RU2523149C1 - Ophthalmic microsurgical knife - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: ophthalmic microsurgical knife comprises a body and a working part. The working part is presented in the form of a dish-shaped segment of a rectangular surface an end face of which is opposite to a handle and is pointed. A segment width of the rectangular surface lies in the range of 1.6 to 3.6 mm.

EFFECT: reduced injures of the eye tissues.

3 dwg

Description

The invention relates to the field of medical equipment and can be used for ophthalmic surgery.

Minimizing the traumatic effect on the eye tissue is one of the most important problems of ophthalmic microsurgery. The state of vision in the postoperative period depends on how successfully it is solved.

Known microsurgical blade containing a handle and a pointed working part (RF patent No. 2331377 from 08/20/2008). The working part consists of a front acute-angled triangular element and a rear rectangular element connected to it.

However, this device has significant disadvantages: significant trauma to the eye, especially with microinvasive opening of the cornea or scleral membrane of the eye. The interaction of the cutting edge with the tissues of the eye membranes forms unnecessarily sharp angles when performing an incision due to the design features of the knife and the geometric characteristics of the membranes, leading to damage.

EFFECT: reduced trauma to eye tissue.

The technical result is achieved by the fact that in an ophthalmic microsurgical knife containing a body and a working part, the working part is made in the form of a convex segment of a rectangular surface, the end surface of which, opposite the handle, is pointed, and the width of a segment of a rectangular surface lies in the range from 1.6 to 3 6 mm

The combination of distinguishing features of the invention proposed by the authors is necessary and sufficient for the unique achievement of the claimed technical result.

The invention is illustrated by drawings in figures 1-3.

Figure 1 is a top view.

Figure 2 - section A-A, B-B.

Figure 3 is a side view of a C-C.

The ophthalmic microsurgical knife contains a handle (not shown in the figures) and a pointed working part. The working part is made in the form of a convex segment of a rectangular surface, the end surface of which 1, 2 (Fig. 1), opposite the handle, is pointed. The width of a segment of a rectangular surface lies in the range from 1.6 to 3.6 mm. The rectangular surface is narrowed along the longitudinal axis of symmetry 3 of the working part (Figure 2, sections A-A and B-B), section C-C in Figure 3.

The pointedness along the longitudinal axis of symmetry of the working part (Figure 3) allows to reduce the deformation of the layers of the cornea or sclera. The execution of the end surface at an acute angle to the longitudinal axis of symmetry of the working part allows you to reduce deformation when the knife enters the eye tissue.

The implementation of the working part with a segment width across the longitudinal axis of symmetry from 0.8 to 1.8 mm allows you to form a self-sealing section due to the formation of vaulted tunnel inside the tissues.

The sharpness of the lower edge from the inside of the working part also contributes to the formation of a self-sealing section due to the fact that the cut layers are inside the tunnel formed inside the tissues.

Work with the proposed device is as follows.

The tissue section of the eye is made in one stitching movement with an inclination of 15-30 degrees. When the working part passes in the cornea or sclera, an inclined rectangular tunnel is formed, the transverse width of which is congruent to the width of the segment of the working part of the tool. During the reverse movement, the cutting edges of the widest part of the instrument additionally dissect the choroid, which is a soft inner tissue of the eye, on a rigid support - the sclera.

Using the proposed invention allows to reduce trauma to the tissues of the eye and to form a self-sealing incision in the corneal or scleral layers of the eye.

Example 1. The working part of the knife is made in the form of a convex segment of a rectangular surface, the end surface of which, opposite the handle, is pointed, and the width of the segment of the rectangular surface is 1.6 mm. The rectangular surface is curved across the longitudinal axis of symmetry of the working part. A width value of a segment of a rectangular surface of 1.6 mm is the minimum necessary for the physiological range of values of the curvature and thickness of the fibrous membrane of the eye. The congruence of the working surface of the knife of the surface of the fibrous membrane allows you to create optimal conditions for self-sealing of the tunnel section.

Example 2. The working part of the knife is made in the form of a convex segment of a rectangular surface, the end surface of which, opposite the handle, is pointed, and the width of the segment is 2.1 mm. The rectangular surface is curved across the longitudinal axis of symmetry of the working part. The value of the width of the segment of a rectangular surface of 2.1 mm is optimal for the physiological range of values of the curvature and thickness of the fibrous membrane of the eye. The congruence of the working surface of the knife of the surface of the fibrous membrane allows you to create optimal conditions for self-sealing of the tunnel section.

Example 3. The working part of the knife is made in the form of a convex segment of a rectangular surface, the end surface of which, opposite the handle, is pointed, and the width of the segment is 2.6 mm. The rectangular surface is curved across the longitudinal axis of symmetry of the working part. A value of a segment width of a rectangular surface of 2.6 mm is maximally sufficient for the physiological range of curvature values of the fibrous membrane of the eye. The congruence of the working surface of the knife of the surface of the fibrous membrane allows you to create optimal conditions for self-sealing of the tunnel section.

Claims (1)

An ophthalmic microsurgical knife, comprising a body and a working part, characterized in that the working part is made in the form of a convex segment of a rectangular surface, the end surface of which, opposite the handle, is pointed, and the width of the segment of a rectangular surface lies in the range from 1.6 to 3.6 mm.

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