RU176654U1 - OPHTHALMOLOGICAL TOOL FOR DISCOVERING CUTS FORMED WITH THE FEMTOSECOND LASER - Google Patents

Abstract

The utility model relates to medical equipment and can be used in ophthalmic surgery for phacoemulsification of a cataract with a femtolaser follow-up to mechanically open incisions formed using a femtosecond laser (FSL). The instrument consists of a handle, a shoulder and a working part, and the working part is made in the form of an oval with with a width of not more than 1.1 mm, a length of not more than 3 mm, the surface of the oval is plano-convex with a maximum height of the convex part of 0.35 mm and having a smooth bevel to the base, and the transition section from The working part to the shoulder is made flat. The technical result is the ability to accurately open the incision formed by the FSL, eliminating the likelihood of a “false move”, providing a more delicate and atraumatic tissue stratification, as well as reducing the risks of intra- and postoperative complications.

Description

The utility model relates to medical equipment and can be used in ophthalmic surgery for phacoemulsification of cataracts with femtolaser support for the mechanical opening of incisions formed using a femtosecond laser (FSL).

In the surgical treatment of cataracts using FSL energy, the main incision and paracentesis are formed, which remain airtight until they are mechanically opened. The sections are opened using an ophthalmic spatula consisting of a handle, a shoulder and a flat working part with rounded edges of a width of not more than 2 mm and a length of not more than 14 mm (product catalog of the company "Medtekhnika", Kazan, http: //www.medtech .ru / catalog / ophthalmology / section.php? SECTION_ID = 383). This design of the spatula is taken by us as a prototype.

During the opening of the incisions formed by the FSL, the surgeon applies force in a plane parallel to the flat working part of the spatula, and the eye tissue cannot provide sufficient resistance in the event of a “false move” away from the formed incision. This can lead to additional trauma to adjacent tissues and blood vessels of the eye, and also provoke the occurrence of such a complication as detachment of the descemet membrane, which complicates the work of the surgeon, and lengthens the rehabilitation period of patients.

The technical task of the utility model is to develop the design of an ophthalmic instrument for opening incisions formed with the help of FSL, which ensures accurate and delicate incision and excludes injury to adjacent tissues and vessels of the eye.

The technical result is the ability to accurately open the incision formed by the FSL, eliminating the likelihood of a “false move”, providing a more delicate and atraumatic tissue stratification, therefore, reducing the risk of intra- and postoperative complications, and providing a more anatomical adaptation of the edges of the surgical wound.

The utility model is illustrated by graphic material, where in FIG. 1. shows a General view of an ophthalmic instrument for opening incisions formed using FSL, in FIG. 2 - the same tool, side view.

The technical result is achieved by the fact that it is proposed an ophthalmic tool for disclosing incisions formed using FSL, the following design. The tool consists of a handle (4), a shoulder (3) and a working part (1), and the working part is made in the form of an oval with a width of not more than 1.1 mm, a length of not more than 3 mm, the surface of the oval is flat-convex with a maximum height of the convex part 0.35 mm and having a smooth bevel to the base, and the transitional section from the working part to the shoulder (2) is made flat and is located at an angle of 150 ° relative to the shoulder. The flat-convex design of the working part provides a more atraumatic incision and stratification of the eye tissue, eliminating the possibility of a “false move”. The shoulder, the transition section and the working part of the tool are made of stainless steel.

Ophthalmic instrument is used as follows.

The patient undergoes a femtolaser stage of cataract surgery with the formation of a circular capsulotomy, incisions for subsequent crushing of the lens nucleus into fragments and the formation of the main incision and paracentesis. Next, at the stage of phacoemulsification using the proposed tool produce a mechanical disclosure of the main incision and paracentesis. After that, phacoemulsification and implantation of an intraocular lens are performed according to the usual method.

Claims (1)

An ophthalmic instrument for opening incisions formed using a femtosecond laser during the surgical treatment of cataracts, containing a handle, a shoulder and a working part, characterized in that the working part is made in the form of an oval with a width of not more than 1.1 mm, a length of not more than 3 mm, the surface The oval is flat-convex with a maximum height of the convex part of 0.35 mm and having a smooth bevel to the base, and the transition section from the working part to the shoulder is made flat.

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