RU110978U1 - TORIC Intraocular Lens Marked for Orientation - Google Patents

Abstract

 Toric IOL with a marking for its orientation, having a marking indicating the position of the cylindrical meridian of the IOL, characterized in that the marks are made in the form of strips on each side and end with arcs equal to 1/4 of a ring with a diameter of 3 mm and 1.5 mm on each side of optical center of the IOL, concave toward the edge of the lens.

Description

The device relates to medical equipment and, in particular, to ophthalmology and can be used in patients with irregular corneal shape, namely with astigmatism, who undergo surgical treatment of cataracts with implantation of a toric intraocular lens (IOL).

The search for options for the simultaneous correction of aphakia and corneal astigmatism led to the creation and implementation in clinical practice of toric IOLs, the use of which avoids many of the disadvantages that arise during refractive operations on the cornea (Malyugin B.E., Phillipov V.O. The first experience in correcting corneal astigmatism with phacoemulsification using a spherical cylindrical IOL // New in Ophthalmology. - 2001. - No. 1. - C.15-16; Horn JD Status of toric intraocular lenses // Current Opinion in Ophthalmology. - 2007. - Vol. 18. - P. 58-61).

Toric IOLs are monolithic biconvex spherical acrylate lenses and are distinguished by the toric component present on the back surface. The optical part of the lens is marked with dots or stripes on two opposite sides that indicate the position of the cylindrical component of the IOL, with which the lens is positioned in the capsular bag in accordance with the position of the strong corneal meridian

The main requirements for implantable toric IOLs are not only the neutralization of corneal astigmatism immediately after surgery, but also the need for a stable position of the IOL in the capsular bag for a long time. Rotational instability of toric IOL models causes a significant decrease in vision in the postoperative period.The most common cause of rotational instability of IOLs is the wrinkling of the capsular bag due to the development of the fibrous process, as a result of which the lens rotates clockwise around its axis. Most of these cases occur during the first three months after implantation (Jos J. Rozema, Gobin L., Verbruggen K., Tassignon MJ, Changes in rotation after implantation of a bag-in-the-lens intraocular lens // Journal of Cataract and Refraction Surgery. - 2009. - Vol. 35 - No. 8. - P. 1385-1388; Chang D. Comparative rotational stability of single-piece open-loop acrylic and plate-haptic silicone tone intraocular lenses // Journal of Cataract and Refraction Surgery. - 2008. - Vol. 34. - P.1842-1847).

Even a slight deviation of the cylindrical meridian of the toric IOL from the calculated axis can lead to a significant decrease in astigmatic correction. For example, a deviation of only 10 degrees minimizes the potential correction to 35%, which leads to a significant decrease in the visual acuity of the patient (Jos J. Rozema, Gobin L., Verbruggen K., Tassignon MJ, Changes in rotation after implantation of a bag-in- the-lens intraocular lens // Journal of Cataract and Refraction Surgery. - 2009. - Vol. 35 - P.1385-1388; Weinand F. et al. Rotation stability of a single-piece hydrophobic acrylic intraocular lens: new method for high -precision rotation control // Journal of Cataract and Refraction Surgery. - 2007. - Vol. 33 - No. 5. - P.800-803).

The prototype of the invention is to determine the correct location of the cylindrical meridian, both during and after the operation by the position of the marks located on the surface of the IOL. However, with an atrophic iris and a rigid, non-expanding pupil, it is almost impossible to do this, since the marks are not long enough and end at 2.5 mm from the optical axis of the IOL on each side, and the pupil width does not exceed 3.0 mm (1.5 mm on each side of the optical axis of the IOL), i.e. in the lumen of a narrow pupil, it is not possible to see the marks.

The disadvantages of this markup are:

- it is not possible to visualize the marks on the IOL in the eyes with a rigid pupil during surgery, for this it is necessary to move the iris and the edge of the pupil with an additional instrument introduced into the eye, which causes additional trauma to the tissues of the eye;

- it is not possible to see the marks after surgery on the eyes with atrophy of the iris and rigid pupil;

- marking on the prototype does not allow accurate alignment of the IOL relative to the optical axis of the eye, both on the wide and narrow pupils;

- marking on the prototype does not allow to determine the position of the optical axis of the IOL relative to the optical axis of the eye on both the wide and narrow pupil after the operation.

The objective of the invention is to propose the marking of a toric IOL for accurate orientation in a capsule bag.

The technical result - the ability to visualize the position of the toric IOL in the capsular bag by using the proposed layout. The figure shows a toric IOL with the proposed marking.

The marking is applied to the toric IOL 1, in the form of strips 2 on each side of the edge, which indicate the position of the cylindrical meridian of the IOL. The strips end with arcs 3, equal to 1/4 of the ring with a diameter of 3 mm, 1.5 mm on each side of the optical center of the IOL, concave towards the edge of the lens.

Device Advantages:

- marks on the IOL in the eyes with a rigid pupil during the operation are freely visualized, without the need to move the iris and the edge of the pupil with an additional instrument introduced into the eye, while the additional tissue does not damage the eye tissue;

- the marks are easily visualized after an operation on the eyes with iris atrophy and a rigid pupil, since the marking ends 1.5 mm from the optical axis of the toric IOL and is visible even on a narrow pupil;

- the marking allows accurate alignment of the IOL relative to the optical axis of the eye, both on the wide and narrow pupils during the operation, since the marking ends 1.5 mm from the optical axis of the toric IOL and is visible even on the narrow pupil;

- the marking allows you to determine the position of the optical axis of the IOL relative to the optical axis of the eye, both on the wide and narrow pupil after the operation, since the marking ends 1.5 mm from the optical axis of the toric IOL and is visible even on the narrow pupil.

Claims (1)

Toric IOL with a marking for its orientation, having a marking indicating the position of the cylindrical meridian of the IOL, characterized in that the marks are made in the form of strips on each side and end with arcs equal to 1/4 of a ring with a diameter of 3 mm and 1.5 mm on each side of optical center of the IOL, concave toward the edge of the lens.