RU2826916C1 - Apparatus for treating intra-articular bone fractures forming knee joint - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: apparatus for treating intra-articular fractures of the bones forming a knee joint includes upper and lower base supports, a middle annular support, threaded rods for connection of upper and lower base supports with middle annular support and reduction unit. Upper and lower base supports are annular. Upper base and middle annular supports can be fixed with the help of a pin and an intraosseous rod. Lower base support can be fixed with help of 2 cross pins. Repositioning assembly is made of intraosseous threaded rods for fragment with nuts, cylindrical bosses for intraosseous threaded rods for fragment, support plate, made with longitudinal, axial, through slot for installation of said cylindrical bosses, and at the ends—with longitudinal threaded axes with nuts. Cylindrical bosses for the intraosseous threaded rods for the fragment are made at the ends with threaded axial holes for their attachment to the support plate with screws, in the middle part—with two parallel flat recesses formed by vertical cuts along the outer surface, and in the center—with a through hole for installation of intraosseous threaded rods for fragment with nuts. Repositioning assembly has the possibility of being fixed on the middle annular support by means of threaded bars, each of which has on one end a bracket with a hole for a longitudinal threaded axis of the longitudinal plate, and the other end has the possibility of being fixed on the middle annular support.

EFFECT: invention enables reposition of the intra-articular fracture in the area of the knee joint with reduced injuries of the intervention with improved treatment results.

1 cl, 3 dwg

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used in the treatment of fractures in the knee joint.

There are known methods for treating fractures in the knee joint area, as well as devices for their implementation, which provide for fracture reposition, insertion of spokes with thrust pads through the fragments, while the free ends of the spokes are fixed in the distraction nodes of external fixation devices, with the possibility of implementing compression along the fracture plane [1, 2]. However, these methods and devices are not always, and not fully, able to ensure accurate reposition with restoration of congruence of the articular surfaces, and stable fixation during the healing period. If open reposition is necessary, in cases of multi-fragmentary and impression-compression fractures of the condyles, the latter is usually carried out from extensive surgical approaches, while blood circulation in the fragments of the limb segment suffers, which is always associated with an additional violation of osteogenesis.

The closest to the claimed method, in its technical solution, is the method for treating fractures in the knee joint area [3], which provides for the application of a compression-distraction apparatus, reposition and fixation of the fracture. The apparatus, consisting of one ring and two semi-ring supports, is mounted on rods, while the semi-ring supports are fixed on rods installed on the lower third of the femur and in the middle third of the tibia. The middle ring support is placed below the fracture level. Threaded rods are inserted into each of the displaced fragments of the condyles, fixed in movable repositioning units installed on the ring support, while the repositioning unit contains a hinge.

However, this device design has limited repositioning and stabilization capabilities and can be used only in the treatment of fractures with minor displacements of fragments, when it is necessary to perform fragment cratering along the fracture plane and restore compression. In case of significant displacements, in case of comminuted and impression-compression fractures, the elimination of the defect of the tibia condyle, as well as the restoration of the congruence of the articular surfaces, is extremely difficult using this method. This is explained by the use of semi-ring supports and a rod fixation system, the rigidity (stability) of which is much less than that of standard ring supports, using a pin-rod osteofixation system [4]. Semi-ring supports for intra-articular fractures, which have much lower mechanical strength characteristics than a ring support, are used to increase limb flexion at the knee joint. Flexion movements in the knee joint, during the period of bone fragment fusion, during stabilization of the apparatus, are not allowed, as they can lead to a slow fusion of the fracture, and even to the formation of a false joint. In addition, the use of intraosseous rods to reposition the fragment, and then the introduction of pins with thrust pads in the same area (through the bone metaphysis), is an additional trauma to bone tissue.

The essence of the invention lies in a set of essential features sufficient to achieve the desired technical result, consisting in the possibility of repositioning an intra-articular fracture in the knee joint area with a reduction in the trauma of the intervention, while improving the treatment results.

The essence of the invention lies in the fact that the apparatus for treating intra-articular fractures of bones forming the knee joint includes upper and lower base supports, a middle ring support, threaded rods for connecting the upper and lower base supports with the middle ring support, and a repositioning unit. The upper and lower base supports are made ring-shaped, the upper base and middle ring supports have the ability to be fixed using a spoke and an intraosseous rod, and the lower base support has the ability to be fixed using 2 crossed spokes. The repositioning unit is made of intraosseous threaded rods for a fragment with nuts, cylindrical bosses for intraosseous threaded rods for a fragment, a support plate made with a longitudinal, axial, through slot for installing the said cylindrical bosses, and at the ends - with longitudinal threaded axes with nuts. Cylindrical bosses for intraosseous threaded rods for a fragment are made at the ends with threaded axial holes for their fastening to the support plate with screws, in the middle part - with two parallel, flat recesses formed by vertical cuts along the outer surface, and in the center - with a through hole for installing intraosseous threaded rods for a fragment with nuts. The repositioning unit has the ability to be fastened to the middle ring support using threaded rods, each of which has a bracket with a hole for the longitudinal threaded axis of the longitudinal plate at one end, and the other end has the ability to be fastened to the middle ring support.

The use of ring-shaped supports provides the apparatus with the necessary strength, will prevent deformation of these supports when the spokes are tensioned, and when using intraosseous rods as osteofixators, will prevent their deflection during distraction.

The use of a middle ring support is the best option for fixing repositioning osteofixators (pins or intraosseous rods) on it, which is especially justified for intra- and periarticular fractures of the area forming the knee joint. Since the shape of the distal fragment is extremely diverse, and the direction of its displacement can be very different, then for its reposition and fusion, the intraosseous rod must be inserted through its center, at an angle of 90° to the base. Such insertion allows for the creation of counter-lateral compression and the creation of optimal conditions for fracture fusion, since such a direction of insertion of the osteofixator is the most biomechanically justified.

The use of a corresponding spoke and intraosseous rod for fixation of supports is explained by the fact that the combination of “spoke-rod” osteofixators, according to biomechanical studies, has the greatest controllability and strength of fixation of bone fragments, in contrast to purely spoke or rod fixation.

The use of 2 crossed pins to fix the lower base ring support ensures stable fixation of the support without shifting the bone centering in the support during distraction required for fragment repositioning.

The connection of the base supports with the central ring support using threaded rods creates a single, integral structure.

The installation of a repositioning unit on the middle ring support ensures the introduction of an intraosseous rod that fixes the fragment perpendicular to the fracture line and the creation of optimal counter-lateral compression of the fragments.

The presence of longitudinal threaded axes at the ends of the support plate makes it possible to move the plate to eliminate the displacement of the fragment in the anteroposterior direction, as well as to eliminate the rotational displacement of the fragment when it is necessary to eliminate the “throwback” of the medial or lateral part of the fragment.

The presence of a through slot on the support plate allows for the installation of cylindrical bosses on it with the ability to move, which is necessary to eliminate errors in the placement of intraosseous threaded rods, as well as to facilitate manipulation when fixing them to the bosses.

Threaded axial holes at the ends of the bosses provide the ability to fasten them with a screw to the support plate from any side.

The presence of two parallel, flat recesses in the middle part of the boss, formed by vertical cuts along the outer surface, equipped in the center with a through hole for installing intraosseous rods, ensures the installation of intraosseous threaded rods and the possibility of their fastening with nuts.

Fastening the repositioning unit to the middle ring support using threaded rods and brackets with a hole allows eliminating the displacement along the length of the distal fragment, relative to the central one, by moving along the threaded rods. Loosening the nuts that fix the brackets with a hole allows eliminating the rotational displacement of the fragment when it is necessary to eliminate the "throwback" of the medial or lateral part of the fragment.

The design of the device is explained by the illustrations provided, where:

Fig. 1 shows a layout for repositioning a bone fragment;

in Fig. 2 - repositioning unit;

Fig. 3 - a boss with a bone rod installed in it.

The device consists of two basic supports: the upper 1 and the lower 2, between which the middle ring support 3 is placed. The basic support 1 and the middle ring support 3 are installed on the spoke 4 and the intraosseous rod 5, respectively. The ring support 2 is mounted on 2 osteofixators in the form of spokes 4. Supports 1 and 2 are connected to the middle ring support 3 by threaded rods 6. A repositioning unit 7 is mounted on the middle ring support 3, consisting of a support plate 8 with longitudinal threaded axes 9 at the ends, and a longitudinal, through, axial slot 10 for installing cylindrical bosses 11. Threaded axial holes 12 and 13 are made along the ends of the cylindrical bosses for fastening the boss 11 to the support plate 8 with screws 14. In the middle part of the cylindrical bosses 11, two parallel, flat, recesses 15 are made, formed by vertical cuts along the outer surface, equipped in the center with a through hole 16, for installing intraosseous threaded rods 17. The repositioning unit 7 is attached to the support 3 using threaded rods 18 and brackets with holes 19, nuts 20.

The device is used as follows.

Before the operation, preoperative planning is carried out, which consists of radiography on a digital X-ray machine and the selection of points for the introduction of intraosseous threaded rods.

The intermediate middle ring support is mounted on a spoke and an intraosseous threaded rod. The base 1 and 2 and the middle ring 3 supports are connected using threaded rods 6. Distraction is provided. Its value is determined by the radiograph, it is equal to the value of the height of the distal fragment displacement. Repeated radiography is performed in two projections in order to identify the values and direction of all possible types of displacement of the distal fragment. Intraosseous threaded rods 17 with nuts installed on them are inserted into the fragments and fixed in through holes 16, in flat recesses 15 made in the middle part of the boss 11, formed by vertical, parallel cuts along the outer surface. The bosses 11, with the intraosseous threaded rods 17 fixed to them, are installed and secured in the slots 10 of the support plate 8, the repositioning unit 7, with the screw 14 loosened, and the nuts of the threaded rods 18 installed on the middle ring support 3. The nuts of the threaded rods 18, the nuts 20, and the screws 14 are tightened. The intraosseous threaded rods 17 are inserted at an angle close to 90° relative to the direction of the fracture line of the fragment, taking into account both planes of displacement.

The repositioning unit 7 has the ability to move forward and backward along the longitudinal threaded axes 9 of the repositioning unit 7, which allows eliminating the displacement of the fragment along the length. Counter-lateral compression is created by moving the nuts along the intraosseous rods 17, installed on the bosses 11.

The displacement of the fragment upward or downward is achieved by moving the repositioning unit 7 along the threaded rods 18.

The displacement of the fragment forward or backward is achieved by moving the nuts 20 along the threaded axes 9.

The tipping over of the fragment is eliminated by turning the support plate 8 relative to the threaded axes 9 simultaneously, manually, followed by securing them with nuts 20.

Sources of information:

1. A.S. USSR No. 982662, A61B 17/56, 23.12.1982;

2. Patent of the Russian Federation No. 2023429, A61B 17/56, 11/30/1994;

3. Patent of the Russian Federation No. 2402296 A61B 17/56, Bulletin No. 30, 2010;

4. Mykalo DA., Combined transosseous osteosynthesis in diaphyseal fractures of the leg bones and their consequences. Abstract of a dissertation for the degree of candidate of medical sciences. St. Petersburg, 2007.

Claims (1)

An apparatus for treating intra-articular fractures of bones that form the knee joint, comprising upper and lower base supports, a middle ring support, threaded rods for connecting the upper and lower base supports to the middle ring support, and a repositioning unit, characterized in that the upper and lower base supports are made annular, the upper base and middle ring supports have the ability to be fixed using a spoke and an intraosseous rod, and the lower base support has the ability to be fixed using 2 crossed spokes, the repositioning unit is made of intraosseous threaded rods for a fragment with nuts, cylindrical bosses for intraosseous threaded rods for a fragment, a support plate made with a longitudinal, axial, through slot for installing the said cylindrical bosses, and at the ends - with longitudinal threaded axes with nuts, the cylindrical bosses for intraosseous threaded rods for a fragment are made according to ends with threaded axial holes for their fastening to the support plate with screws, in the middle part - with two parallel flat recesses formed by vertical cuts along the outer surface, and in the center - with a through hole for installing intraosseous threaded rods for a fragment with nuts, the repositioning unit has the ability to be fastened to the middle ring support using threaded rods, each of which has a bracket with a hole for the longitudinal threaded axis of the longitudinal plate at one end, and the other end has the ability to be fastened to the middle ring support.

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