RU2194475C2 - Artificial eye lens - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device is manufactured from biocompatible material impermeable for water vapor and has two lenses of different curvature with zero refraction (meniscus). The material has zero dioptrics in air changeable for negative one in intraocular fluid. Peripheral portions of lenses are joined and form supporting member and geometric cavity between the lenses. The lenses are turned with their convex parts towards the cornea. The first lens has smaller radius with respect to the cornea. Dimensions of the portions of both lenses are the same. Ratio of internal radius of the first lens to the external radius of the second one is equal to 0.5-0.9. Ratios of diameters of beveled portion of the supporting members and the main portions are equal to 1.05-1.15. EFFECT: reduced risk of postoperative complications.

Description

 The invention relates to medicine, and more particularly to ophthalmology, and can be used in the correction of high myopia in the phakic eye.

 Known posterior artificial lens of the eye (IHG) for implantation in the phakic eye during the correction of high myopia, made of biocompatible material containing a lens and a support element having different sizes in two mutually perpendicular planes, while its axis of symmetry passes through the axis of symmetry of the lens, and in the largest plane, the diametrically opposite ends of the peripheral part of the support element are beveled (RU Pat. 2033114). IHG is fixed to the periphery of the anterior surface of the native lens.

 However, to increase the dioptricity of the IHG of this design, it is necessary to increase the height of its optical part, which can lead to trauma to the corneal endothelium, and a decrease in height leads to a decrease in the diameter of the optical part, which, in turn, leads to the appearance of double vision with one eye.

 The objective of the invention is the creation of IHG for the correction of high myopia in order to reduce postoperative complications by reducing trauma to the surrounding tissues.

 The technical result is achieved according to the invention in that the ICH containing a lens and a support element having different sizes in two mutually perpendicular planes, while its axis of symmetry passes through the axis of symmetry of the lens, and in the largest plane the diametrically opposite ends of the peripheral part of the support element are beveled, for fixation on zinc bonds, made of biocompatible material impermeable to water vapor, with the possibility of changing zero diopter in the air to negative in the eye fluid, from two lenses of different curvature, the same thickness along the entire length, with zero refraction (meniscus), the periphery of the lenses are connected, forming the IHG support element and a tight cavity between the lenses, the bulges of both lenses are turned towards the cornea, while the first lens is in relation to the cornea is made with a smaller radius of curvature, the shape and dimensions of the periphery of the lenses are the same, and the ratio of the inner radius of the first lens to the outer radius of the second lens is 0.5-0.9, the ratio of the diameters of the surface of the beveled part of the supporting element to its main part is 1.05-1.15.

The authors performed empirically the parameters of ICH performance and are necessary and sufficient to exclude traumatization of the eye tissues surrounding it. The ratio of the inner radius R _{3 of the} first lens 1 to the outer radius R _{4 of the} second lens, equal to 0.5-0.9, eliminates trauma to the corneal endothelium in the anterior chamber, and the ratio of the diameters D ₁ and D _{2 of} the placement surface of the beveled part and the main part of the supporting element , equal to 1.05-1.15, allows you to reliably fix IHG by applying them to zinn (zonular) ligaments.

 IHG is made of a material impervious to water vapor, for example silicone, acrylic rubber, polyurethane or their copolymers.

 The meniscus-shaped cavity formed between two lenses with zero refraction, filled with atmospheric air or inert gas, due to the large difference in the refractive indices of the gas and chamber moisture, makes it possible to obtain a negative lens with high dioptricity at an insignificant height and a large diameter of the optical part in the eye fluid, which, respectively excludes trauma to the corneal endothelium and double vision with one eye.

 Nitrogen, cryiton, argon, etc. can be used to fill the sealed cavity.

 The invention is illustrated in the drawing, where figure 1 shows a General view of the IHG; figure 2 is a section along aa; figure 3 - scheme of implantation.

The artificial eye lens according to the invention contains an optical part 1 and a support element 2 with beveled ends 3, 4, two lenses 5, 6 with zero refraction, the same thickness H and different radii of curvature R ₁ and R ₂ , a sealed cavity 7 filled with gas 8, where D ₁ is the diameter of the location of the beveled part 3, 4 of the support element 2, D ₂ is the diameter of its main part. R ₃ is the inner radius of curvature of the first lens 5, R ₄ is the outer radius of curvature of the second lens 6.

 Figure 3 shows the implantation implantation scheme of IHG, where the optical part 1 is installed in the center of the pupil 9 and above the front surface 10 of the native lens 11 of the eye, and the beveled ends 3.4 of the support element 2 are fixed to the zinc (zonal) ligaments 12.

 The method of implantation of IHG is as follows.

 Under local anesthesia, for example, through the incision of the cornea 13 and the pupillary region 9, the ends 3, 4 of the supporting element 2 are alternately fixed to the zinc (zonal) ligaments, the optical part 1 is installed in the center of the pupil 9. The operation ends with suturing.

 Example. Patient K., 30 years old.

 Diagnosis: high myopia of the right eye.

 Visual acuity of the right eye of 0.02 sph. - 22, OD = 0.3.

 Visual acuity of the left eye 1.0.

 Implanted IHG according to the invention of the corresponding diopter for this patient.

Moreover, the ratio of the inner radius R _{1 of the} first lens with respect to the cornea is 0.6, the ratio of the diameters of the placement surface of the beveled portion of the support element to its main part is 1.05.

 The postoperative period without complications. On the first day after surgery, visual acuity of 0.6 without correction. The eye is calm, the position of the IHG is correct, the native lens of the eye is transparent. After 1 year, the visual acuity of the right eye is 0.9.

Claims (1)

 An artificial eye lens made of a biocompatible material containing a lens and a support element, the axis of symmetry of which passes through the axis of symmetry of the lens, and in the largest plane the diametrically opposite ends of the peripheral part of the support element are beveled, characterized in that it consists of two lenses of different curvatures, in order to change the zero diopter in the air to a negative one in the eye fluid, the lenses are made of a material impervious to water vapor with zero refraction, and their periphery is connected they are formed with support elements and an airtight cavity filled with gas, the lenses having the same thickness along the entire length, the convexities of both lenses are facing the cornea, the ratio of the radius of the first lens to the outer radius of the second lens is 0.5-0.9.

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