RU2511081C1 - Toric marker of capsulorrhexis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to ophtalmosurgery. A toric marker of carsulorrhexis comprises a handle and a working portion. The working portion is presented in the form of two rings, a first cylindrical ring interacting with a second coaxial cylindrical ring rotating about a long vertical axis extending through an axis of symmetry of the marker, and coupled with two diametric V-projections with its acute angles facing a lower surface of the above ring. The first ring is provided with a rotational angle marker. The V-projections are provided on an extended surface of the second ring. A lower surface of the V-projections interacting with a corneal surface is concave relative to a plane of the first ring with a mean radius equal to a mean curvature radius of the cornea that is pointed, as well as a lower surface of the first ring.

EFFECT: using the given invention enables more accurate marking, provides the marking of capsulorrhexis in a combination with an astigmatic axis of an implanted toric intraocular lens, reduces the length of the operation.

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Description

The invention relates to the field of ophthalmic surgery and can be used for simultaneous marking of capsulorexis and the astigmatic axis of a toric intraocular lens during its implantation.

A device for marking the cornea is known (RF patent for utility model No. 61129 of 05.22.2006). The marker consists of a pen located at an angle to it of the working part, made in the form of a ring with one radial rod ending in its center. The handle is perpendicular to the working part. At the opposite end of the handle, a mark is made in the same plane as the radial rod, and parallel to it. The length of the mark is 2.0 mm longer than the length of the radial rod. At the end of the mark is a ring with an inner diameter of 2.0 mm, and parallel to the ring is a working part with a diameter of 6.0 mm.

However, this device has a significant drawback. It cannot be used for simultaneous marking of capsulorexis and the astigmatic axis of a toric intraocular lens during its implantation. In addition, this device is not convenient enough during the operation, since it does not contain a scale for angular marking of the location, which causes significant difficulties during the operation.

The technical task of the invention is to increase the accuracy of the marking, ensuring the simultaneous marking of capsulorexis and the astigmatic axis of the toric intraocular lens during its implantation, reducing the time of surgery, while increasing the convenience of the ophthalmic surgeon.

The specified technical problem is solved in that in a toric capsulorhexis marker containing a handle and a working part, according to the invention, the working part is made in the form of two rings, a first cylindrical ring interacting with a second coaxial cylindrical ring, made to rotate around a longitudinal vertical axis passing through the center of symmetry of the scribe, and connected to two diametrically spaced wedge-shaped protrusions facing acute angles to the lower surface of this ring, the ditch ring is provided with a marking of the angle of rotation; wedge-shaped protrusions are placed on the outer surface of the second ring; the lower surface of the wedge-shaped protrusions interacting with the surface of the cornea is made concave relative to the plane of the first ring with an average radius equal to the average radius of curvature of the cornea of the eye, while it is pointed, like the lower surface of the first ring.

The set of essential distinguishing features developed by the authors is necessary and sufficient for the unambiguous achievement of the claimed technical result.

The invention is illustrated by figures 1-3. Figure 1 - frontal section, figure 2 - wedge-shaped protrusions, isometry, figure 3 - marking the angle of rotation.

The device is as follows.

The toric capsulorexis scribor comprises a handle (not shown in the figures) and a working part. The working part is made in the form of two rings: the first cylindrical ring 1, interacting with the second coaxial cylindrical ring 2, made with the possibility of rotation around a longitudinal vertical axis 3 passing through the center of symmetry of the marker along an annular recess made in the cylindrical ring 1. The first outer ring 1 equipped with a marking of the angle of rotation 4. The wedge-shaped protrusions 5 are placed on the outer surface of the second ring 2. The lower surface 6 of the wedge-shaped protrusions 5, interacting with the surface of the cornea, ying concave relative to the plane of arrangement of the first ring 1 with a mean radius equal to the mean radius of curvature of the eye cornea and sharpened. The lower surface 7 of the first ring 1 is pointed. The marking of the angle of rotation 4 is necessary for marking the axis of the location of the toric intraocular lens. The wedge-shaped protrusions 5, diametrically opposed to each other, are mounted on the outer side of the second ring 2 and face acute angles to its lower surface 9.

Ensuring a more accurate function of the device and increasing the convenience of the surgeon is achieved by combining (combining) the functions of the toric axis marker and the Mueller ring in one device.

Work with the device is as follows: the present invention is used during phacoemulsification for marking the diameter of capsulorexis and the axes of the location of the toric intraocular lens. During this operation, the main important points are the precise marking of the axis of the recommended lens position and the round shape of capsulorexis of sufficient size. After applying a vector extender and instilling an anesthetic, the surgeon takes this device and, under coaxial illumination of the microscope, rotates the second coaxial cylindrical ring 2 until the wedge-shaped protrusions 5 correspond to the required degree of marking of the rotation angle 4. Next, the tool axis is 0 ° -180 ° in this way so that it coincides with the same axis on the cornea, marked at the preoperative stage. The first cylindrical ring 1 is placed in the center of the cornea. When interacting with the surface of the cornea of the lower concave surface 6 of the wedge-shaped protrusions 5 and the lower surface 7 of the first cylindrical ring 1, desquamation of the epithelium occurs. As a result of this, a clear trace of capsulorexis and the necessary position of the axes of the toric intraocular lens remain throughout the operation.

The invention is characterized by the following clinical example.

Example. Patient G., 55 years old, was operated on with a diagnosis of complicated cataract, high myopia, astigmatism. Marking the location of the astigmatic axis of the toric intraocular lens and the diameter of the capsulorexis was carried out using the proposed toric marker capsulorexis. The operation was successful, the postoperative period without features.

Using the proposed invention provides improved marking accuracy, simultaneous marking of capsulorexis and the astigmatic axis of the toric intraocular lens during its implantation, reducing the time of surgery, while increasing the convenience of the ophthalmic surgeon.

Claims (1)

A toric capsulorhexis marker, containing a handle and a working part, characterized in that the working part is made in the form of two rings, a first cylindrical ring interacting with a second coaxial cylindrical ring, made to rotate around a longitudinal vertical axis passing through the center of symmetry of the marker, and connected with two diametrically spaced wedge-shaped protrusions facing acute angles to the lower surface of this ring, the first ring is provided with a marking of the angle of rotation; wedge-shaped protrusions are placed on the outer surface of the second ring; the lower surface of the wedge-shaped protrusions interacting with the surface of the cornea is made concave relative to the plane of the first ring with an average radius equal to the average radius of curvature of the cornea of the eye, while it is pointed, like the lower surface of the first ring.

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