RU51488U1 - IMPLANT FOR THE FORMATION OF A MOTOR-MOTOR CULTURE AFTER ENEUCLATION OF THE EYE - Google Patents

Abstract

The utility model relates to the field of medicine, namely to ophthalmology, and is used in the formation of the musculoskeletal stump after enucleation. The technical problem solved by the utility model is to increase the cosmetic effect of enucleation. The technical result is achieved by the fact that an implant containing a body in the form of a sphere made of an elastic polymer substance filled with a gel-like substance is additionally equipped with three strips of biologically compatible material located along three circles, which are parts of three mutually perpendicular planes passing through the center of the sphere. The utility model allows to simplify the formation of the musculoskeletal stump and prosthetics of the eye during enucleation, increase the mobility and stability of the ocular prosthesis, reduce the risk of postoperative complications - displacement, exposure and rejection of the implant.

Description

The utility model relates to medicine, namely to ophthalmology and is used in the formation of the musculoskeletal stump after enucleation.

Known implant for the formation of the musculoskeletal stump after evisceration of the eye, made in the form of a sphere of an elastic polymer substance filled with a gel-like substance (RF patent No. 1316114).

However, this implant cannot be used in the formation of the musculoskeletal stump after enucleation, as it has several disadvantages: the implant has a smooth surface that does not allow it to be fixed to the tendons of extraocular muscles, which is a prerequisite for creating a mobile and stable musculoskeletal stump.

The objective of the utility model is to create an implant for the formation of the musculoskeletal stump after enucleation.

The technical result achieved using the utility model is to increase the cosmetic effect of enucleation, increase the mobility and stability of the ocular prosthesis, reduce the risk of postoperative complications - displacement, exposure and rejection of the implant.

The technical result is achieved by the fact that the implant containing the body in the form of a sphere made of an elastic polymer substance filled with a gel-like substance is additionally equipped with three strips of biocompatible material located in three circles, which are parts of three mutually perpendicular planes passing through the center of the sphere. As a gel

Substances can be used low molecular weight silicone rubber.

With this arrangement, the strips form a kind of case for the implant, in which, like in a basket, it is held in the tissues of the orbit, which prevents the possibility of its displacement in the orbit. Each external rectus muscle is fixed to the implant in two places - the muscle tendon is sutured to the intersection of two bands and the abdomen of the muscle to the third strip. This reduces the risk of exposure and rejection of the implant.

The invention is shown in figure 1 and consists of a body in the form of a sphere 1 of an elastic polymer substance, the sphere 1 is filled with a gel-like substance. The implant is equipped with three strips 2 of biocompatible material located in three circles, which are parts of three mutually perpendicular planes passing through the center of the sphere.

The proposed implant is used as follows. The conjunctiva and tenon membrane are separated from the eyeball along the limb. Direct extraocular muscles in the tendon area are stitched with a looped suture, cut anteriorly from the suture. The eye is brought out and fixed in this position using eyelids, a neurectomy is performed 5 mm from the eyeball, and the eye is removed. Carry out hemostasis. Next, the proposed implant is placed in place of the removed eyeball so that the intersection of two strips 2 of biocompatible material is located on its front surface. The tendons of the direct extraocular muscles are fixed to the intersection of two bands 2, and the abdomen of the muscles to the third band 2. Continuous sutures are applied to the tenon membrane and conjunctiva. A pressure dressing is applied for 2-3 days. 3-4 weeks after surgery, a temporary ocular prosthesis is installed.

Example 1. Patient S., 59 years old, was admitted with a diagnosis of OD Choroid neoplasm. OS is healthy. Vis OD = 0.002 ex. Vis OS = 0.5 sph + 2, OD == 1.0. By the method of ultrasonic B-scanning, tumor sizes were established: height = 10.5 mm, length = 10.1 mm. The neoplasm begins from the edge of the optic disc and extends to the periphery of the fundus. Given the size of the tumor and its localization, the operation was performed OD - enucleation with implantation of the proposed implant according to the method described above. The postoperative period was uneventful: there was a slight swelling of the mucous membrane, which independently disappeared after a few days; there is no tension in the tissues of the orbit; the musculoskeletal stump is mobile. The position of the implant in the orbit is stable. When performing exophthalmometry after selecting an external cosmetic prosthesis, the extension of its front surface is equal to the extension of a healthy eye. The opening of the palpebral fissure and the position of the orbit-palpebral groove are symmetrical with a healthy eye. The patient is satisfied with the cosmetic result.

Thus, the use of the utility model makes it possible to simplify the formation of the musculoskeletal stump in patients after eye enucleation and to increase the cosmetic effect of enucleation due to increased mobility and stability of the ocular prosthesis, reduced risk of postoperative complications - displacement, exposure and rejection of the implant.

Claims (1)

An implant for the formation of a musculoskeletal stump after enucleation, comprising a body in the form of a sphere made of an elastic polymer substance filled with a gel-like substance, characterized in that it is additionally equipped with three strips of biologically compatible material located on three circles that are parts of three mutually perpendicular planes, passing through the center of the sphere.