RU2134086C1 - Artificial crystalline lens - Google Patents

Abstract

FIELD: ophthalmology. SUBSTANCE: optical part of crystalline lens is made of two plano-convex lenses of different curvatures facing each other with their flat surfaces. Lenses are fastened to each other at distance of 0.25 tp 0.5 mm by connectors equidistant from one another. Supporting members are located on lens with large curvature radius. EFFECT: increased visual function simultaneously into distance and nearby without spectacles correction. 2 dwg

Description

 The invention relates to medicine, and more particularly to ophthalmology, and can be used for intraocular correction of aphakia in hyperopia.

 Known artificial lens of the eye, containing as a optical part a biconvex lens and diametrically located symmetrical closed support elements (A.S. N 1697788).

 However, the disadvantage of such a lens is that, when correcting aphakia in hyperopters, its optical power exceeds 340 diopters, and the thickness of the lens approaches its diameter, which ultimately results in a poor image quality compared to lateral correction with a pupil width of 3 mm, while this lens does not solve the issue of near vision without spectacle correction.

 The objective of the invention is to create an artificial lens for the correction of aphakia in hyperopia and at the same time provide distance and near vision without spectacle correction.

 The technical result of the invention is to increase visual function simultaneously into the distance and near without spectacle correction.

 The technical result is achieved by the fact that in the artificial lens of the eye containing the optical part and diametrically located symmetrical closed support elements in the form of curved figures, according to the invention, the optical part is made of two plane-convex lenses of equal curvature facing each other with flat surfaces and bonded to each other at a distance of 0.25 to 0.5 mm with jumpers equidistant from each other, while the supporting elements are located on the lens with a large radius of curvature.

 The proposed shape of the artificial lens allows, by increasing the depth of focus, to approximate the focus area of parallel rays to the focus area of diverging rays, partially overlapping them, which will allow you to see both in the distance and near.

Depth of focus increases due to:
1) the diversity of the components of the optical part, which allows the formation of 4 refracting surfaces with 3 media in the optics of an artificial lens (PMMA-moisture-PMMA);
2) separation at a certain distance of the main points of the constituent parts of the optical part of the lens.

The invention is illustrated in the drawing, where
FIG. 1 is a general view of the lens,
FIG. 2 is a section along AA, where flat-convex lenses 1, 2 of the optical part of the artificial lens, bridge 3, haptic part 4 are shown.

 Implantation of an artificial lens is carried out according to the usual method: through a corneal incision, an artificial lens is implanted in a capsule bag of the lens.

 Example. Patient B., 70 years old, initial senile cataract, high degree hyperopia, OD visual acuity 0.1 n / k.

 Extracapsular cataract extraction was performed with implantation of this artificial lens with the dioptricity of the constituent parts of 14.5 diopters and 7.5 diopters, respectively, and spaced 0.25 mm apart.

 The operation and the postoperative period without complications. Visual acuity at a distance of 0.8 and visual acuity near 0.5 - 0.6 b / c.

 The position of the IOL is correct, stable.

Claims (1)

 An artificial eye lens containing the optical part and diametrically arranged symmetrically closed support elements in the form of curvilinear figures, characterized in that the optical part is made of two plane-convex lenses of different curvature facing each other with flat surfaces and fastened together at a distance of 0, 25-0.5 mm jumpers equidistant from each other, while the supporting elements are located on the lens with a large radius of curvature.

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