RU187373U1 - Device for bone osteosynthesis in maxillofacial surgery - Google Patents

Abstract

The utility model relates to medicine, namely to maxillofacial surgery, and can be used for osteosynthesis of the bones of the facial skeleton. A device for bone osteosynthesis in maxillofacial surgery allows you to vary the resulting thickness of the bone plate depending on the expected load on the jawbone. The essence of the utility model is that the device for bone osteosynthesis consists of several identical plates made of nanostructured titanium Grade-4, thickness 0 , 2 mm, which are packaged in an amount determined by the expected load on the jawbone at the fracture site, and are fixed by screwing inside ostnyh screws. Moreover, each of the plates at the holes is equipped with a conical recess (countersink) at an angle of 45 ° to the thickness of the plate at the top, and a bottom with a sharp circular protrusion at an angle of 45 ° to the thickness of the plate.

Description

The utility model relates to medicine, namely to maxillofacial surgery and can be used for osteosynthesis of the bones of the facial skeleton. A device for bone osteosynthesis in maxillofacial surgery allows you to vary the resulting thickness of the bone plate depending on the expected load on the jawbone.

For bone osteosynthesis, various types of plates are used as fixing elements (M.E. Muller, M. Allgover, R. Schneider, X. Willinger. Guide to internal osteosynthesis. - M .: Ad Marginem, 1996, p. 77.), the use of which follows the basic principles of internal fixation: anatomical reposition, stable fixation, preservation of blood supply and early functional mobilization. In case of fractures of the lower jaw, the main type of surgical treatment is osteosynthesis of the jaw using titanium mini-plates and mini-screws; a large number of designs have been developed at the moment, depending on the clinical case. The main direction in the development of surgical technologies is to reduce the size of surgical products while maintaining their basic mechanical properties.

Known osseous mini-plate for osteosynthesis of fractures of the condylar process of the lower jaw (RU 74558 U1, IPC АВВ 17/68, application filing date 03/17/2008). The design is made in the form of a plate with holes for intraosseous screws, while the plate is made up of a osseous part and a cylindrical intraosseous element rigidly attached to one of its sides at right angles. The use of a osseous plate with an intraosseous element increases the stability of fixation of fragments in two mutually perpendicular planes (frontal and sagittal), prevents their secondary displacement in the sagittal plane and around its axis, and the presence of holes for intraosseous screws allows to reliably fix fragments. This fixation of fragments allows you to evenly distribute the load on all fixing screws and prevent bone resorption around the screws, which eliminates micromotion and secondary displacement of fragments, makes it possible to effectively use the plate for the entire duration of the treatment. A new technical result achieved with the use of an osseous mini-plate is to increase the stability of fixation in two mutually perpendicular planes (frontal and sagittal) and to eliminate the secondary displacement of fragments of the condylar processes of the lower jaw through the use of an intraosseous element rigidly connected to the osseous part of the plate.

The utility model “Self-locking plate bracket” is known (RU 118544 U1, IPC A61B 17/68, filing date September 22, 2011), which solves the problem of creating fixing plate legs located in at least two planes, creating the shape of the osseous backrest adapted to complex relief bones of the middle zone of the facial skeleton and the comminuted nature of the lesions, providing the possibility of additional fixation of intermediate bone fragments with screws. To do this, in a bracket made of titanium nickelide with a shape memory effect containing a bone body with counter-curved legs for intraosseous fixation, the bone body is made in the form of an elongated X-shaped plate with bone branches ending in legs with an internal bend angle of not more than 70 °. Bone body with branches has perforations for screws. Bone branches can have different lengths. Branches may have an angle of deviation from the plane of the plate. The self-locking plate clamp is made of a 1.0 mm thick plate.

The objective of the utility model (RU 175248 U1, IPC A61B 17/80, application filing date 06/06/2017) was to create a mini-plate with a macro-relief on its surface, which increases the stability of fragments of the lower jaw, enhances the integration properties of the product, reduces the formation time of a strong bond with bone tissue.

The problem is solved in that on a mini-plate of nanostructured titanium, which is made by equal channel angular pressing (ECAP-comfor), a relief surface is created in the form of square grooves with a depth of 0.1 mm and a distance of 0.1 mm between them, oriented parallel the length and width of the plate over the entire area in contact with the surface of the bone tissue.

The proposed model allows to obtain the following technical effect. The structure of the plate allows you to enhance the mechanical stability during the fixation of fragments of the lower jaw due to the contact of the relief surface with the bone and the formation of a larger contact area of the product surface and the cortical bone plate, which will strengthen the osseointegration properties of the material.

The essence of the utility model. A mini-plate for open focal osteosynthesis of the lower jaw, having a rectangular shape with rounded contours 46.4 mm long, 0.6 mm thick, there are 6 holes with a diameter of 1.7 mm at an equal distance from each other, the width of the plate in the area of the holes is 4.4 mm, between the holes - 3.0 mm. The mini-plate is made of nanostructured titanium grade Grade-4. On the back (bone-contacting) surface of the plate there is a relief in the form of square recesses measuring 0.1 by 0.1 mm, a depth of 0.1 mm and distances between adjacent recesses of 0.1 mm, oriented parallel to the length and width of the plate. This relief makes it possible to enhance the spatial stability of the mini-plate not only by fixing it with mini-screws, but also by leveling the sliding effect relative to the cortical plate.

The relief surface enhances the ability of osseointegration with bone tissue of Grade-4 nanostructured titanium with surface treatment using the method of ECAP-conform (Pat. 2383654 Valiev R.Z., Semenova I.P., Yakushina EB, Salimgareeva G.Kh. , 2008).

The main disadvantage of the above utility models is that the geometric dimensions, including thickness, of the proposed plates for bone osteosynthesis are rigidly fixed. It does not take into account that the structure of the maxillofacial bone can have individual characteristics at the fracture site, and the plates themselves remain fixed on the bone for a long time, and sometimes forever. Plate loads, depending on the fracture site, can vary from 0 to 750 n and higher. Therefore, the plate, with a fixed thickness, will have either excess, or, even worse, insufficient strength. In addition, an unreasonably thick plate fixed to the maxillofacial bone can create physical and aesthetic inconvenience.

An object of the present invention to the patent utility is the ability to vary the resulting thickness of the osseous plate depending on the expected load on the jawbone.

This is achieved by the fact that the device for bone osteosynthesis consists of a set of identical plates, 0.2 mm thick, made of Grade-4 nanostructured titanium. The number of plates in the kit is determined by the estimated load on the jawbone at the fracture site. At the same time, each of the plates at the hole is equipped with a conical recess at an angle of 45 ° to the thickness of the plate, and at the bottom it is equipped with a sharp round protrusion at an angle of 45 ° to the thickness of the plate.

In FIG. 1 shows the main view of the plates (top view); in FIG. 2 - view of the plates in section AA, where: 1 and 2, respectively, the upper and lower plates of the kit, 3 - a conical recess at an angle of 45 ° to the thickness of the plate, 4 - a sharp circular protrusion at an angle of 45 ° to the thickness of the plate, 5 - bone , 6 - a guide hole in the bone for screwing the intraosseous screw.

Identical plates 1, 2 are packaged in an amount determined by the expected load on the jawbone at the fracture site, with each of the plates at the holes provided with a tapered recess 3 at an angle of 45 ° to the thickness of the plate, and at the bottom equipped with a sharp round protrusion 4 at an angle of 45 ° the thickness of the plate, moreover, the sharp circular protrusion of the lower plate fixes its position relative to the guide hole 6 in the bone 5 for screwing the intraosseous screw by entering the sharp circular protrusion 4 into the conical deepening the bottom plate 3.

The number of plates in the set is set based on the individual structural features of the jaw and the fracture site, using a simple calculation. The width of the base plate for maxillofacial surgery is 3 mm. Therefore, the cross section of a 0.2 mm thick wafer of nanostructured titanium will be 0.6 mm2. Taking into account that the yield strength of nanostructured titanium is 1190 MPa (Table 1, see LP. Semenova, GV Klevtsov, NA Klevtsova, GS Dyakonov, AA Matchin, RZ Valiev. Nanostructured Titanium for Maxillofacial Mini-implants // Advanced Engineering Materials, 2016, Vol. 18, Issue 7, p.1216-1224), it can be calculated that one plate can withstand a load of 714 N without changing the shape and size.

Claims (1)

Device for bone osteosynthesis in maxillofacial surgery, made in the form of a plate made of nanostructured titanium Grade-4, with holes for intraosseous screws, characterized in that it consists of identical plates with a thickness of 0.2 mm, which are packaged in an amount determined by the intended load on the jawbone at the fracture site, each of the plates at the holes provided with a conical recess at an angle of 45 ° to the thickness of the plate from the top, and a bottom with a sharp circular protrusion at an angle of 45 ° to a thickness of ASTINA, wherein the sharp circular projection of the bottom plate fixes its position relative to the guide bore for screwing in the bone screw by intraosseous occurrence of acute circular protrusion into a conical recess of the bottom plate.

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