RU2223721C2 - Artificial eye lens and method for implanting it - Google Patents

Abstract

FIELD: medicine; medical engineering. SUBSTANCE: device has bendable optical part manufactured from flexible material. The haptic part is shaped as closed curvilinear figures from rigid material and is located in the principal plain of the optical part. The haptic part has two flat arch-like bearing members of differing lengths belonging to the principal lens plain with concave parts facing each other. Method involves carrying out continuous circular capsulorhexis, removing lens nucleus by means of phacoemulsification; introducing artificial eye lens into anterior capsulorhexis area and fixing it on the anterior capsulorhexis edge. The optical part is bent to bring the loops in each pair into engagement. One end of the greater arc-shaped bearing member is first introduced via the operation incision into the anterior capsulorhexis area. Then, the optical part with loops and lesser arc- shaped bearing member is introduced in folded state using forceps. The loops are turned towards cornea. EFFECT: high reliability of artificial eye lens; reduced risk of traumatic complications. 2 cl, 1 dwg

Description

 The invention relates to medicine, namely to ophthalmology, and can be used for intraocular correction of aphakia during cataract removal.

 An artificial eye lens made of biocompatible hard material is known, containing the optical part and the haptic part in the form of closed curvilinear figures lying in the main plane of the optical part (B. E. Malyugin et al. Results of experimental-clinical testing of an intraocular lens with fixation on the edge of capsulorexis , "Ophthalmological Journal", Odessa, 6, 2000, pp. 22-25).

This model has disadvantages:
- supporting elements made in the form of three closed loops located at an angle of 120 degrees relative to each other and containing hinges of the first kind at their vertices for fixation to the edge of the anterior capsulorhexis, during fixation they can injure the edge of the anterior capsulorhexis with slight damage to its edge, t .to. the capsule bag as a whole has a very delicate structure;
- the optical part made of hard material does not allow implantation of this IHG through a small incision (3 mm), because usually the optical part has a diameter of 5.5-6 mm;
- the technical problem of the invention in terms of IHG is the creation of an IHG model, the configuration of the haptic part of which and the elastic optical part allow it to be securely fixed to the edge of the anterior capsulorhexis, due to the presence of this design of arched support elements, the extension of the edge of the anterior capsulorhexis occurs over a larger area, and not at the points pinching, and also allows you to implant IHG through a small incision.

 The technical result in the part of the IHG according to the invention is achieved in that in the IHG made of a biocompatible material containing the optical and haptic part in the form of closed curvilinear figures made of rigid material and lying in the main plane, the optical part is made of flexible material with the possibility of bending, and the haptic part additionally contains two flat arcuate support elements of different lengths lying in the main plane of the lens and facing concavities towards each other, and d one arcuate support element is 1.5-2 times longer than the other, and their centers are connected to the optical part by diametrically located rectilinear jumpers lying in the main plane of the optical part, the distance between the most distant points of the ends of the larger arcuate support element is equal to the diameter of the optical part ; and closed curvilinear figures of the haptic part are made in the form of two pairs of flat loops, and the loops in each pair are symmetrical with respect to the bridge and located under the arc-shaped element, and the arc-shaped section of each loop smoothly passes into rectilinear sections bent towards each other, the ends of each loop are connected to the end optical part; moreover, the radii of curvature of each arcuate support element and arcuate sections of each loop have one center with the radii of curvature of the optical part, and the width of the support elements of the haptic part is uniform along the entire length.

 The objective of the invention in terms of the method is to create a simple and reliable method of fixation and implantation of ICH, since due to the configuration of the support elements and the elastic optical part, it is possible to fold the loop-shaped support elements and the optical part in tweezers, and the design of the arc-shaped support elements allows the ICH to be implanted through a small incision.

 The technical result in terms of the method according to the invention is achieved by the fact that in the method of implanting IHG, including conducting continuous circular anterior capsulorexis, removing the nucleus by phacoemulsification, introducing IHG into the region of the anterior capsulorexis and fixing it to the edge of the anterior capsulorhexis, the optical part is bent before implantation of the IHG until the loops in each pair come into contact, through the surgical incision, one end of the large arcuate element is first introduced into the region of the anterior capsulorhexis, once twist it until the other end is inserted, then the optical part with the loops facing the cornea and the smaller arcuate support element are introduced in the folded state with tweezers, first a larger arcuate element, and then a smaller arcuate support element is placed under the edge of the anterior capsulorhexis and, expanding the forceps , release the optical part and the loops, each pair of loops is placed over the edge of the anterior capsulorhexis and over the corresponding arcuate support elements, fixing the edges of the capsulorhexis between the arches element and corresponding pairs of loops.

 In the postoperative period, there are no dislocations and decentralizations of IHG, complications such as iridocyclitis and increased intraocular pressure are excluded, because no contact with reactive tissues of the eye: the iris and ciliary body.

 The configuration of the haptic part and the soft optical part make it possible to fix IHG on the edge of the anterior capsulorhexis even if its integrity and ruptures of the anterior capsule are broken and implant through small incisions, not more than 3 mm.

 A reliable fixation of IHG on the edge of the anterior capsulorhexis and a stable central position relative to the optical axis allows to obtain high functional results - high visual acuity.

 At the same time, the edge of the circular continuous capsulorexis has elasticity, resists mechanical stresses and does not allow radial tears to appear. The front capsule is an avascular formation devoid of nerve endings. It is a reactive structure in which inflammation does not develop, which allows it to be used as a support for IHG.

 The invention is illustrated in the drawing, which shows the IHG according to the invention.

 The artificial lens contains the optical part 1 and the haptic part in the form of arched support elements 2 and 3, connected to the optical part 1 by jumpers 4 and 5, loops 6, 7 and 8, 9 with arched sections 10, 11 and 12, 13 and rectilinear sections 14 and 15.

 The method of implantation of IHG is as follows.

 Under traditional anesthesia, an operative incision is made, which can be performed, for example, as a scleral-corneal tunnel small incision. Then open the front capsule and conduct continuous circular capsulorexis, remove the nucleus and lens masses. Next, before implantation, the optical part 1 is bent until the loops 6 and 7, 8 and 9 in each pair come into contact, through the surgical incision, one end of the larger arcuate support element 2 is introduced into the region of the anterior capsulorhexis, deployed until the other end is inserted, then inserted in the folded state in the tweezers, the optical part 1 with loops 6 and 7, 8 and 9, and then a smaller arcuate support element 3; first, a larger arcuate support element 2, then a smaller arcuate support element 3 is located under the edge of the anterior capsulorhexis, slowly squeeze the tweezers, releasing the optical part 1 and the loops, each pair of loops is placed over the edge of the anterior capsulorhexis and over the corresponding arcuate support elements 2, 3, fixing between them are the edges of the capsulorexis.

 Example 1. Patient M., 86 years old. Diagnosis: OD Senile cataract. Visual acuity is the correct light projection.

 According to the above method, IHG 20D according to the invention was implanted through a small tunnel incision and fixed on the edge of the anterior capsulorexis. The postoperative period without complications.

 On the second day after surgery: visual acuity of 0.9 with a sphere of 0.75D = 1.0 and persisted for a year of observation. The structure of the iris is preserved due to the lack of contact with IHG.

 The fixation of the supporting elements to the edge of the anterior capsulorhexis according to the invention during rupture of the posterior capsule during emulsification eliminates the complete or partial displacement of IHG into the anterior chamber or vitreous body, dislocation of the arches, and the need to use additional tools besides tweezers when fixing it.

Claims (2)

1. An artificial lens of the eye made of a biocompatible material, containing the optical part and the haptic part, made in the form of closed curvilinear figures from a rigid material, and lying in the main plane of the optical part, characterized in that the optical part is made of flexible material with the possibility of bending, the haptic part contains two flat arcuate support elements of different lengths lying in the main plane of the lens and facing concavities towards each other, and the length of one arc of the support element is more than 1.5-2 lengths of another arcuate support element, their centers are connected to the optical part by diametrically located rectilinear jumpers lying in the main plane of the optical part, and the distance between the most distant points of the ends of the larger arcuate support element is equal to the diameter of the optical part, closed the curved figures of the haptic part are made in the form of two pairs of flat loops, the loops in each pair are symmetrical with respect to the bridge and are located under the arc m element, the arcuate section of each loop smoothly goes into straight sections, bent towards each other, the ends of each loop are connected to the end of the optical part, the radii of curvature of each arcuate support element and the arcuate sections of each loop have one center with a radius of the optical part, and the width of the support elements haptic part is uniform along the entire length. 2. A method of implanting an artificial lens of the eye, including continuous circular capsulorexis, removing the lens nucleus by phacoemulsification, introducing an artificial lens of the eye into the anterior capsulorhexis and fixing it to the edge of the anterior capsulorhexis, characterized in that the optical part is bent before each implantation in contact with the loops pair, through the surgical incision in the region of the anterior capsulorhexis, first one end of the larger arcuate support element is introduced, a turn they are sealed until the other end is inserted, then the optical part is inserted in the tweezers when folded, with the loops facing the cornea, and a smaller arcuate support element, with a larger arcuate support element and then a smaller arcuate support element placed under the edge of the anterior capsulorhexis, and by expanding the tweezers, the optical part and the loops are released, each pair of loops is placed over the edge of the anterior capsulorhexis and over the corresponding arcuate support elements, fixing the edges of the capsulorhexis and between each arcuate element and the corresponding pairs of loops.