RU2741235C1 - Plate for stabilization of thorax - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to traumatology and orthopaedics, and aims at treating funnel-like deformity of the thorax and other malformations of an anterior chest wall. Technical result consists in creation of a structure providing its installation and removal in conditions of limited operative approach, with reduced time of operative intervention. Substance of invention consists in the fact that plate for chest stabilization contains elastic element with transverse plates fixed at ends. Transverse plates are detachable, each consisting of two parts, which are overlapped with each other, and have transverse teeth of reciprocal shape on adjacent surfaces. Along the longitudinal axis of lower part of each transverse plate, in the area of said teeth, there is a vertically installed hexagonal rod with internal threaded hole along axis. On the upper part of the plates, as well as along the longitudinal axis, in the teeth area, an open longitudinal groove is made, the width of which corresponds to the external size of the hexagonal rod installed on the lower part. End parts of the transverse plate parts are bent upwards. On the ends of the elastic element there are through hexagonal holes, corresponding to sizes of hexagonal rods on transverse plates.EFFECT: invention provides installation and removal of the device in conditions of limited operational access, with reduced time of operative intervention.1 cl, 4 dwg

Description

The proposed technical solution relates to medicine, namely to traumatology and orthopedics, and is intended for the treatment of funnel chest deformity and other malformations of the anterior chest wall.

There are several types of implants for keeping the rib cage in the corrected position. An analogue of the proposed technical solution is a device for the treatment of chest deformities [1], which contains an elastic plate, deformable and elements of installation on the ribs. At the ends of the elastic, deformable plate, longitudinal grooves are made, in the center of which there are cylindrical holes, in which, movably, in the longitudinal direction in the grooves, and in a circle - in a cylindrical hole, plates are installed on axes having a cross-section in the form of a square. The installation process of this device is complicated by the fact that the movably mounted plate cannot rotate relative to the elastic, deformable plate, because its axis has a square section, and is in the extreme position to the center of the elastic, deformable plate. When removed, the axis of the plate is in the extreme position towards the end of the plate, elastic, deformable, and also cannot rotate. The rotation of the plate is carried out when the end of the device comes out between the ribs, when the axis is located in the cylindrical hole. However, with a minimally invasive method of correction of chest deformity, when the deformity is corrected and the plate is installed through small incisions, it is difficult to manipulate the plates on the axes, in this case, difficulties arise both when installing the device and when removing it. In addition, when installing the implant, it is necessary to observe a certain orientation of the device: the elastic, deformable plate must be installed perpendicular to the longitudinal axis of the sternum, and the movable plate must be installed perpendicular to the intercostal spaces. In this device, the installation of movably mounted plates in relation to an elastic, deformable plate is possible only along the longitudinal axis, or at right angles to each other, and not at the required angle.

The closest design to our proposed technical solution is a plate for stabilizing the deformation of the chest [2]. This device consists of an elastic element and transverse plates. A cylindrical protrusion equipped with an internal thread is made in the center of each transverse plate, on one side of it. Around the protrusion, radially, at the same distance from the center, and at an equal distance from each other, at least four teeth are placed. At the ends of the elastic element, along the axis, through holes are made, corresponding to the protrusions on the said plates. Around the holes there are teeth corresponding to the teeth of the transverse plates, the plates are fixed to the elastic element by means of screws.

However, when installing and removing the transverse plates, technical difficulties arise, since this element of the device is non-separable, and this lengthens the time for installation and removal of the structure, and can lead to damage to the intercostal nerves.

The purpose of the invention is to simplify the process of inserting and removing the plate for stabilizing the chest in minimally invasive operations.

The essence of the task is a set of essential features sufficient to achieve the desired technical result, which consists in creating a structure that ensures its installation and removal under conditions of limited operational access, while reducing the time of surgical intervention.

The essence of the invention lies in the fact that the plate for stabilizing the chest contains an elastic element with transverse plates fixed at the ends. The transverse plates are split, each consists of two parts, which are overlapped with each other, and have transverse teeth of a reciprocal shape on adjacent surfaces. Along the longitudinal axis of the lower part of each transverse plate, in the region of the mentioned teeth, a hexagonal rod with an internal threaded hole along the axis is vertically mounted. On the upper part of the plates, also along the longitudinal axis, in the area of the teeth, an open longitudinal groove is made, the width of which corresponds to the outer dimension of the hexagonal rod installed on the lower part. The end sections of the parts of the transverse plates are bent upward. Hexagonal through holes are made at the ends of the elastic element, corresponding to the dimensions of the hexagonal rods on the transverse plates.

Making the transverse plates split, consisting of two parts, is necessary for the convenience and speed of their installation.

The overlapping connection of the parts of the transverse plate ensures the rigidity of fixation due to the implementation of the reciprocal shape on the adjacent surfaces of the transverse teeth. In addition, the presence of transverse teeth of a reciprocal shape makes it possible to separate and close the transverse plates with a certain pitch equal to the pitch of the teeth, when they are installed, depending on the intercostal distances.

The location along the longitudinal axis of the lower part of the transverse plate, in the area of the mentioned teeth, of a vertically mounted hexagonal rod, with an internal threaded hole along the axis, is necessary for connecting and fixing parts of the transverse plate and the elastic element together.

Execution on the upper part of the plate, along the longitudinal axis, in the area of the teeth, an open longitudinal groove, the width of which corresponds to the outer size of the hexagonal rod installed on the lower part of the plate, is necessary for the possibility of separating and closing the transverse plates (moving parts of the transverse plates), which ensures them more stable (dense) fixation on the costal arches.

The end sections of the parts of the transverse plates bent upwards ensure their more stable, tight fixation on the costal arches.

Equipping the end sections of the end sections of the bent upward parts of the transverse plates with through threaded holes is necessary for the installation and manipulation of a tool with a threaded tip, which greatly facilitates the installation and mounting of the plates.

The execution of hexagonal through holes at the ends of the elastic element, corresponding to the dimensions of the hexagonal rods on the transverse plates, ensures the installation of the transverse plates at the required angle to the elastic element.

The device of the chest stabilization plate is illustrated by the following illustrations, where:

FIG. 1 shows a plate for stabilizing the chest in an assembled state, top view;

in FIG. 2 - the lower part of the transverse plate;

in FIG. 3-upper part of the transverse plate;

in FIG. 4 - shows an elastic element.

The plate for stabilizing the chest consists of an elastic element 1 and two transverse plates 2, each of which is detachable, and consists of a lower part 3 and an upper part 4, overlapped with each other. On the adjacent surfaces of the lower 3 and upper 4 parts of the plates, transverse teeth 5 of a reciprocal shape are made. Along the longitudinal axis of the lower parts 3 of the transverse plates 2, in the area of the transverse teeth 5, hexagonal rods 6 are vertically installed, with an internal threaded hole 7 along the axis for the screw 8. On the upper part of the 4 plates 2, also along the longitudinal axis, in the area of the teeth 5 , an open, longitudinal groove 9 is made, the width of which corresponds to the outer dimension of the hexagonal rod 6 installed on the lower parts 3 of the plates 2. The end sections 10 of the parts of the transverse plates 2 are bent upward. At the ends of the elastic element 1, through holes 11 of a hexagonal shape are made, corresponding to the dimensions of the hexagonal rods 6 on the transverse plates 2.

The plate to stabilize the chest is used as follows.

After treatment of the operating field with a solution of iodine, alcohol, make a skin incision 3-4 cm long of one of the intercostal spaces, from 6 to 8 ribs, depending on the severity of the funnel-shaped deformity, in the projection of the midclavicular, or antero-axillary line. Kortsangom, vnepleurally, form a canal along the posterior surface of the anterior part of the chest. The elastic element 1 is bent according to the shape of the deformation of the chest, in the middle part, overcoming the elastic limit. Through the formed channel, along the back surface of the front part of the chest, an elastic element 1 is introduced, facing the formed convex side to the spine. Turn the device around its axis by 180 degrees. The elastic element 1 is oriented perpendicular to the longitudinal axis of the sternum, while the elastic element 1, with its middle, convex part, resiliently acts on the sternum from the inside.

After installing the elastic element 1, they begin to insert under the ribs, and assemble, the transverse plates 2, so that the end sections 9, lower 3 and upper 4, parts of the transverse plate 2 bent upwards, are located behind the ribs, and the plates 2 themselves are under the ribs (as a rule, these are ribs 6-7 or 7-8). In this case, the upper parts 4 of the plates 2 are installed on the lower parts 3 so that the hexagonal rods 6 of the lower plates 3 are placed in the grooves 9 of the upper plates 4. Parts 3 and 4 of the transverse plates 2 are held in the assembled position by the transverse teeth 5, which have a reciprocal shape and are made on the adjacent surfaces of parts 3 and 4 of the plate 2. Install the elastic element 1 on the assembled transverse plates 2, pushing the hexagonal holes 11 made at the ends of the elastic element 1 onto the hexagonal rods 6 made on the lower parts 3 of the plates 2. The device is fixed in assembled tightening screws 8 in the threaded holes 7 of the rods 6. The connection of the elastic element 1 and the transverse plates 2 by means of the hexagonal rods 6 and the holes 10 makes it possible to change the orientation of the transverse plates 2 relative to the ribs at an angle close to 90 °.

The production of collapsible transverse plates makes it possible to simplify the process of installing the device during surgery and to reduce the time of surgery.

Information sources:

1. RF patent for utility model No. 37927, А61В 17/80, 2004

2. RF patent №160899, "Plate for stabilization of chest deformation." IPC A61V 17/80. Bulletin No. 22, 03/14/2016.

Claims (1)

A plate for stabilizing the chest, containing an elastic element, with transverse plates installed at the ends, fixed on the elastic element with screws, characterized in that the transverse plates are split, consist of two parts that are overlapped with each other, and have on adjacent the surfaces of the transverse teeth of the reciprocal shape, along the longitudinal axis of the lower part of the transverse plate, in the region of the mentioned teeth, a hexagonal rod is vertically installed, with an internal threaded hole along the axis, on the upper part of the plate, also along the longitudinal axis, an open longitudinal groove is made, the width of which corresponds to the outer size of the hexagonal rod installed on the lower part, the end sections of the parts of the transverse plate are bent upward, at the ends of the elastic element there are hexagonal through holes corresponding to the dimensions of the hexagonal rods on the transverse plates.

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