RU2457812C1 - Artificial intraocular lens - Google Patents

Abstract

FIELD: medicine. ^ SUBSTANCE: invention relates to field of ophthalmic surgery. Artificial intraocular lens (AEL) contains optic and support elements. Anterior surface of optic element is flat and is provided with elements of toric surface, and posterior surface of optic element is made in form of segments of elliptical, hyperbolic and parabolic surfaces. In the centre of posterior surface located is first segment of hyperbolic surface, ratio of diameter of said hyperbolic to diameter of optic part lies in the interval from 0.1 to 0.3. Second part of posterior surface is made in form of segment of elliptical surface, ratio of diameter of elliptical surface segment to diameter of optic element lies in the interval from 0.1 to 0.3. Third part of posterior surface is made in form of segment of second hyperbolic surface, ratio of diameter of hyperbolic surface segment to diameter of optic element lies in the interval from 0.2 to 0.4. Peripheral part of posterior surface is made in form of segment of parabolic surface, ratio of diameter of said surface to diameter of optic element lies in the interval from 0.2 to 0.4. Elements of toric surface are made in form of two segments, diametrically opposite with respect to symmetry axis, passing through the centre of optic part, and centrally symmetric with respect to optic surface centre. Angular measurement of segments lies within the interval from 30 to 120 degrees. Frontal section of each of the segments represents semicircle. Optic part of each of toric segments is provided with diametrically located markers, oriented along longitudinal axis of symmetry, passing through the centre of anterior surface of optic part, external butt end surface of support element being made in form of ellipsis. ^ EFFECT: application of the invention will make it possible to increase acuity of photopic and scotopic vision to the level of intact eye with simultaneous reduction of astigmatism. ^ 4 dwg

Description

The invention relates to the field of ophthalmic surgery.

One of the problems of ophthalmic surgery is to ensure a natural relationship between the acuity of central vision, peripheral vision and the size of the central scotoma after ophthalmic surgery.

The relationship between the acuity of central vision and the magnitude of the central scotoma is given in the work of W. Happe, "Ophthalmology", M., 2004, Medicine, p. 49. The indicated dependences characterize the optical apparatus and the visual analyzer of the normal eye as a whole.

Known artificial lens of the eye (IHG) according to the patent of the Russian Federation No. 2398550, MKI A61 2/16. An artificial eye lens containing optical and supporting elements, the front surface of the optical element is made in the form of a flat surface, a segment of a convex toric surface is located on the periphery of the flat surface, the chord length of this segment being equal to the distance from the end of the optical surface to the point of contact with the flat part of the front surface perpendicular drawn from the point of connection of the segments of the parabolic surface and the hyperbolic surface of the posterior surface of the ICH; the back surface of the optical element is made in the form of concave relative to the front surface, curved surfaces with continuous curvature having one central optical axis, the central surface is made in the form of a segment of a concave elliptical surface, and the ratio of the major axis of the elliptical surface to the diameter of the optical element lies in the range from 0.25 to 0.5, the second part of the rear surface is made in the form of a segment of a concave hyperbolic surface, and the ratio of the segment diameter the hyperbolic surface to the diameter of the optical element lies in the range from 0.35 to 0.45, the peripheral part of the rear surface is made as a segment of the parabolic surface, and the ratio of the diameter of this surface to the diameter of the optical element lies in the range from 0.35 to 0.45 .

However, this IHG has a significant drawback: it does not simultaneously provide the correct ratio between the acuity of central vision and peripheral vision and the size of the central scotoma after ophthalmic surgery and does not sufficiently reduce astigmatism.

The technical result of the invention is to increase the acuity of photopic and scotopic vision to the level of an intact eye with a simultaneous decrease in astigmatism, the expansion of the range of artificial eye lenses.

The technical result is achieved in that in the artificial lens of the eye containing the optical and supporting elements, the front surface of the optical element is flat and provided with elements of a toric surface, and the rear surface of the optical element is made in the form of segments of elliptical, hyperbolic and parabolic surfaces, characterized in that in the center of the rear surface is additionally located the first segment of the hyperbolic surface, and the ratio of the diameter of this hyperbolic to the diameter of the optical part lies in the range from 0.1 to 0.3, the second part of the rear surface is made in the form of a segment of the elliptical surface, and the ratio of the diameter of the segment of the elliptical surface to the diameter of the optical element lies in the range from 0.1 to 0.3, the third part of the back surface is made in the form of a segment of the second hyperbolic surface, and the ratio of the diameter of the segment of the hyperbolic surface to the diameter of the optical element is in the range from 0.2 to 0.4, the peripheral part of the rear surface is made in the form of a segment a parabolic surface, and the ratio of the diameter of this surface to the diameter of the optical element lies in the range from 0.2 to 0.4; elements of a toric surface made in the form of two segments diametrically opposite with respect to the axis of symmetry passing through the center of the optical part and centrally symmetrical with respect to the center of the optical surface, with the angular measure φ of the segments lying in the range from 30 to 120 degrees, the frontal section of each of the segments a half circle, the optical part of each of the toric segments is equipped with diametrically located markers oriented along the longitudinal axis of symmetry, passing through the center of the front surface of the optical part, while the outer end surface of the support element is made in the form of an ellipse.

The system of significant 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 with a simultaneous decrease in astigmatism.

The claimed IHG is illustrated by drawings: figure 1-4.

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 is a frontal section of the IHG, figure 3 is a top view of the IHG, figure 4 is a section aa of the toric segment.

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 both in high light (curve 6) and a narrow pupil, and in low light (curve 7) and a wide pupil.

Figure 2 indicates: 9 - the front flat surface of the optical element, 16 - segments of the toric surface, 10 - the Central surface of the back surface of the IHG in the form of a concave elliptical surface, 11 - the second part of the back surface of the IHG, 13 - the peripheral part of the back surface of the IHG, 14 - vertical axis of symmetry, 15 - supporting element.

In Fig. 3 it is indicated: 17 — center of the optical part, 18 — axis of symmetry, 19 — angle of segment 16.

In figure 4 is indicated: 20 - circular section aa segment 16.

These dependences characterize the optical apparatus and the visual analyzer of the normal eye: the proposed design of IHG in combination with other elements of the optical system of the eye gives similar characteristics of optical visual acuity both in strong light (curve 6) and a narrow pupil, and in low light (curve 7) and wide pupil.

The front surface 9 of the optical element is flat and provided with elements of a toric surface 16, and the rear surface of the optical element is made in the form of segments of elliptical, hyperbolic and parabolic surfaces, in the center of the rear surface is the first segment of the hyperbolic surface 10, and the ratio of the diameter of this hyperbolic surface to the diameter of the optical part lies in the range from 0.1 to 0.3, the second part of the rear surface 11 is made in the form of a segment of an elliptical surface, and the ratio of the diameter of the segment of the elliptical surface to the diameter of the optical element lies in the range from 0.1 to 0.3, the third part of the rear surface 12 is made as a segment of the second hyperbolic surface, and the ratio of the diameter of the segment of the hyperbolic surface to the diameter of the optical element lies in the range from 0, 2 to 0.4, the peripheral part of the rear surface 13 is made in the form of a segment of a parabolic surface, and the ratio of the diameter of this surface to the diameter of the optical element lies in the range from 0.2 to 0.4; elements of a toric surface made in the form of two segments 16 diametrically opposite with respect to the axis of symmetry 14 passing through the center of the optical part and centrally symmetrical with respect to the center of the optical surface, and the angular measure φ19 (Fig. 3) of the segments 16 lies in the range from 30 to 120 degrees, frontal the cross section of each of the segments (Fig. 4) is a half circle 20, the optical part of each of the toric segments is provided with diametrically located markers oriented along the longitudinal axis immetrii passing through the center of the front surface of the optical part, the outer end surface of the support member is in the form of an ellipse.

The calculated diameters of the four segments of the rear surface relative to the diameter of the optical part lie in the ranges of 0.1-0.2; 0.1-0.3; 0.2-0.4; 0.2-0.4, respectively.

The technical result is ensured by the fact that the rear surface of the IHG contains a collection of continuous specially selected and calculated segments of the optical surfaces, and angular segments of toric surfaces are located on the periphery of the front surface.

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 four surfaces 10, 11, 12, 13 from the center to the periphery of the optical element of the IHG (figure 2). Ensures both the correspondence of curve 6 of figure 1 with high illumination and a narrow pupil, and curve 7 of figure 1 with low illumination and a wide pupil.

The proposed IHG allows you to provide a natural relationship between the acuity of central vision and the magnitude of the central scotoma and at the same time reduce astigmatism.

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

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

Claims (1)

An artificial eye lens containing optical and supporting elements, the front surface of the optical element is flat and provided with toric surface elements, and the rear surface of the optical element is made in the form of segments of elliptical, hyperbolic and parabolic surfaces, characterized in that the first segment is additionally located in the center of the rear surface hyperbolic surface, and the ratio of the diameter of this hyperbolic to the diameter of the optical part lies in the range from 0.1 to 0.3, W The other part of the back surface is made in the form of a segment of an elliptical surface, the ratio of the diameter of the segment of the elliptical surface to the diameter of the optical element being in the range from 0.1 to 0.3, the third part of the back surface is made in the form of a segment of the second hyperbolic surface, and the ratio of the diameter of the segment is hyperbolic surface to the diameter of the optical element lies in the range from 0.2 to 0.4, the peripheral part of the rear surface is made in the form of a segment of a parabolic surface, and the ratio of the square of this surface to the diameter of the optical element lies in the range from 0.2 to 0.4; elements of a toric surface made in the form of two segments diametrically opposite with respect to the axis of symmetry passing through the center of the optical part and centrally symmetrical with respect to the center of the optical surface, with the angular measure φ of the segments lying in the range from 30 to 120 °, the frontal section of each of the segments a half circle, the optical part of each of the toric segments is equipped with diametrically located markers oriented along the longitudinal axis of symmetry passing through h the center of the front surface of the optical part, while the outer end surface of the support element is made in the form of an ellipse.

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