RU2372869C1 - Device for reposition and fixation of pelvic bones fractures with disruption of anterior and posterior semicircles - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine. Device contains pelvis support, consisting of two semi-arches, reposition unit and fastened on pelvis support fixing threaded rods for introduction into pelvic bones. Device also has brackets, fastened on semi-arches, force sensors, controller and electric engines. Force sensors are installed on fixing threaded rods and are switched to analogue inputs of controller. Electric engines are switched to discrete outlet of controller and have fixed on shaft toothed wheel. Reposition unit consists of connectors, which have holes with crossing axes, located in mutually perpendicular planes, longitudinal threaded bars, axial threaded bar, transversal threaded bars, upper and lower strainers, regulating nuts for fixation of transversal, longitudinal and axial bars in connectors. One end of transversal threaded bars is fastened to semi-arches by means of brackets, the other end, by means of connectors, is fastened to axial threaded bar. To transversal threaded bars longitudinal threaded bars are fastened by connectors, upper and lower strainers, each represents construction consisting of tip with hole for possibility of installation on longitudinal threaded bar and intended for installation of electric engine, bushing with axial threaded hole and with one end made in form of toothed wheel, which comes into gearing with toothed wheel of electric engine, and bar, which has one threaded end for installation into threaded hole of bushing, and the other - with head. In said head made is hole for longitudinal threaded bar. Bushing is connected with tip with possibility of axial turning. Bushings have possibility to turn onto threaded bars, which results in regulation of length of strainers and distance between fastened to them longitudinal threaded bars with possibility of turning transversal threaded bars with respect to longitudinal threaded bars and axial threaded bar.

EFFECT: invention ensures possibility to control automatically and create even dosed compression of required value between bone fragments in case of disruptions of anterior and posterior semicircles of pelvis, which allows to reduce labour intensiveness and increase quality of reposition process during treatment for creation of compression between bone fragments.

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Description

The present invention relates to medicine, namely to traumatology and orthopedics, and can be used for reposition and fixation of bone fragments in case of pelvic fractures, including the elimination of vertical displacement of half of the pelvis and restoration of the integrity of the pelvic ring in case of fractures of the anterior and posterior pelvic rings.

A device for repositioning and fixing fractures of the pelvic bones with a rupture of the anterior and posterior half rings containing a pelvic support, consisting of half arches connected to move relative to each other, a reposition unit mounted on half arches of the pelvic support, and threaded rods mounted on it for insertion into pelvic bones. The reposition unit consists of two transverse slats with holes, longitudinal and transverse threaded rods, an axial longitudinal threaded rod, fixing and adjusting nuts, brackets and made with mutually perpendicular holes of the connecting elements. The transverse threaded rods are fixed using brackets to the semi-arches and are installed in the holes of the connecting elements placed on the longitudinal threaded rods, and the latter are rigidly fixed in two transverse bars with holes. At the free ends of the transverse threaded rods are placed connecting elements, in mutually perpendicular holes of which a longitudinal axial rod is placed. The threaded rods for the pelvic bones were fixed on the half-arches using conical and spherical washers and fixing nuts. It is possible to use the adjusting nuts to move the transverse threaded rods relative to the longitudinal threaded rods, increase the distance between the longitudinal and axial threaded rods, move the brackets along the corresponding transverse threaded rod / Patent RU 2309693 C2, IPC АВВ 17/66, published on 2007.11.10 /.

However, this device has the following disadvantages:

1) only one method was proposed for reposition of bone fragments by moving brackets that fix the distal ends of the half arcs with the help of adjusting nuts on the corresponding transverse threaded rods, which is inconvenient to do on the assembled device, since two nuts located in opposite directions must be adjusted in order to move one bracket the sides of the bracket, which makes reposition difficult during treatment after mounting the device on a fracture and creates inconvenience to the patient. Also, during reposition by this method in the frontal plane, undesirable displacements in the sagittal plane will occur;

2) this device does not provide timely dosed compression between bone fragments and requires constant monitoring of the treatment process by the doctor;

3) this device has no means of measuring and controlling the amount of compression at the fracture site;

4) operations for reposition and compression are laborious.

The objective of the invention is to create a design node that will allow you to automatically automatically control and create a uniform dosed compression of the required size between bone fragments during ruptures of the anterior and posterior pelvic rings, which will reduce the complexity and improve the quality of the reposition process during treatment to create compression between bone fragments.

The essence of the invention lies in the fact that the device for reposition and fixation of fractures of the pelvic bones with a rupture of the anterior and posterior half rings, containing the pelvic support, consisting of two half arcs, the reposition unit and the fixing threaded rods mounted on the pelvic support for insertion into the pelvic bones, characterized in that it has brackets mounted on semi-arcs, force sensors, a controller and electric motors, force sensors are installed on fixing threaded rods and connected to the analog inputs of the controller, electric motors connected to the discrete output of the controller and have a gear fixed to the shaft, the reposition unit consists of connectors having holes with intersecting axes located in mutually perpendicular planes, longitudinal threaded rods, axial threaded rods, transverse threaded rods, upper and lower couplers, adjusting nuts for fixing the transverse, longitudinal and axial threaded rods in the connectors, one end of the transverse threaded rods is attached to the half-arcs using brackets, and the other end the connectors are attached to the axial threaded rod, longitudinal threaded rods, upper and lower couplers are attached to the transverse threaded rods by means of connectors, each is a structure consisting of a tip with a hole for mounting on a longitudinal threaded rod designed to install an electric motor, a sleeve with an axial threaded a hole and one end made in the form of a gear wheel, which engages with the gear wheel of the electric motor, and a rod having one end t threaded for installation in the threaded hole of the sleeve, and the other with the head, in the latter there is a hole for the longitudinal threaded rod, the sleeve is connected to the tip with the possibility of axial rotation, and the bushings can be wound onto threaded rods, as a result of which the lengths of the couplers and the distance are adjusted between longitudinal threaded rods attached to them with the possibility of rotation of the transverse threaded rods relative to the longitudinal threaded rods and the axial threaded rod.

Figure 1 presents a General view of the device; figure 2 - screed; figure 3 - connection of the locking threaded rod and half-arc.

A device for reposition and fixation of fractures of the pelvic bones contains a pelvic support in the form of two right and left half arches 1, with brackets 2 rigidly fixed on them. On the half arcs of the pelvic support 1 with conical 18, spherical 17 washers and fixing nuts 19, fixing threaded rods are rigidly fixed 9 (see FIG. 3) having tension and mortise ends (the mortise end has a conical end and is intended to be screwed into the bone, the tension end is opposite the mortise and is designed to secure the threaded fixing rod to the floor Uge using spherical and conical washers and locking nuts 19). On the pelvic support, a repositional unit is movably mounted, consisting of connectors 3 having holes with intersecting axes located in mutually perpendicular planes, longitudinal threaded rods 4, axial threaded rods 5, transverse threaded rods 6, upper coupler 7, lower coupler 8 and adjusting nuts 10 for fixing transverse, longitudinal and axial threaded rods in connectors and fixing transverse threaded rods in brackets 2, as well as for moving transverse threaded rods relative to longitudinal and axial cuts bolt rods and to move the longitudinal threaded rods relative to the transverse threaded rods and to move the brackets along the transverse threaded rods 6. The ties 7 and 8 are a design consisting of a tip 12 having an opening for installation on a longitudinal threaded rod mounted on the tip of the electric motor 13 with a gear wheel 14 mounted on the motor shaft, the sleeve 15 and the rod 16. The sleeve 15 is connected to the tip 12 with the possibility of axial rotation, the axial hole of the sleeve non threaded, the rod 16 has one end threaded for installation in the threaded hole of the sleeve, and the other with a head having a hole for the longitudinal threaded rod. One end of the sleeve 15 is made in the form of a gear wheel, which engages with the gear wheel of the electric motor, the sleeve has the ability to be wound onto a threaded rod, as a result of which the sleeve will be twisted. The electric motors 13 on the couplers are connected to the discrete outputs of the controller. Due to the twist of the sleeve 15, it is screwed onto the threaded end of the rod 16, thereby creating the possibility of adjusting the length of the coupler and, as a result, the distance between the holes in the rod 16 and the tip 12 into which the longitudinal threaded rods 4 are installed. This allows you to adjust the displacements of the longitudinal threaded rods 4 relative to each other. The transverse threaded rods 6 have the ability to rotate relative to the axial threaded rod 5 and the longitudinal threaded rods 4 through connectors 3, which in turn also have the ability to rotate relative to the axial threaded rod 5 and the longitudinal threaded rods 4. Rotate the transverse threaded rods 6 relative to the axial threaded rod 5 and relative to the longitudinal threaded rods 4 provides the ability to change the angle between the intersecting axes of the transverse threaded rods 6 located on opposite sides of the app arata, and changing the distance between the half-arcs 1, which are attached using brackets 2 to the transverse threaded rods 6. In turn, changing the distance between the half-arches allows you to change the distance between the locking threaded rods 9, and therefore between bone fragments attached to the locking threaded rods 9, due to which reposition of bone fragments will be possible. On the fixing rods 9, force sensors 11 are installed in the form of load cells to determine the power load necessary for the most effective fusion of the pelvic bones. The force sensors 11 are connected to the analog inputs of the controller. Force sensors, a controller, and electric motors provide feedback to provide automatic metered compression between fragments.

The device operates as follows.

The cut-in ends of the locking threaded rods 9 are inserted through the skin incisions-punctures into the region of the anteroposterior awns (one rod on each side), into the wings of the iliac bones (one or two on each side) in the direction of the supraclavicular region until contact with the opposite cortical layer. The number of introduced fixing threaded rods 9 is determined by the nature of the damage to the pelvic bones (4 or 6, depending on the type of fracture). The locking threaded rods 9 are rigidly fixed to the floor of the arches 1 of the pelvic support. The arrangement planes of the semi-arcs 1 are brought nearer to the frontal one with the formation of an angle between them. Install force sensors 11 on the locking threaded rods 9 and connect them to the analog inputs of the controller.

The next step is the assembly of the couplers 7 and 8: the rod 16 is installed in the axial hole of the sleeve, then the longitudinal threaded rods 4 are installed in the holes in the tips 12 and the rods 16 and the couplers are fixed on the longitudinal threaded rods using the adjusting nuts 10. Next, the motor 13 is mounted on the tip with the gear wheel of the electric motor 14 fixed to its shaft, so that the gears of the electric motor and the sleeve engage. Next, connect the motors to the discrete outputs of the controller.

The next step is the installation of the reposition unit. Brackets 2 are rigidly fixed to the semi-arcs 1 of the pelvic support. The semi-arcs are connected to each other by means of brackets 2 with longitudinal 4 and transverse 6 threaded rods, ties 7 and 8, connectors 3 having holes with intersecting axes located in mutually perpendicular planes, and adjusting nuts 10 such so that the repositional unit takes the form of a triangular prism with the base facing inwards.

Elimination of the vertical displacement of the half of the pelvis is carried out by moving the transverse threaded rods 6 located transversely relative to the longitudinal threaded rods 4 located longitudinally to the axis of the body using the adjusting nuts 10.

By moving the half arcs 1 using the brackets 2 attached to the half arcs and adjusting nuts 10 along the corresponding transverse threaded rods 6, the anatomy of the pubic joint is restored.

Compression in the sacroiliac joint is achieved with the help of adjusting nuts 10 by increasing the distance between the longitudinal threaded rods 4 and the axial threaded rod 5.

Automatic regulation of dosed compression between bone fragments in the sacroiliac joint is achieved through feedback on mechanical stress. Feedback consists of force sensors, electric motors and a controller, and the controller has the ability to generate signals for controlling electric motors depending on the signals from the force sensors. Sensors are installed on the rods to measure mechanical stress in the rods and bone fragments, which can be used to judge the amount of compression between the bone fragments. The principle of feedback is as follows: the signals from the force sensors are fed to the analog inputs of the programmable logic controller, using them the controller estimates the amount of compression, and if it is not enough, the controller sends a high level signal to the discrete outputs of the controller, to which the motors 13 are connected, turning on the engines, a torque occurs on their shafts and on the gears fixed to their shafts 14. Since the gears 14 are engaged with the gears of the bushings 15, rotation The moment is transmitted to the bushings, the bushings begin to rotate and the bushings 15 are screwed onto the rods 16, due to which the lengths of the tie rods 7 and 8 are reduced, as a result of which the longitudinal threaded rods mounted on the couplers come closer, the transverse threaded rods are turned relative to the axial and longitudinal threaded rods , reducing the angles between the intersecting axes of the transverse threaded rods, the approach of the half arcs 1 and the fixing threaded rods attached to them 9. Since the threaded rods 9 are attached to the fragments of bone, they are compressed and compression increases between them.

This device allows you to eliminate the displacement of the bone fragments of the pelvis in three planes, to automatically automatically create a uniform dosage compression between the bone fragments during ruptures of the anterior and posterior pelvic rings, and provides stable osteosynthesis of the pelvic bones. The technology for using the device is simple and affordable for most specialized departments.

The technical result of using the device is as follows:

1) ensuring timely dosed compression between bone fragments;

2) providing automatic control and regulation of the amount of compression between bone fragments at the site of fracture of the pelvic bones;

3) reducing the complexity of operations for reposition of bone fragments, because reposition to create compression is done automatically;

4) facilitating control of the course of osteosynthesis by the doctor.

The design of the device does not have fragile or difficult to manufacture parts and can be manufactured on standard equipment.

Claims (1)

A device for reposition and fixation of fractures of the pelvic bones with a rupture of the anterior and posterior half rings, comprising a pelvic support consisting of two half-arches, a reposition unit and fixing threaded rods mounted on the pelvic support for insertion into the pelvic bones, characterized in that it has brackets fixed to half arcs, force sensors, controller and electric motors, force sensors installed on fixing threaded rods and connected to the analog inputs of the controller, electric motors connected to a discrete control output Ller and have a gear fixed to the shaft, the reposition unit consists of connectors having holes with intersecting axes located in mutually perpendicular planes, longitudinal threaded rods, axial threaded rods, transverse threaded rods, upper and lower couplers, adjusting nuts for fixing the transverse, longitudinal and axial threaded rods in the connectors, one end of the transverse threaded rods is attached to the semi-arcs using brackets, and the other end is attached to the axial cut through the connectors a threaded rod, longitudinal threaded rods, upper and lower couplers are attached to the transverse threaded rods by means of connectors, each of them is a construction consisting of a tip with a hole for installation on a longitudinal threaded rod and intended for mounting an electric motor, a sleeve with an axial threaded hole and one end made in the form of a gear wheel, which engages with the gear wheel of an electric motor, and a rod having one end threaded for installation in a threaded a new bore of the sleeve, and the other with the head, in the latter there is a hole for a longitudinal threaded rod, the sleeve is connected to the tip with the possibility of axial rotation, and the bushings can be wound on threaded rods, as a result of which the lengths of the couplers and the distance between the longitudinal ones attached to them are adjusted threaded rods with the ability to rotate the transverse threaded rods relative to the longitudinal threaded rods and the axial threaded rod.

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