RU2653272C1 - Polymeric endoprosthesis to replace defects and eliminate deformities of the eyelids - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Polymeric endoprosthesis for replacement of defects and elimination of deformations of the eyelids is made in the form of a plate with perforations. Elastic monolithic single-layer perforated plate with through round, or oval, or polygonal apertures is made of a hydrophobic biocompatible spatially cross-linked polymer based on oligomers of methacrylic series by the method of frontal photopolymerization, with thickness from 200 to 400 microns, width from 8 to 10 mm, length from 17 to 45 mm. Size of the holes is from 0.2 to 0.4 mm, and their number is from 350 to 700. Endoprosthesis has one or two triangular notches oriented along the longitudinal axis of the plate and directed by the vertices toward the center. Around hole with a diameter of 2 to 4 mm is made around the top of the cutout.

EFFECT: invention provides anatomical and functional consistency of the century with a close fit to the eyeball, which allows you to restore the protective function of the eyelid and get the optimal aesthetic result.

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Description

The invention relates to medicine, namely to ophthalmology, maxillofacial and plastic surgery, and can be used to restore and / or strengthen the frame and shape-forming function of the eyelids during the surgical removal of defects and deformations of the eyelids.

The closest analogue is a polymer implant (endoprosthesis), which is a silicone tape (plate) with a width of about 3 mm, in which there are 5-7 holes (perforations) with a diameter of up to 1.5 mm, designed to strengthen the eyelid in an atonic eversion. (“Ophthalmic surgery using polymers.” Edited by VV Volkov. - Ed. 2, revised and supplemented. - St. Petersburg: Hippocrates, 2009. Pages 155-156.)

The disadvantages of this implant (endoprosthesis) is:

1. High risk of protrusion due to the fact that this implant is designed to suspend the eyelid and when pulled, it gradually cuts over the edge of the eyelid.

2. Does not provide a durable complex "own connective tissue of the eyelid-implant."

3. Does not provide normal century configuration.

4. Does not provide strengthening of the tarsal plate of the eyelid and, thus, does not perform a frame function.

The objective of the invention is the creation of a polymer endoprosthesis to replace defects and eliminate deformations of the eyelids, providing a frame and shape-forming function for the eyelid, having a design that provides a round shape, a congruent surface of the eyeball when it is implanted.

The technical result is to ensure the anatomical and functional consistency of the eyelid with a snug fit to the eyeball, which allows to ensure or restore the protective function of the eyelid and get the optimal aesthetic result.

The technical result is achieved in that in a polymer endoprosthesis for replacing defects and eliminating deformities of the eyelids, made in the form of a plate with perforations, according to the invention, the elastic monolithic single-layer perforated plate with through round or oval or polygonal holes (perforations) is made of a hydrophobic biocompatible spatially cross-linked polymer based on methacrylic series oligomers and is produced by frontal photopolymerization, with a thickness of 200 to 400 microns, a width of 8 up to 10 mm, length from 17 to 45 mm, while the size of the holes is from 0.2 to 0.4 mm, and their number is from 350 to 700; the endoprosthesis has one or two triangular cuts oriented along the longitudinal axis of the plate and directed vertices to the center, and a round hole with a diameter of 2 to 4 mm is made around the top of the cut.

The polymer endoprosthesis can be made in the form of a rectangular plate with rounded corners and two triangular cuts located diametrically opposite to each other, while the width of the base of each cut is from 1/3 to 1/2 the width of the plate, and its length is 1/3 of the length plates (Fig. 1).

The polymer endoprosthesis can be made in the form of a rectangular plate with rounded corners and one triangular cut, the width of the base of the cut being from 1/3 to 1/2 the width of the plate, and its length is 1/2 the length of the plate (Fig. 2).

A polymer endoprosthesis may be performed as shown in FIG. 3, with two triangular cuts located diametrically opposite to each other, while the width of the base of each cut is from 1/3 to 1/2 of the width of the plate, and its length is 1/3 of the length of the plate.

All variants of endoprostheses are used to replace defects of the tarsal plate and / or its strengthening and to provide frame and shape-forming properties of the upper and / or lower eyelid.

During the implantation of all variants of endoprostheses, the edges of the triangular / triangular cuts come closer to each other depending on the curvature of the eyeball and eyelid or butt, or lap, or with a gap due to the properties of the surface of the endoprosthesis and its design features, which ensures an adjustable congruent endoprosthesis curvature during implantation surface of the eyeball, necessary for optimal fit of the eyelid to the eyeball.

The advantages of all options for an endoprosthesis are:

1. The minimum risk of protrusion, due to the fact that this implant is not intended for reinforcement (strengthening), and not for hanging the eyelid.

2. The design of the endoprosthesis ensures the ingrowth of fibro-vascular tissue into its numerous holes with the formation of a durable complex of “own connective tissue structures of the eyelid-endoprosthesis” (Fig. 4: experimental data on laboratory animals, the germination of fibrovascular tissue with the formation of trabeculae through the numerous openings of the endoprosthesis) .

3. The design of the endoprosthesis during its implantation provides a normal rounded configuration of the eyelid and, thus, performs a shaping function for the eyelid and its tight fit to the eyeball.

4. The design of the endoprosthesis ensures the ingrowth of fibrovascular tissue into its numerous openings, which allows replacing and / or strengthening the tarsal plate and, thus, restoring the skeleton function of the eyelid with its various defects and deformations, including the reconstruction of a completely lost eyelid. The invention is illustrated by clinical examples.

Clinical example 1. Patient M., 24 years old. Diagnosis: Consequences of a thermochemical burn of the eye and pericorbital region with complete contamination of the conjunctival cavity, vascularized inoperable cornea of the left eye.

During reconstructive treatment, the upper and lower eyelids were formed, and the endoprosthesis depicted in FIG. 1, with round holes for each eyelid. At the same time, during the implantation process, the edges of the triangular cuts came close to each other and the endoprosthesis acquired a rounded shape congruent to the surface of the eyeball, which is necessary for optimal fit of the eyelid to the eyeball.

There were no complications in the postoperative period. The upper and lower eyelids had a rounded shape, adhered well to the surface of the eyeball and securely held the ocular cosmetic prosthesis in the conjunctival cavity. This ensured the socio-psychological and aesthetic rehabilitation of the patient.

Clinical example 2. Patient S., 44 years old. Diagnosis: Consequences of a chemical burn of the eye and periorbital region: vascularized corneal sore throat, symblepharon, cicatricial deformity, shortening of the lower eyelid, lagophthalmos, xerosis of the ocular surface of the right eye.

During reconstructive treatment, symblepharon was dissected, cicatricial deformity of the lower eyelid was eliminated, and the endoprosthesis with oval holes was used to replace the defect of the tarsal plate and ensure skeleton function in the region of the medial 1/3 of the lower eyelid, as shown in FIG. 2. At the same time, during the implantation process, the edges of the triangular notch overlapped each other and the endoprosthesis acquired a rounded shape congruent to the surface of the eyeball, which is necessary for optimal fit of the eyelid to the eyeball.

There were no complications in the postoperative period. The lower eyelid had a rounded shape and adhered well to the surface of the eyeball, which ensured complete closure of the eyelids and was accompanied by relief of xerosis.

The restoration of the anatomical and functional viability of the eyelids subsequently allowed the patient to undergo keratoplasty for optical purposes.

Clinical example 3. Patient B., 64 years old. Diagnosis: Basal cell carcinoma of the costal margin of the lower eyelid of the left eye.

After removal of the tumor with the capture of healthy tissues of 5 mm, an extensive through defect in the form of subtotal ablepharia formed on each side. In the process of reconstructive treatment, all layers of the lost lower eyelid were restored, while the endoprosthesis depicted in FIG. 1 was used to replace the extensive defect of the tarsal plate and ensure the shaping and frame function of the reconstructed lower eyelid. 3, with polygonal holes. At the same time, during the implantation process, when the edges of the triangular notches came closer, a gap of 1 mm remained, while the endoprosthesis acquired a rounded shape congruent to the surface of the eyeball, which is necessary for optimal fit of the eyelid to the eyeball.

There were no complications in the postoperative period. The lower eyelid had a rounded shape and tightly adhered to the surface of the eyeball, which ensured complete closure of the eyelids, restoration of their anatomical and functional viability and avoided complications from the organ of vision.

Claims (4)

1. A polymer endoprosthesis to replace defects and eliminate deformities of the eyelids, made in the form of a plate with perforations, characterized in that the elastic monolithic single-layer perforated plate with through round, or oval, or polygonal holes is made of a hydrophobic biocompatible spatially cross-linked polymer based on methacrylic oligomers row method of front photopolymerization, a thickness of 200 to 400 microns, a width of 8 to 10 mm, a length of 17 to 45 mm, while the size of the holes is from 0.2 to 0.4 mm , and their number is from 350 to 700; the endoprosthesis has one or two triangular cuts oriented along the longitudinal axis of the plate and directed vertices to the center, and a round hole with a diameter of 2 to 4 mm is made around the top of the cut. 2. The polymer endoprosthesis according to claim 1, characterized in that the plate has a rectangular shape with rounded corners and two triangular cuts located diametrically opposite to each other, while the width of the base of the cut is from 1/3 to 1/2 of the width of the plate, and length is 1/3 of the length of the plate. 3. The polymer endoprosthesis according to claim 1, characterized in that the plate has a rectangular shape with rounded corners and one triangular cut, while the width of the base of the cut is from 1/3 to 1/2 of the width of the plate, and its length is 1/2 of the length plates. 4. The polymer endoprosthesis according to claim 1, characterized in that the plate has a shape as shown in FIG. 3, with two triangular cutouts located diametrically opposite to each other, while the width of the base of the cutout is from 1/3 to 1/2 of the width of the plate, and its length is 1/3 of the length of the plate.

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