RU182169U1 - Device for shortening osteotomy of long tubular bones - Google Patents

Abstract

The utility model relates to the field of medicine, namely to medical instruments used in traumatology and orthopedics. The device consists of two T-shaped bodies parallel to one another, asymmetrically reflected from top to bottom, parallel to one another - an internal one, installed inside the bone marrow canal of the bone, and an external one. The latter include supporting parts in the form of vertically elongated cylindrical rods and guides fixed at an angle from one of their end faces. The guide of the external T-shaped body is made plate-shaped with a slotted longitudinal slot for passing the cutting element through it. The guide of the internal T-shaped body is a block with a protrusion located on one of its sides, having a through transverse hole through which the rod of the external T-shaped body is passed to ensure its up and down movement with a change in the distance between the guides of the T-shaped bodies and rotation around its longitudinal axis by means of a clamping screw. Using the utility model, one can perform a shortening rotational osteotomy of long tubular bones with resection of the deformed bone area, tight fit of the osteotomized planes of bone filings to each other and restoration of bone anatomy. 1 ave., 2 ill.

Description

The utility model relates to the field of medicine, namely medical instruments used in traumatology and orthopedics to perform a shortening osteotomy of long tubular bones with the removal of their deformed segments.

A common surgical method for eliminating bone deformities or improving the function of the musculoskeletal system is to create an artificial bone fracture - its osteotomy by means of an osteotomy or saw. In order to optimize this process, namely, to eliminate the shift of the bone dissection line from the planned trajectory due to incorrect pressing on the cutting element or slipping of the surgeon's hand due to a significant load on his wrist, various types of guides for controlling movement are currently appearing on the medical device market position of the cutting element. Known, for example, are devices for osteotomy of the acromial process of the scapula [RU patent for invention No. 2523134] and tibia [RU patent for invention No. 2340296]. However, the design of these devices is cumbersome and cannot be modified for use in other pathologies.

Also known are devices for osteotomy of the femoral neck [RU patent for utility model No. 165756, JP patent for invention No. 2017-12457 A] and the edge of the tibia [US patent for invention 2005/0154394], used for total joint replacement for resection. the edge parts of the above ends of the bones to create the so-called sawdust, i.e. flat, flat surfaces on which endoprostheses "fit" tightly.

However, the design features of these structures allow osteotomy only with the possibility of changing the angle of inclination to the longitudinal axis of the bone, i.e. perform a direct or oblique osteotomy. However, these devices are not designed to remove large segments of the deformed bone area, because all technical solutions used in them are aimed at carrying out the “fitting” of the osteotomized bone surface to the endoprosthesis elements with a tight fit to each other.

It is also known "Guide device for osteosynthesis" [RU application for a group of inventions No. 2014145382], comprising a housing with a scale, a fixing element and a saw guide. The fixing element is made in the form of two pairs of curved grips mounted on opposite ends of the housing. Each pair of grippers is interconnected by means of a cylindrical rod with a thread and a screw mounted on the rod between the grippers. The saw guide is made in the form of at least two slotted guides with holes and a slotted slot movably mounted on the body.

The design features of this device are described in the application for a group of inventions “Method of installation and fixation of the femoral component of the hip joint prosthesis and guide device for osteotomy”, which was withdrawn due to the failure to receive the response to the Request for Examination within the time limits specified in the Administrative Rules, and therefore open access there is a limited part of the materials - the claims. But even from such a brief description it follows that this device, like the ones mentioned above, is specifically aimed at making sawdust during total arthroplasty with the aim of shortening transverse osteotomy. Thus, all technical solutions used in the design are adapted for this surgical intervention, for example, the movement of slotted guides in only one direction - along the vertical axis of the bone, allowing you to control the change in the width of the sawdust using a scale applied to the body, which, in turn, , does not allow you to adjust the angle of the incision line of the bone section, if the doctor will need to conduct oblique osteotomy. Like all of the above devices, this design includes a large number of interconnected nodes, which leads to a complication of the processes of its manufacture and installation, an increase in the cost of materials, an increase in the cost of the product.

A control module for osteotomy is also known [CN Patent No. 107510489], comprising a main support body and a rotatable adjustable unit. This device is characterized by the fact that by means of a rotating block it is possible to change the angle of inclination of the osteotomy plane to both the sagittal and the frontal plane, thus allowing the anatomically correct direction of the bone to be adjusted so that two osteotomized edge segments are tightly attached.

However, this device does not provide for a rotational osteotomy, although when translating the text of the description of the patent CN No. 107510489, we found the phrase "the possibility of a rotational osteotomy." By this, the authors understood that by changing the angle of inclination of the plane of the second dissection, with the convergence of the edge segments of the bone, a minimal adjustment of the position of the fragments relative to each other in any direction is possible in order to restore the anatomical parameters of the bone. Those. this is done not by the device itself, but, therefore, when using this design, it is possible to rotate bone fragments relative to each other only by a negligible amount. To ensure the rotation of one bone fragment relative to another around the longitudinal axis of the bone, it is already necessary to move the device guide around the bone by a significant angle, thus forming a completely different angle of inclination of the osteotomy. But at the same time, it is necessary to ensure the parallelism of the planes of osteotomized bone filings in order to create their tight connection after resection of the deformed bone section to accelerate the fusion and exclude the possibility of displacement of fragments relative to each other.

After analyzing all the sources found, we did not find a device for shortening osteotomy of long tubular bones, which allows you to move the guide around the longitudinal axis of the bone. All analogues also do not have common design features with the claimed device, as a result of which it was difficult to choose the closest analogue. According to the totality of signs, any device from the above analogues can be considered it.

The objective of the claimed utility model is to develop a device that allows you to perform a shortening rotational osteotomy of long tubular bones with resection of the deformed bone, tight fit of the osteotomized planes of bone filings to each other and restore the anatomy of the bone.

The essence of the claimed utility model is characterized by the fact that the device for shortening osteotomy of long tubular bones consists of a connected external rod and a rod for the bone marrow canal, while the external rod has a plate-like guide with a slotted longitudinal slot for a cutting element and a rod for bone marrow at the end The channel has on the end part a laterally arranged guide in the form of a bar with a protrusion located on one of its sides with a through with a transverse hole for the free end of the external rod, ensuring its up and down movement and rotation around its longitudinal axis with the possibility of fixation by a clamping screw, the plate-shaped guide being opposite the rod for the medullary canal, the outer rod and the rod for the medullary canal are made cylindrical and arranged in parallel.

The technical result of the claimed utility model.

The combination of features used in this device allows for shortening rotational osteotomy, during which two dissection lines are performed strictly parallel to each other with the possibility of subsequent convergence of the ends of the fragments to a snug fit, but the guide of the cutting element when moving the second line of osteotomy is moved around the longitudinal axis of the bone so that then ensure the reversal of one fragment of the bone relative to another, restoring the correct anatomy of the bone in the presence of its pathological otatsii. It is the use in this device of two identical in the direction of their elements outer rod and rod for the bone marrow canal, interconnected, even when rotating the plate-shaped guide of the external rod around the bone, create parallel planes of sawdust bone fragments with the possibility of ensuring their subsequent close fit to each other. In this case, the function of moving the outer rod up and down allows you to adjust the width of the deleted segment. Ensuring the installation of the supporting part of the external shaft in the medullary canal and making the connection between the external shaft and the bone marrow canal using the method described in this application eliminates the possibility of displacement of the second line of osteotomy with the violation of its parallelism relative to the first line of bone dissection.

A device for shortening osteotomy of long tubular bones is illustrated using FIG. 1-2, in which: FIG. 1 is a general view of the structure, in FIG. 2 is a plan view. In FIG. 1 positions 1-10 are indicated:

1 - rod for marrowy canal;

2 - an external core;

3 - the supporting part of the rod for the medullary canal;

4 - the supporting part of the outer rod;

5 - guide rod for the medullary canal;

6 - plate-shaped guide of the outer rod;

7 - slotted slot plate-like guide of the outer rod;

8 - protrusion of the guide rod for the medullary canal;

9 - a through transverse hole in the protrusion of the rod guide for the medullary canal;

10 - clamping screw.

A device for shortening osteotomy of long tubular bones consists of a connected rod for the medullary canal 1 and an external rod 2. Each of the rods 1, 2 is a cylindrical supporting part 3, 4 located in parallel. The rod for the medullary canal 1 has an end guide transverse at an angle 5. On the end part, an outer guide 2 has a plate-like guide at an end transversely at an angle 6. The guides can be made obliquely to the longitudinal part at a fixed angle of 40-60 °. The plate-shaped guide 6 of the outer rod 2 is made with a slotted longitudinal slot 7 for guiding the cutting element through it and is located opposite the rod for the medullary canal 1. The guide 5 of the rod for the medullary canal 1 is a bar with a protrusion 8 located on one of its sides and having a through transverse hole 9, through which the free supporting part 4 of the outer rod 2 is passed with its movement up and down with a change in the distance between the guides 5,6 of the outer rod 2 and the rod for medullary canal 1 and rotating around its longitudinal axis by means of clamping screws 10.

A device for shortening osteotomy of long tubular bones is used as follows.

At the preoperative stage, radiation diagnostics of the pathology zone is carried out, namely, MRI, CT and / or X-ray studies, depending on the location and nature of the bone structure defect. During preoperative planning, using the roentgenograms and / or CT, MRI images, the place of the osteotomy is calculated, the incline of the incision line of the bone segment relative to the longitudinal axis of the damaged bone is calculated, the width of the bone section necessary for removal, the diameter of the medullary canal in the pathology zone. Based on the results obtained, a device with optimal geometric dimensions is selected, paying attention to the length and diameter of the supporting part of the rod for the medullary canal.

During the surgical procedure, surgical access to the bone structures in the pathology zone is carried out in layers. Based on the calculations performed during preoperative planning, the first dissection of the bone is carried out at an angle equal to the angles of inclination of the guides to the supporting parts of the external shaft and the shaft for the medullary canal of the selected device. The ends of the fragments are displaced relative to each other in the osteotomy zone. The supporting part of the rod for the medullary canal is installed in the medullary canal of the distal fragment, while ensuring that the central axis of the supporting part coincides with the central axis of the medullary canal and the lower surface of its guide is laid on the plane of the bone filament with a snug fit to each other. Depending on the size of the pathological area of the bone, a plate-shaped guide of the outer shaft is installed in the required position, fixing it by means of a clamping screw. At the same time, firstly, the plate-like guide of the outer rod is moved up and down so that the distance between the guides is equal to the width of the bone section necessary for removal, and secondly, at the same time, it is rotated around its longitudinal axis, ensuring the rotation of the guide around the bone in the required direction by a certain angle of rotation, determined by trial rotation of the bone until the restoration of its correct longitudinal structure. A second cut is performed by passing the cutting element through the slotted slot of the plate-like guide of the outer shaft. The planes of bone sawdust are compared to their tight fit, providing a turn of one fragment relative to another, restoring the anatomically correct position of the bone. The main stage of the surgical intervention is continued.

Example.

Experimental samples of products with various types and sizes were simulated. After tests of devices on the models of the femur reproduced by the anatomy and architectonics of the bone apparatus in patients with long tubular deformities, the validity of using the combination of the claimed design features of the claimed design was proved.

Claims (1)

A device for shortening osteotomy of long tubular bones, characterized in that it consists of a connected external rod and a rod for the medullary canal, while the outer rod has a plate-like guide with a slotted longitudinal slot for the cutting element at the end, the rod for the medullary canal has on the end part, a laterally arranged guide in the form of a bar with a protrusion located on one of its sides with a through transverse hole for the free end of the external rod with its movement up and down and rotation around its longitudinal axis with the possibility of fixation by a clamping screw, the plate-shaped guide being located opposite the rod for the medullary canal, the outer rod and the rod for the medullary canal are made cylindrical and arranged in parallel.

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