RU2094027C1 - Bifocal intraocular lens - Google Patents

Abstract

FIELD: ophthalmology. SUBSTANCE: lens has supporting part and optical member made as combination of two concentrically positioned parts. Each part is represented by lens the body of which is limited by spherical surface on one side and by plane on the other. Concentrically positioned parts face each other with their flat surfaces. Practically they are manufactured monolithic. EFFECT: improved acuity of vision. 1 dwg

Description

 The invention relates to medicine and can be used to restore the functions of the organ of vision, impaired due to clouding of the lens.

 A bifocal intraocular lens is known (Fedorov S.N. et al. Bifocal IOL, Ophthalmic Surgery N 1, 1992, p. 36, prototype) containing an optical element in the form of a combination of two parts concentrically arranged with different optical powers and a support part, and the difference in the optical power of the parts is 3.0 to 3.5 diopters. Such an IOL does not provide sufficient visual acuity at different distances. It has been experimentally established that a bifocal IOL with a difference in optical power of parts of 2.5 to 3.5 diopters provides visual acuity without correction at the level of 0.5 0.6, and near free reading of texts N 7 and N 6. In addition, the difference is less 4.0 diopter in a person, the image is disrupted, when at short distances there is a sudden deterioration in vision and a sharp deterioration in visual acuity in the distance. Therefore, the task of increasing visual acuity by improving the IOL remains relevant.

 The problem is solved in that in a bifocal intraocular lens containing a support part and an optical element made in the form of a combination of two concentrically placed parts, the difference in optical power between the parts of the optical element is at least 4 diopters. Moreover, the most optimal difference is 6.0 8.0 diopters. Moreover, the bifocal IOLs made according to the proposed design provide visual acuity in the distance without correction, also at the level of 0.8 1.0 and reading texts N 3 and N 4. This can be explained by the fact that it is easier for the brain to choose the necessary of two images formed on the retina at a big difference in the forming elements.

 The drawing shows a bifocal IOL.

 The optical element of the biftocal IOL consists of two concentrically located parts 1 and 2. Each of the parts is a lens whose body is bounded on one side by a spherical surface and on the other by a plane. Parts 1 and 2 face each other with flat surfaces and are practically made in one piece. The bifocal IOL is equipped with a supporting part 3, which is an extension of the plane of part 1 of the optical element. Parts 1 and 2 of the optical element are different in their optical power, and the difference is at least 4.0 diopters.

 The operation is performed according to standard methods. Endocapsular cataract extraction is performed, after which the bifocal IOL is implanted into the capsular bag, orienting it so that the spherical surface of a smaller diameter (part 2) faces the back capsule.

 The optical parts 1 and 2 form the far and near images on the retina, respectively. The brain chooses one necessary in a specific situation.

Claims (1)

 A bifiocal intraocular lens containing a support part and an optical element made in the form of a combination of two concentrically arranged parts, characterized in that the difference in optical power between the parts of the optical element is at least 4 diopters.