RU2752458C2 - Implant for prosthetics of the cheekbone-orbital complex - Google Patents

Abstract

FIELD: medicine; facial surgery.SUBSTANCE: invention relates to medicine, in particular to facial surgery; it can be used in prosthetics of the cheekbone-orbital complex using an implant made by the method of layer-by-layer selective laser melting. The implant for prosthetics of the cheekbone-orbital complex is made in the form of a curved plate having the shape of an irregular quadrilateral with frontal and temporal processes, a convex outer surface and an inner concave surface, between which a porous structure is made. The plate is equipped with a strip forming the orbital surface. The implant is made of titanium and solid titanium along the perimeter. The porous structure is made three-dimensional with cells representing a tetrahedron, dodecahedron or octahedron, formed by a set of supporting ribs and struts. In this case, at the ends of the frontal and temporal processes, as well as in the upper jaw, the plate is additionally equipped with means of attachment to the facial bones. The strip forming the orbital surface is made in the form of an additional process; it is equipped with many through holes.EFFECT: use of the implant provides an individual combination with the prosthetic facial area and the required mechanical characteristics: the ultimate strength of the solid titanium area is not less than 450 MPa in tension, the elasticity of the beam structure is 10-30 GPa with a tensile strength of not less than 7 MPa in compression.4 cl, 2 dwg

Description

The invention relates to medicine, in particular, to maxillofacial surgery and can be used for reconstruction (restoration) of the zygomatic-orbital complex using an implant made by layer-by-layer selective laser melting.

Known zygomatic implant adjacent to the eye socket, which is a four-pointed three-dimensional asymmetric object having an outer convex surface and an inner concave surface, which merge, form four edges, while in the area of the zygomatic arch, the implant is equipped with a process overlapping part of the zygomatic arch (US 4790849, A61F 2/00, A61F 2/10, published 12/13/1988).

The disadvantage of the known zygomatic implant is its predominant use in cosmetic surgery to achieve aesthetic goals that do not require high mechanical characteristics of the implant to connect the elements of the skull. In this regard, the known zygomatic implant is made from silicone, silicone rubber, hard plastic, etc.

Known mesh implant used in the treatment of the zygomatic-orbital complex, which is made of a perforated polymer in the form of an isosceles trapezoid with rounded corners and parallel arcuate bases. The implant is equipped with tapered holes for its fixation along the anterior edge of the orbit (RU 2476161, А61В 17/00, A61F 2/28, published on February 27, 2013).

The disadvantage of the known implant is its low mechanical characteristics.

Known implant for prosthetics of the bones of the skull, in particular, the zygomatic-orbital complex, made in the form of a curved mesh perforated plate made of titanium or its alloy, repeating the geometry of the skull bones to be prosthetic, and the mesh plate is made composite and provided with through holes for the passage of fastening screws. The method of manufacturing a known implant includes computed tomography of a part of the skull with a defect, obtaining a digital three-dimensional model of a part of the skull with a defect from a tomogram, designing a model with an implant surface and its file, making a plastic model with an implant surface and a plastic model of a part of the skull on a 3D printer, making a mesh perforated implant by bending it along the surface of the assembly from the plastic model, welding of additional elements when forming bends (RU 2638894, A61F 2/28, A61B 17/80, published on 20.10.2016).

The disadvantage of the known implant is the laboriousness of its manufacture, as well as the complexity of ensuring the required rigidity of the implant structure and the stability of its mechanical characteristics when exposed to external loads.

The closest in technical essence is the zygomatic implant (selected as a prototype) in the form of a bent silicone plate having the shape of an irregular quadrangle, while the plate is equipped with frontal and temporal processes, a convex outer surface and an inner concave surface, between which a porous structure is made in the form holes, and the upper edge of the plate is provided with a fastening strip, made approximately perpendicular to its inner surface and forming the orbital surface (FR 2447182, A61F 2/00, A61F 1/00, published 08.22.1980).

The disadvantage of the prototype is its predominant use in cosmetic surgery to achieve aesthetic goals that do not require high mechanical characteristics of the implant to connect the elements of the skull. In this regard, the known implant is made of silicone.

The technical problem to be solved by the invention is the creation of a typical implant design for prosthetics of the zygomatic-orbital complex with the required high mechanical characteristics, providing individual alignment with the prosthetic area.

The technical result of the invention is the creation of a typical implant design for prosthetics of the zygomatic-orbital complex, which provides individual alignment with the prosthetic facial area and high mechanical characteristics of the implant: the tensile strength of the solid titanium area is not less than 450 MPa in tension, the elasticity of the beam structure (load-bearing element) 10- 30 GPa with a compressive strength of at least 7 MPa.

The technical result is achieved in that the implant for prosthetics of the zygomatic-orbital complex is made in the form of a curved plate having the shape of an irregular quadrangle with the frontal and temporal processes, a convex outer surface and an inner concave surface, between which a porous structure is made, and also provided with a strip that forms an orbital the surface, while the implant is made of titanium and around the perimeter is made of solid titanium, and the porous structure is made three-dimensional with cells that are tetrahedron, dodecahedron or octahedron formed by many supporting ribs and spacers, while at the ends of the frontal and temporal processes, as well as in the area of the upper jaw, the plate is additionally equipped with means of attachment to the facial bones, and the strip forming the orbital surface is made in the form of an additional process and is equipped with a plurality of through holes.

The technical result is also achieved in that the fastening means are made in the form of narrow plates with through holes for the passage of fastening screws; the three-dimensional porous structure is made with a cell size of up to 4 mm and a diameter of the bearing ribs of 700-900 microns; the width of solid titanium around the perimeter of the implant is 2-5 mm.

The invention can be illustrated by example using FIG. 1 and FIG. 2, where:

1 - implant plate;

2 - frontal process;

3 - temporal process;

4 - perimeter of a solid titanium plate;

5 - beam cellular structure;

6 - fastening means;

7 - orbital surface in the form of a strip with through holes;

8 - attachment means in the area of the upper jaw.

The implant according to the invention (Fig. 1, 2) is made using a 3D printer by the method of selective laser melting by layer-by-layer laser synthesis. As a powder for obtaining spatial porous structures, an undoped titanium powder with a particle size of 20-120 nm is used.

The implant according to the invention includes the following elements.

Curved plate 1, having the shape of an irregular quadrangle, made of solid titanium along the perimeter 4, which in the middle part has a convex outer surface and an inner concave surface, which are connected by a three-dimensional beam structure 5. The plate elements made of titanium provide the required mechanical characteristics of the implant: elasticity beam structure (load-bearing elements) 10-30 GPa with a compressive strength of at least 7 MPa. In this case, the width of solid titanium along the perimeter of the implant is 2-5 mm, and the three-dimensional beam structure is made with cell sizes up to 4 mm and the diameter of the bearing ribs 700-900 microns. The shape of the cells, formed by the supporting ribs and spacers, is a tetrahedron, dodecahedron, or octahedron.

The implant plate 1 is equipped with the frontal 2 and temporal 3 processes, at the ends of which there are means for fastening the implant 6 to the skull, which are made in the form of narrow plates with through holes for the passage of fastening screws.

To align the implant with the orbit and form the orbital surface, the plate 1 is equipped with an additional process 7 in the form of a strip with through holes.

The finished implant, after its manufacture by the method of selective laser melting, is subjected to mechanical processing to remove cutting parts and heat treated.

The resulting implant according to the invention ensures the achievement of the set technical result: ensuring individual alignment with the prosthetic facial area and the required mechanical characteristics.

Claims (4)

1. An implant for prosthetics of the zygomatic-orbital complex, made in the form of a curved plate having the shape of an irregular quadrangle with the frontal and temporal processes, a convex outer surface and an inner concave surface, between which a porous structure is made, and also provided with a strip that forms the orbital surface, which is different the fact that the implant is made of titanium, and the perimeter is made of solid titanium, and the porous structure is made three-dimensional with cells that are a tetrahedron, dodecahedron or octahedron formed by supporting ribs and spacers, while at the ends of the frontal and temporal processes, as well as in in the upper jaw area, the plate is additionally equipped with means of attachment to the facial bones, and the strip forming the orbital surface is made in the form of an additional process and is provided with through holes. 2. An implant according to claim 1, characterized in that the fastening means are made in the form of plates with through holes for the passage of fastening screws. 3. An implant according to claim 1, characterized in that the three-dimensional beam structure is made with a mesh size of up to 4 mm and a diameter of the supporting ribs of 700-900 microns. 4. The implant according to claim 1, characterized in that the width of the solid titanium along the perimeter of the implant is 2-5 mm.

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