RU2536710C1 - Intraocular lens - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: intraocular lens comprises an optic portion and a haptic portion consisting of two elements, one of which is optically transparent and comprises a trapezoid slot, and the second element represents a plate with through holes on the periphery. The plate is fastened in the slot of the first haptic element and connected to the optic portion. An outer surface of the first haptic element represents an ellipsoid. A base of the second haptic element is a bi-convex lens, while the optic portion represents a concave-convex cylinder lens and comprises markers arranged along an axis of symmetry of the optic portion perpendicular to an axis of reciprocation of the plate.

EFFECT: using the invention enables reducing astigmatism, improving the fastening reliability of the intraocular lens and conservation of the visual organ.

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Description

The invention relates to ophthalmic surgery and can be used to correct astigmatism by intraocular changes in the optical power of an artificial lens.

Known artificial lens of the eye (IHG) according to the patent of the Russian Federation No. 2464955. The artificial lens of the eye contains the optical part and the composite haptic part, according to the invention the haptic part consists of two elements. The first of the elements is made in the form of a transparent disk. The disk has a slot in the form of a trapezoid, with a large base facing the base of the disk, along the vertical axis of symmetry, and through holes on the periphery. The second element is made in the form of a longitudinal plate fixed in the slot of the first element in which the optical part is installed. The plate has mounting holes and is arranged to reciprocate along the vertical axis of symmetry of the first element of the haptic part. The distances from the center of the optical part to the edges of the plate are not equal.

However, this IHG has significant disadvantages: insufficient correction of astigmatism, tissue trauma.

EFFECT: reduced astigmatism, increased reliability of fastening of the artificial lens of the eye, increased organ safety of the organ of vision.

The technical result is achieved by the fact that in the artificial lens of the eye containing the optical part and the haptic part of two elements, the first of which is optically transparent and contains a slit in the form of a trapezoid, and the second element of the haptic part is made in the form of a plate with through holes at the periphery, while the plate is fixed in the slot of the first haptic element and connected to the optical part, and the outer surface of the first haptic element is made in the form of an ellipsoid, the base of the first haptic electron ment is designed as a biconvex lens, and the optical part is formed as a concavo-convex cylindrical lens, while it is provided with markers positioned along the axis of symmetry of the optical portion, perpendicular to the axis of reciprocation of the plate.

The invention is illustrated by drawings.

Figure 1 shows the frontal section of the IHG.

Figure 2 is a profile section of the IHG.

The artificial lens of the eye (IHG) is made as follows.

IHG is made with the possibility of dosed intraocular changes in optical power in accordance with changes in refraction.

The artificial lens of the eye contains the optical part 1 and the haptic part of the two elements 2, 3. The first element 2 is optically transparent and contains a slot 4 in the form of a trapezoid. The second element 3 of the haptic part is made in the form of a plate 5, mounted in the slot of the first haptic element 2 and connected by the optical part 1. The optical part 1 is made in the form of a concave-convex cylindrical lens. The outer surface of the first haptic element 2 is made in the form of an ellipsoid. The optical part is equipped with markers 6 located along the axis of symmetry 7 of the optical part perpendicular to the axis 8 of the reciprocating movement of the plate 5.

The trapezoidal slot 4 is located along the perpendicular axis 8.

The peripheral parts of the longitudinal plate 5 contain through holes 9, necessary for movement along the axis 8 (figure 1).

IHG works as follows.

After implantation, decentration of the optical axis is possible. It is necessary to eliminate decentration by shifting the center of the optical part 1 in the desired direction.

The displacement of the optical part 1 is carried out by moving the plate 5 through the interaction of the ophthalmic surgeon's tool with the holes 9 and displacing the plate 5 inside the trapezoidal slot 4 (Fig.2).

Due to the movement of the plate 5 in the trapezoidal slot 4, the center of the optical part located on the plate 5 is shifted and the decentration that is possible with the implantation of IHG is eliminated.

Dosed intraocular change in the optical power of the ICH occurs due to the reciprocating movement of the plate 5 relative to the perpendicular axis 8.

An artificial lens of the eye is implanted as follows.

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. The front chamber is washed with a BSS solution, a solution of acetylcholine 0.01% is introduced. Seal the surgical incision.

The use of IHG allows you to achieve the claimed technical result - the correction of astigmatism and increase the organ safety of the organ of vision.

Claims (1)

An artificial lens of the eye containing the optical part and the haptic part of two elements, the first of which is optically transparent and contains a trapezoidal slot, and the second element of the haptic part is made in the form of a plate with through holes on the periphery, while the plate is fixed in the slot of the first haptic element and connected to the optical part, characterized in that the outer surface of the first haptic element is made in the form of an ellipsoid, the base of the first haptic element is made in the form of two convex lenses, and the optical part is formed as a concavo-convex cylindrical lens, while it is provided with markers positioned along the axis of symmetry of the optical portion, perpendicular to the axis of reciprocation of the plate.

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