RU25406U1 - IMPLANT FOR IMPROVEMENT OF MOBILITY OF EYE PROSTHESIS AT EVISCERATION AND ENUKLEATION WITH ENDOPROSTHESIS - Google Patents

Abstract

An implant for increasing the mobility of an ocular prosthesis during evisceration and enucleation with endoprosthetics, comprising a body, characterized in that the body is made in the form of a hemisphere with an expanded base in the form of an annular flange and made of a biocompatible material, for example, hydrogel.

Description

An implant to increase the mobility of the ocular prosthesis during evisceration and enucleation with endoprosthetics.

The utility model relates to medical equipment, namely to intraocular implants, designed to increase the mobility of the ocular prosthesis used in evisceration and enucleation with endoprosthetics.

A known implant designed to increase the mobility of an ocular prosthesis is used for evisceration and enucleation with endoprosthetics (Cheglakov P.Yu. Abstract of the conference "Fundamental Sciences and the Progress of Clinical Medicine" Device for increasing the mobility of an ocular prosthesis, pp 73-74., -M., 2001).

However, this implant has significant drawbacks in the complexity of manufacturing the implant itself, a congruent posterior wall of the ocular prosthesis.

The technical task is to simplify the structure of the implant while maintaining functional efficiency.

The specified technical problem is solved by the fact that the proposed implant having a body made in the form of a hemisphere with an expanded base in the form of an annular flanging. The implant is made from a biocompatible material, such as a hydrogel. The utility model is illustrated in Fig 1, where the housing is made in the form of a hemisphere 1 with annular flanging 2.

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The proposed utility model can be used for enucleation and evisceration.

When enucleation: after standard procedures of anesthesia and processing of the surgical field, conjunctiva and tenon membrane from the eyeball are separated. Tendons of the external rectus muscles are taken from the merselen on the provisional sutures and sclera are cut with rims 1.0 cm in diameter. Then the optic nerve and tendons of the oblique muscles are crossed. After that, the eyeball is removed. An endoprosthesis is implanted in its place (not shown in the drawing). External rectus muscles are sutured to the anterior surface of the endoprosthesis. Then, the proposed implant is centrally placed and sutured with an annular flange 2 either to the surface of the endoprosthesis or to the external rectus muscles. The operation is completed by suturing the conjunctiva and tenon membrane. 2-3 weeks after the operation, a temporary ocular prosthesis with concavity of the congruent hemisphere 1 of the implant is installed, and after 4-7 months. establish a permanent ocular prosthesis with a similar concavity.

With evisceration. Processing of the surgical field is performed according to the usual method. After retrobulbar anesthesia, akinesia or anesthesia, a frenum suture is applied to the superior rectus muscle. Under the conjunctiva, 1 ml of novocaine solution is administered. Next, a scraper performs scarification of the corneal epithelium. Using conjunctival scissors, the conjunctiva and tenon membrane are separated. Next, make a cross-shaped incision of the cornea and sclera. The contents of the scleral capsule are removed using a curette, a scraper and a suction. The next step is to make incisions

sclera at the posterior pole medial to the optic nerve head, cross the optic nerve with removal of its disc, make four meridional scleral incisions from the posterior pole to the apices of corneoscleral flaps. Then the endoprosthesis is installed, the endoprosthesis (not shown in the drawing) in the scleral sac, the flaps of the fibrous membrane of the eye are connected by seams. Then, the proposed implant is sutured centrally by annular flanging 2 to the scraper. The operation is completed by suturing the tenon membrane and conjunctiva and the introduction of an antibiotic and steroid under the conjunctiva. 2-3 weeks after the operation, a temporary ocular prosthesis with concavity of the congruent hemisphere 1 of the implant is installed, and after 4-7 months. establish a permanent ocular prosthesis with a similar concavity.

The advantage of this implant compared to that used earlier is the great simplicity in the manufacture of the implant and the congruent posterior wall of the ocular prosthesis.

Claims (1)

An implant for increasing the mobility of an ocular prosthesis during evisceration and enucleation with endoprosthetics, comprising a body, characterized in that the body is made in the form of a hemisphere with an expanded base in the form of an annular flange and made of a biocompatible material, for example, hydrogel.