RU2385690C1 - Intraocular lens - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention relates to ophthalmosurgery. An intraocular lens (IOL) comprises optical and reference elements. A front surface of the optical element represents a segment of a spherical surface, while a back surface thereof represents curvilinear surfaces concave relative to the front surface with a continuous curvature with the same central optical axis. A central surface of the back surface is a segment of a concave parabolic surface, and the relation of its diametre to the diametre of the optical element is within 0.2 to 0.3. The second piece of the back surface is a segment of a third-order concave surface generated by rotation about the central optical axis of a curve matched with third-order Chebyshev polynomial, and the relation of its diametre to the diametre of the optical element is in the range 0.3 to 0.5. The peripheral piece of the back surface of the optical element represents a segment of a forth-order concave surface generated by rotation about the central optical axis of a curve matched with Lagrange polynomial, and the relation of the diametre of this surface to the diametre of the optical element is in the range 0.3 to 0.5. ^ EFFECT: application of said IOL enables to improve acuity of daylight and night vision to an intact-eye level. ^ 2 dwg

Description

The invention relates to the field of ophthalmic surgery.

One of the problems of ophthalmic surgery is to ensure the correct (natural) correlation between the acuity of central vision and the magnitude of the central scotoma after ophthalmic surgery.

The relationship between the acuity of central vision and the magnitude of the central scotoma is shown in Fig. 1 (V.Happe. Ophthalmology. M .: Medicine, 2004, p. 49). The indicated dependences characterize the optical apparatus and the visual analyzer of the normal eye.

Known artificial lens of the eye (IHG) according to the patent of the Russian Federation No. 2061438, IPC ⁶ A61F 2/16. The artificial lens of the eye consists of an optical lens, support elements pivotally mounted and located along the perimeter of the optical lens and oriented with free ends from the edge to its center, while the ends of the support elements adjacent to the central part of the optical lens have holes for fixing to the iris along the edge of the pupil, and in the optical lens in the locations of the supporting elements, recesses are made.

However, this IHG has a significant drawback: it does not provide the correct ratio between the acuity of central vision and the magnitude of the central scotoma after ophthalmic surgery.

The technical result of the invention is to increase the severity of photopic and scotopic vision to the level of an intact eye.

The technical result is achieved by the fact that in the artificial lens of the eye containing the optical and supporting elements, the front surface of the optical element is made in the form of a segment of a spherical surface, and the rear surface of the optical element is made in the form of concave curved surfaces concave relative to the front surface with continuous curvature having one central optical axis, central surface is made in the form of a segment of a concave parabolic surface, the ratio of its diameter to diameter the optical element lies in the range from 0.2 to 0.3, the second part of the rear surface is made in the form of a segment of a concave surface of the third order, formed by rotation around the central optical axis of the curve of the line corresponding to the Chebyshev polynomial of the third order, and the ratio of its diameter to the diameter of the optical element lies in the range from 0.3 to 0.5, the peripheral part of the rear surface of the optical element is made in the form of a segment of a concave surface of the fourth order formed by rotation around a central opt cal axis line curve corresponding Lagrange polynomial, a ratio of the diameter to the diameter of the surface of the optical element ranges from 0.3 to 0.5.

By a curve corresponding to a third-order Chebyshev polynomial is meant a third-order polynomial from the Chebyshev polynomial system (Mathematical Encyclopedia. M., 1990, v. 2, p. 869).

By a curve corresponding to a fourth-order Lagrange polynomial is meant a fourth-order polynomial from the system of Lagrange interpolation polynomials (Mathematical Encyclopedia. M., 1990, v. 3, p. 632).

The system of essential distinguishing features proposed by the authors is necessary and sufficient for an unambiguous positive solution of the stated technical problem - increasing the acuity of photopic and scotopic vision to an intact level.

The claimed IHG is illustrated by drawings.

Figure 1 - curves of the relationship between the acuity of central vision and the magnitude of the central scotoma in the human eye.

Figure 2 - frontal section of the IHG.

In figure 1 is indicated: 1 - axis of visual acuity, in angular minutes; 2 - angular values measured from the Central fossa 3; 4 - nasal region; temporal region 5; 6 - photopic vision curve; 7 - scotopic vision curve; 8 - maximum curve 6.

The indicated dependences characterize the optical apparatus and the visual analyzer of the normal eye, which was taken as a criterion for the design of the IHG: the proposed design of IHG in combination with other elements of the optical system of the eye gives similar characteristics of optical visual acuity as in strong light (curve 6) and a narrow pupil, and in low light (curve 7) and a wide pupil.

Figure 2 indicates: 9 - the front surface of the optical element, 10 - the Central surface of the back surface of the IHG in the form of a parabolic surface, 11 - the second part of the back surface of the IHG, 12 - the peripheral part of the back surface of the IHG, 13 - the supporting element.

The artificial lens of the eye contains optical and reference elements. The front surface of the optical element is made in the form of a segment of a spherical surface. The rear surface of the optical element is made in the form of curved surfaces with a continuous curvature concave relative to the front surface, having one central optical axis. The central surface 10 is made in the form of a segment of a concave parabolic surface, and the ratio of its diameter to the diameter of the optical element lies in the range from 0.2 to 0.3. The second part 11 of the rear surface is made in the form of a segment of a concave surface of the third order formed by rotation around the central optical axis of the curve of the line corresponding to the Chebyshev polynomial of the third order, and the ratio of its diameter to the diameter of the optical element is in the range from 0.3 to 0.5. The peripheral part 12 of the rear surface of the optical element is made in the form of a segment of a concave surface of the fourth order formed by rotation around the central optical axis of the curve of the line corresponding to the Lagrange polynomial, and the ratio of the diameter of this surface to the diameter of the optical element lies in the range from 0.3 to 0.5.

Optical visual acuity with the proposed design of the IHG corresponds to the complex curves of figure 1 due to the coordination of the parameters of the three surfaces 10, 11, 12 from the center to the periphery of the optical element of the IHG (figure 2). Ensures both the correspondence of curve 6 (Fig. 1) at high illumination and a narrow pupil, and curve 7 (Fig. 1) at low illumination and a wide pupil.

The proposed IHG allows for a natural relationship between the acuity of central vision and the magnitude of the central scotoma.

IHG is implanted under local anesthesia. Capsulorexis is performed, phacoemulsification of the lens is performed, and lens masses are removed. IHG is introduced into the capsule bag.

Using IHG allows you to achieve the claimed technical result - to increase the severity of photopic and scotopic vision to the level of an intact eye.

Claims (1)

An artificial lens of the eye containing optical and supporting elements, characterized in that the front surface of the optical element is made in the form of a segment of a spherical surface, and the rear surface of the optical element is made in the form of concave curvilinear surfaces with a continuous central curvature concave relative to the front surface, having one central optical axis, central the surface of the rear surface is made in the form of a segment of a concave parabolic surface, and the ratio of its diameter to the diameter of the optic of the element lies in the range from 0.2 to 0.3, the second part of the rear surface is made in the form of a segment of a concave surface of the third order, formed by rotation around the central optical axis of the curve of the line corresponding to the third-order Chebyshev polynomial, and the ratio of its diameter to the diameter of the optical element lies in the range from 0.3 to 0.5, the peripheral part of the rear surface of the optical element is made in the form of a segment of a concave surface of the fourth order formed by rotation around the Central optical th axis line curve corresponding Lagrange polynomial, a ratio of the diameter to the diameter of the surface of the optical element ranges from 0.3 to 0.5.

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