RU190765U1 - INDIVIDUAL PATTERN FOR MOVING OSTEOTHEAMED BONE FRAGMENTS IN THE TASK POSITION - Google Patents

Abstract

The utility model relates to medical equipment and can be used to move osteotomized bone fragments to a predetermined position after corrective osteotomy of the first metatarsal bone is performed. An individual template is proposed for moving osteotomized bone fragments to a predetermined position after its separation, consisting of a plastic frame containing a support platform, an internal the surface of which is a copy of the outer surface of the bone, and the guide rectangle, and the associated external a sleeve equipped with a knitting hole for the needle, the length of the guide rectangle corresponding to the displacement of the fragment, and the location of the guide rectangle and the remote sleeve, based on the results of 3D modeling of the operation based on computed tomography of the foot of a particular patient. Using an individual template to move osteotomized fragments bones to a predetermined position simplifies the technique of moving osteotomized bone fragments, stably fixes them, increasing the accuracy spine, by eliminating the risk of bias when the correction. This allows you to improve the quality of treatment of the patient and reduce the time of surgical treatment by an average of 15 or more minutes, due to the achievement of optimal correction and the elimination of staged x-rays and alterations.

Description

The invention relates to medical equipment, namely, tools for osteotomy surgery, more precisely, devices for moving osteotomized bone fragments to a predetermined position after performing corrective osteotomy of the first metatarsal bone.

The spread of deformities of the forefoot, their close connection with the working and living conditions of a person, the significant influence of this pathology on the quality of life makes the correction of this pathology very relevant and practically important. As a correction of the pathology, one of the main methods is osteotomy. Osteotomy (from the Greek. Osteon - bone and tome - dissection) refers to a surgical operation aimed at eliminating deformity or improving the function of the musculoskeletal system by artificially fracturing a bone in order to give the patient a functionally advantageous position comfortable for standing and walking.

As a rule, the osteotomy is performed by an open method with a wide access, during which the bone intersection area is exposed, the periosteum is separated with a dissector and the bone is crossed. After elimination of the deformation, the fragments are joined using metal structures or a plaster bandage. [RU 2128962, 1999; RU 2602935, 2016; RU 2612097, 2017; RU 2639430, 2017; CHERKES-ZADE DI and others. Foot surgery. - M .: Medicine, 2nd ed., 2002, p. 250-254; KORYSHKOV N.A. Foot injury. Damage to the forefoot. - Yaroslavl - Rybinsk: “Rybinsk press house, 2006, p. 102-105; https://dic.academic.ru/dic.nsf/enc_medicine/21468].

At the same time, an important and difficult problem to be solved is the exact movement and fixation of bone fragments after osteotomy, which has not yet been solved at a sufficiently high level.

Currently, the authors developed an osteotomy technology using computed tomography, within which a three-dimensional computer model of the foot of a particular patient is created and an open osteotomy operation is performed in the virtual space, during which the conditions of all stages of the operation are fixed and virtual templates are created that allow introducing tools for crossing the bone and fixing its separated fragments using knitting needles, which are then printed wag on a 3D printer.

Similar patterns in the reviewed scientific and technical literature are not described.

In the course of creating templates, the technical task was to simplify the technology and improve the accuracy of moving and fixing osteotomized bone fragments to a predetermined position when after performing corrective osteotomy of the first metatarsal bone.

The technical result is achieved by creating an individual template for moving osteotomized bone fragments to a predetermined position, consisting of a plastic frame containing a supporting pad, the inner surface of which is a copy of the outer surface of the bone, and a guide rectangle and associated external sleeve, provided with an opening for the spokes, the length of the guide rectangle corresponds to the displacement of the fragment, and the location of the guide rectangle and the external sleeve is Nano on the basis of the results of 3D modeling of the operation, based on data from computed tomography of the foot of a particular patient.

Typically, the pattern is performed by printing on a 3D printer.

As stated above, an individual template for moving osteotomized bone fragments to a predetermined position, consists of a plastic frame and an external sleeve. The presence in the framework of the support platform allows you to accurately position the template to the bone, and the guide rectangle allows you to displace and hold osteotomized bone fragments in a predetermined position. The guide sleeve indicates the vector and the direction of the spokes for further stable fixation of osteotomized bone fragments after movement. The combination of elements eliminates the risk of osteotomized fragments displacement due to the presence of the elements described above. The location of the guide rectangle and the remote sleeve is performed in accordance with the results of 3D modeling, based on data from the computed tomography of the foot, allowing you to perform the correction, taking into account the individual characteristics of the patient.

The essence of the proposed solution is illustrated by an illustrative material: FIG. 1, which shows a general view of the inventive template, and FIG. 2 is a fragment of the operation, where: 1 is the supporting platform of the plastic frame ,; 2 - guide rectangle; 3 - offset sleeve, 4 - hole for the orienting spokes; 5 - connecting semiring: 6 - orienting needle.

The use of the template is as follows. After performing the correcting osteotomy of the first metatarsal bone, an individual template is established on the osteotomized fragments so that the supporting platform of the plastic frame (1) is hooked on its inner surface and matched with the outer surface of the osteotomous distal fragment of the first metatarsal bone.

After that, holding the connecting semi-ring (5), the proximal osteotomized fragment is displaced laterally along the guide rectangle (2) by an amount equal to its length. Then, through the hole (4) in the remote sleeve (3) hold the needle (6) and fix the fragment (Fig. 2). Then the individual template is removed, through the hole (4) see through the screw and the needle (6) is removed. After smoothing the edges of the fixed bone fragments, the wound is sutured in layers.

Using an individual template for moving osteotomized bone fragments to a predetermined position simplifies the technique of moving osteotomized bone fragments, stably fixes them, increasing accuracy, by eliminating the risks of displacement when a correction is achieved. This allows you to improve the quality of treatment of the patient and reduce the time of surgical treatment by an average of 15 minutes or more, due to the achievement of optimal correction and exclusion of phased X-rays and alterations.

Claims (2)

1. An individual template for moving the osteotomized fragments of the first metatarsal bone to a predetermined position, consisting of a plastic frame containing a bearing pad, the inner surface of which is a copy of the outer surface of the bone, and a guide rectangle, and a remote sleeve connected to it, provided with a needle hole, with this length of the guide rectangle corresponds to the amount of displacement of the fragment, and the location of the guide rectangle and the external sleeve is made on the basis of the results of 3D simulation of surgery based on the computed tomography of the foot of a particular patient. 2. Individual template according to claim. 1, characterized in that it is made by printing on a 3D printer.

Images