RU2508074C1 - Accommodating artificial eye lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Artificial eye lens (AEL) is made as a single unit from biocompatible elastic material and contains flexible optic and haptic parts. Haptic part is made in form of two curvilinear diametrically placed haptic elements. Width of haptic part equals the diameter of optic part. Two diametrically located similar through slots are made in haptic part. Each slot is symmetrical with respect to longitudinal AEL axis. Width of slots is equal on entire length. Each haptic element is provided with straight and arch-shaped grooves. Arch-shaped groove is made concentric to optic part near its periphery. Each haptic element is made in form of semi-oval and is provided with manipulation hole, located near periphery of optic part between butt end surface and slot. Both holes are located diagonally with respect to each other. Haptic elements are bent toward front surface of optic part at angle of 15-20 degrees. Through slots reproduce the contour of butt end surface of haptic elements. Each of arch-shaped grooves is made on entire front surface of haptic element, except slots. Each straight groove is located along longitudinal AEL axis on its front surface between AEL butt end top and through slot.

EFFECT: application of claimed invention will make it possible to extend arsenal of accommodating artificial eye lens, increase accommodation volume, reduce implantation trauma, and increase stability of AEL position.

Description

The invention relates to medicine, namely to ophthalmology, and can be used for intraocular correction of aphakia during cataract removal with fixation of the haptic part of the accommodating artificial lens (IHG) to the edge of the anterior continuous circular capsulorexis (PNA).

Known accommodating IHG according to the patent of the Russian Federation 2271174, made as a single unit of a biocompatible elastic material with the ability to bend the optical and haptic parts. The haptic part is made in the form of two flat curvilinear diametrically arranged figures lying in the main plane of the optical part. The width of the haptic part is equal to the diameter of the optical part. The lateral end surfaces of the haptic part are parallel to the main axis of the optical part. The external end surfaces of the haptic part have bulges directed from the optical part. Two diametrically located through-cuts are made in the haptic part to fix it beyond the edges of the anterior continuous circular capsulorhexis. The rectilinear sections of the slots begin at the periphery of the optical part and smoothly pass into curved U-shaped sections curved towards the optical part and symmetrical about its main axis. The straight sections are equal and parallel to the main axis of the optical part. The width of the slots is the same over the entire length. On the upper side of the closed loops formed by through openings on the haptic part, or on both sides of these loops, a pair of rectilinear or arched grooves are made. The grooves in each pair are symmetrical about the main axis of the optical part.

The disadvantages of IHG is that even when the IHG is bent, its two flat, curved, diametrically located haptic elements of a large area do not allow IHG to be implanted through a small incision, so the incision has to be widened; supporting elements with a large area make implantation difficult, which can increase the invasiveness of the operation, as well as the absence of holes on the haptic part does not allow the IHG to be manipulated in complicated situations, for example, vitreous prolapse, the absence of a bend along the IHG plane reduces accommodation.

The objective of the invention is the creation of accommodating IHG for intraocular correction of aphakia after cataract removal.

The technical result of the invention is the expansion of the arsenal of accommodating artificial lenses of the eye, an increase in the volume of accommodation, a decrease in the morbidity of implantation while improving the comfort of the surgeon.

The technical result is achieved by the fact that in the IHG, made as a single unit of a biocompatible elastic material and containing the optical and haptic part with the possibility of bending, the haptic part is made in the form of two curved diametrically located haptic elements, the width of the haptic part is equal to the diameter of the optical part, in the haptic the parts are made of two diametrically located identical through slots, each slot is symmetrical with respect to the longitudinal axis of the IHG, the width of the slots is the same throughout length, each haptic element is provided with a straight and arched grooves, while the arched groove is made concentrically to the optical part at its periphery, disappearing at the transverse axis of the IHG, according to the invention, each haptic element is made in the form of a semi-oval, equipped with a manipulation hole located at the periphery the optical part between the end surface and the slot, both holes are located diagonally to each other, the haptic elements are bent to the front surface of the optical part at an angle m 15-20 degrees, through the slots repeat the contour of the end surface of the haptic elements, each of the arched grooves is made along the entire front surface of the haptic element, except for the slots, and each straight groove is located along the longitudinal axis of the ICH on its front surface between the top of the end surface of the ICH and through the slot, while the distance between the extreme points of the slots at the periphery of the optical part is 0.48-0.52 diameter of the optical part, the distance between the extreme points of the vertices of the slot is 1.3-1.4 times the diameter of the optical part, the distance between the extreme points of the haptic part along the longitudinal axis is 8.8-9 mm, the length of each straight groove is 1-1.15 mm, the width of all grooves is the same and 0.5 mm, the depth of each of the grooves is half the thickness of the haptic part.

The implementation of each haptic element of the semi-oval shape allows it to be implanted through a small incision, while the slots that repeat the shape of the end surface of the haptic element are easier to lead beyond the edge of the anterior capsule along the PIK border, which reduces the invasiveness of the operation.

Haptic elements are bent to the front surface of the optical part relative to the main IHG at an angle of 15-20 degrees, which allows to increase the volume of accommodation.

The implementation of grooves along the entire front surface of each haptic element, with the exception of the sections of the slots, concentrically optical part at its periphery, allows you to increase the amount of accommodation.

Straight grooves located on the front surface of the haptic element along the longitudinal axis of the IHG between the end surface of the IHG and the through slot allow the IHG to be completely folded, which will allow it to be implanted through a small incision, which reduces the invasiveness of the operation.

The distance between the extreme points of the straight sections of the slots at the periphery of the optical part is 0.48-0.52 diameter of the optical part.

The distance between the extreme points of the haptic part along the longitudinal axis is 8.8–9 mm.

The length of each straight groove is from 1 to 1.15 mm, and the width of all grooves is the same and is 0.5 mm.

The depth of each of the grooves is half the thickness of the haptic part.

The diameter of the optical part is 5 mm.

The invention is illustrated by the drawings shown in figures 1-2.

Figure 1 - Top view.

Figure 2 - Section along the longitudinal axis perpendicular to the main plane of the IHG.

The artificial lens of the eye contains a haptic 1 and an optical part 2, is configured to mutually move the optical and haptic parts containing sections with through cuts in the haptic part. The haptic part 1 contains two diametrically located, symmetrical with respect to the center 3 and the longitudinal axis 4 IHG identical through holes 5 of a semi-oval shape. In the haptic part 1 two straight grooves 6 are made, each of which is located along the longitudinal axis 4 of the IHG, between the end surface of the IHG and the through slot 5. In the haptic part 1, an arcuate groove 7 is also made, located concentrically to the optical part 2 at its periphery along the entire front the surface of the haptic part 1, with the exception of the sections of the through slot 5. The ICH is equipped with two manipulation holes 8, each of which is located at the periphery of the optical part between the end surface and the slot 5, with this hole 8 are located in relation to each other diagonally.

Rectilinear grooves 6 allow you to fold IHG and implant it on the edge of the anterior capsule through a small incision, which allows to reduce eye injury. Arcuate grooves 7 can enhance the refractive power of the eye. The accommodation process is as follows: distance and near vision is provided under the influence of contraction and relaxation of the ciliary muscle. With its reflex contraction, pressure is applied to the IHG, which is located on the anterior capsule associated with the ciliary muscle, and since the haptic element at the groove is thinner, this helps to shift the optical part of the IHG back to the macula, which provides distance vision.

With relaxation of the ciliary muscle, the optical part of the IHG is shifted forward to the iris, which provides near vision.

The proposed IHG is implanted under traditional local anesthesia. After PNA, phacoemulsification of the cataract and removal of the lens masses, the haptic and optical parts of the IHG are bent along the longitudinal axis 4 and implanted in tweezers through the PNA, while one of the haptic elements is inserted into the lower arch of the capsular bag, then the tweezers are slowly squeezed, the ICH is expanded into capsule bag and at the time of expansion, pressing on the IHG with a spatula, lead the edge of the front capsule along the PNA border into the slot of the haptic element, leaving the inner part of the haptic element on the front capsule, ogre nychny a cut, fixing thus the specified haptic element. Then the diametrically opposite haptic element is pushed away with a spatula towards the center of the eye, immersed in the upper arch of the capsular bag and similarly fixed.

Using the proposed IHG and the method of its implantation allows to achieve the claimed technical result, namely, to expand the arsenal of accommodating artificial eye lenses, increase the volume of accommodation, as well as reduce the morbidity of implantation while improving the convenience of the surgeon.

Claims (1)

An artificial eye lens (IHG), made as a whole from a biocompatible elastic material and containing an optical and haptic part with the possibility of bending, the haptic part is made in the form of two curved diametrically located haptic elements, the width of the haptic part is equal to the diameter of the optical part, in the haptic part are made two diametrically located identical through slots, each slot is symmetrical about the longitudinal axis of the IHG, the width of the slots is the same over the entire length, each the haptic element is provided with a straight and arched grooves, while the arcuate groove is made concentrically to the optical part at its periphery, disappearing at the transverse axis of the IHG, characterized in that each haptic element is made in the form of a semi-oval, equipped with a manipulation hole located at the periphery of the optical part between the end surface and the slot, both holes are located diagonally to each other, the haptic elements are bent to the front surface of the optical part at an angle of 15-20 °, through e slits repeat the contour of the end surface of the haptic elements, each of the arcuate grooves is made along the entire front surface of the haptic element, with the exception of the slots, and each straight groove is located along the longitudinal axis of the ICH on its front surface between the top of the end surface of the ICH and the through slot, while the distance between the extreme points of the slots at the periphery of the optical part is 0.48-0.52 diameter of the optical part, the distance between the extreme points of the vertices of the slots is 1.3-1.4 diam optical part, the distance between the extreme points of the haptic part along the longitudinal axis is 8.8-9 mm, the length of each straight groove is 1-1.15 mm, the width of all grooves is the same and is 0.5 mm, the depth of each groove is half thickness of the haptic part.

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