RU184952U1 - Device for wedge-shaped shortening osteotomy of long tubular bones - Google Patents

Abstract

The utility model relates to the field of medicine, namely medical instruments used in traumatology and orthopedics. The device includes a support part connected to one of its end sides by means of a hinge with a locking screw with a guide with the possibility of changing its angle of inclination to the longitudinal axis of the device. The supporting part is made in the form of a vertically elongated plate arched curved in cross section with through holes evenly spaced along its longitudinal axis to fix the position of the device relative to the bone. The guide has the shape of a rectangular plate, bent at an angle of about 30-60º as a wedge, with a slotted slot for passing through it a cutting element. The guide can be made interchangeable by the possibility of removal and subsequent installation of the locking screw of the hinge. The device’s easy-to-manufacture and use design allows you to perform a wedge-shaped shortening osteotomy of long tubular bones to ensure full fit of parallel planes of bone filings to each other, eliminating the possibility of rotational and lateral displacement of bone fragments. 2 s. p. f-ly, 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 wedge-shaped shortening osteotomy of long tubular bones with removal of their deformed segments, restoration of bone anatomy and ensuring stable connection of bone fragments to each other in the form of a “lock”.

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 using 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], tibia [RU patent for invention No. 2340296, US patent for invention 2005/0154394], femoral neck [RU patent for utility model No. 165756, patent JP for invention No. 2017-12457A]. However, the design of these devices is cumbersome, difficult to use and, in most cases, cannot be modified for use in other pathologies.

In addition, the use of these devices in the implementation of a wedge-shaped osteotomy is difficult, but, basically, on the contrary creates the need for a number of additional manipulations, therefore, increases the risk of errors. That is, first you need to set the device guide at one angle, cut the bones to a certain visual length only, then manually change the angle of the guide and make a second cut. However, some devices generally do not have the ability to change the angle of inclination of the guide, and therefore, to perform a wedge-shaped osteotomy, it will be necessary to change the position of the entire device relative to the bone. In these cases, it is easier to perform a wedge-shaped osteotomy without the use of any structures, only with the help of the "surgeon's hands" and a cutting element. It is generally impossible to produce the necessary excision of the bone site with only a saw, or by using existing designs, followed by matching its edges, requiring two precisely repeating cuts of the type of wedges with the creation of strictly parallel sawdust planes of different bone fragments. When conducting a search for similar designs for wedge-shaped osteotomy, we did not find such devices.

According to the totality of coinciding features, the “Device for osteotomy” [RU patent for utility model No. 179187], the author-developer of which is one of the authors of the claimed technical solution, can be taken as the closest analogue of a utility model. In fact, the claimed design is a modification of the previous technical solution. But they can not be compared, none of the devices is the best. They are aimed at conducting various types of osteotomy and both are in demand. The developed technical features of the implementation of the supporting part in the form of a vertically elongated plate arched curved in cross section with through holes evenly spaced along its longitudinal axis to fix the position of the device relative to the bone simplify the design and the method of its installation and use, which was experimentally justified. In this regard, it was decided on an existing base to create a device that could, with the same accuracy and ease of use, perform two strictly parallel wedge-shaped filings.

The objective of the claimed utility model is to develop a device that is simple to manufacture and use, which makes it possible to perform a wedge-shaped shortening osteotomy of long tubular bones to ensure full fit of parallel planes of bone filings to each other, eliminating the possibility of rotational and lateral displacement of bone fragments.

The essence of the claimed utility model lies in the fact that in the device for a wedge-shaped shortening osteotomy of long tubular bones, comprising a supporting part in the form of a vertically elongated plate arched curved in cross section with through holes evenly spaced along its longitudinal axis to fix the position of the device relative to the bone, connected to direct one of its end faces by means of a hinge with a locking screw with the possibility of changing the angle of inclination to the longitudinal axis of the device lem in the form of a rectangular plate with a slotted slot for passing through it a cutting element, the guide is made curved like a wedge.

A device is also claimed for a wedge-shaped shortening osteotomy of long tubular bones with the above features, in which the guide is bent at an angle of 30-60 °.

In addition, a device is also claimed for a wedge-shaped shortening osteotomy of long tubular bones with the above features, in which the guide is removable by the possibility of removing and then installing the hinge locking screw.

The technical result of the claimed utility model.

The technical features of the shape of the guide according to the type of the wedge with a slotted slot for the cutting element in combination with the possibility of changing its angle of inclination to the longitudinal axis of the device and moving up and down along the longitudinal axis of the bone due to the through holes evenly spaced from each other in the supporting part allow excision of the deformed bone site with subsequent accurate comparison of the formed filings, tight fit of all their planes and the formation of a reliable castle compound of the bone fragments to each other, precluding the occurrence of rotational and transverse displacement of the latter in the future. Thus, this device will allow you to form strictly parallel planes of the bone section according to the type of wedges, ensuring that all of the above symptoms are fulfilled, which, in turn, will eliminate the possibility of postoperative complications due to loss of stability of fixation of bone fragments, their migration and shorten the time of adhesion by increasing the area of contact of bone filings and the density of their fit to each other, and, therefore, significantly increase the effectiveness of the treatment. The combination of all the technical solutions used in the claimed product allows you to create a design that is easy to manufacture and does not require additional tools for use or any navigation system, as well as the process of its application is greatly facilitated, and therefore any orthopedic trauma surgeon can handle this manipulation .

Currently, radiation diagnostic methods can accurately determine the parameters of the pathology zone. However, some errors cannot be avoided anyway. In this case, the surgeon is minimal, but you have to adjust your actions during the operation. The inventive device has all the technical solutions that provide for the possibility of conducting minimal adjustments carried out intraoperatively. Specifically, the surgeon during the operation, without any effort or time, can change the angle of inclination of the guide to the longitudinal axes of the device or bone, and also, if necessary, adjust the angle of the wedge, replace the guides with a more suitable one.

A device for a wedge-shaped shortening osteotomy of long tubular bones is illustrated by FIG. 1-2, in which: FIG. 1 is a general view of the structure, in FIG. 2 is a general view of a structure with geometric dimensions. In FIG. 1 positions 1-6 are indicated:

1 - supporting part;

2 - through holes of the supporting part;

3 - a guide;

4 - slotted slot of the guide;

5 - hinge;

6 - locking screw.

A device for wedge-shaped shortening osteotomy of long tubular bones includes a supporting part 1 in the form of a vertically elongated plate curved in an arcuate cross section with through holes 2 evenly spaced along its longitudinal axis to fix the position of the device relative to the bone. The support part 1 from one of its end faces is connected to the guide 3 in the form of a rectangular plate curved at an angle of about 30-60 ° with a slotted slot 4 for passing a cutting element through it. The size range of the angled guides is made in increments of 5º, namely the wedge angle can be 30º, 35º, 40º, 45º, 50º, 55º, 60º. The connection of the supporting part 1 with the guide 3 is made by means of a hinge 5 with a locking screw 6 with the possibility of positioning the guide 3, fixing it at a predetermined angle during the preoperative planning of the cut line of the bone segment, as well as if necessary to ensure the change of the guide to another by removing and subsequent installation hinge locking screw.

A device for wedge-shaped 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 and the angle of the wedge of the osteotomy line, the optimal point of placement of the wedge tip relative to the bone width are provided, ensuring the most durable subsequent connection of bone fragments relative to each other in the form of a “lock” , and also determine the length of the deformed bone site, which must be removed. Based on the results obtained, a device for osteotomy with optimal geometric dimensions is selected, paying attention to the length of the supporting part, depending on the planned size of the surgical field and, accordingly, the length and shape of the guide. To enable adjustments depending on the arising intraoperatively visualized only with open access anatomical parameters, several interchangeable guides are prepared with a wedge angle 5 ° larger and smaller than the planned size.

During the surgical procedure, surgical access to the bone structures in the pathology zone is carried out in layers. Taking into account the calculations performed during preoperative planning, several pins are introduced sequentially into the bone along its longitudinal axis in the transverse direction, ensuring each of them passes through both cortical layers and the center of the bone cross-section, observing the distance between them along the longitudinal axis of the bone that is a multiple of the distance between the centers of the through holes in the supporting part of the device. The anatomical location of the bone structures in the pathology zone and the correspondence of the visualized picture to the parameters determined during preoperative planning are evaluated. In full compliance, proceed with the installation of the device. If there is a deviation from the visualized preoperative planning of the picture, the doctor decides to change the guide to the most suitable of the previously prepared ones and, when installed, adjusts the angle of inclination of the guide to the longitudinal axis of the structure and bone, fixing it in the reached position with the locking screw. Then proceed to install the device. To do this, carry the pins through the through holes of the supporting part, tightly pressing the latter to the bone. The bone is cut by passing the cutting element guide through the slotted slot. The inventive device is removed from the pins and re-mounted on them, dropping down along the longitudinal axis of the bone at a distance calculated during preoperative planning equal to the width of the excised deformed bone site. A second cut is performed by passing the cutting element through the slit slot of the guide. Bone fragments are compared to a snug fit of all sawdust planes to each other, thereby providing a firm connection of the “lock” type, eliminating the possibility of rotational lateral displacement of the fragments.

Next, the main stage of the surgical intervention is continued, depending on the nature of the pathology after removing the installed pins and device.

Example.

Experimental samples of products with various types and sizes were simulated. After tests of devices on mock-ups reproducing the anatomy and architectonics of the bone apparatus in patients with pathology of long tubular bones, the validity of the use of the combination of the claimed design features was proved.

Claims (3)

1. A device for a wedge-shaped shortening osteotomy of long tubular bones, comprising a supporting part in the form of a vertically elongated plate arched curved in cross section with through holes evenly spaced along its longitudinal axis to fix the position of the device relative to the bone, connected to one of its end sides by a hinge with a locking screw with the ability to change the angle of inclination to the longitudinal axis of the device with a guide in the form of a rectangular plate with a slotted slot for information through it of the cutting element, characterized in that the guide is made curved in the form of a wedge. 2. The device according to p. 1, characterized in that the guide is curved at an angle of 30-60º. 3. The device according to p. 1, characterized in that the guide is interchangeable by the possibility of removal and subsequent installation of the locking screw of the hinge.

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