are directed towards each other to the friend and to the side of the longitudinal axis and go beyond it, while the tops of the protrusions are rounded off, two diametrically located holes lying on the longitudinal axis are made on the supporting element, a hole is made in the center of the optical part, and the optical part and the supporting element, including the protrusions, are made as integral, bent to the back surface, while the entire lens is made with a variable radius of curvature increasing from the center to the periphery, and the places of transition of one surface to another are rounded.

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