RU1803063C - Device for determining mobility of bone breaks-off - Google Patents

Abstract

Usage: traumatologists and orthopedists. Improving the accuracy of determining lane-bone mobility of bone fragments. SUMMARY OF THE INVENTION: the device comprises at least two rigid threaded rods 1 mounted in bone fragments 2 and 3, and a beam 4 rigidly connected to the rods. The displacement sensor 6 contains a spring-loaded axial sensing element and is equipped with a pusher 7 interacting with it. The displacement sensor and the pusher are mounted on two adjacent opposite threaded threaded rods x 1 in the areas between the injured limb and the beam 4, which, in turn, installed parallel to the longitudinal axis of the damaged segment. 2 ill.

Description

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The invention relates to traumatology and orthopedics, is intended to determine the mobility of bone fragments, fixed in the rod apparatus of non-focal fixation, and can be used, for example, to assess the mechanical condition of the fused bone segment in clinical conditions.

The purpose of the invention is to increase the accuracy of determining the linear mobility of bone fragments.

Fig. 1 shows a general view of a device for determining the mobility of bone fragments fixed in a rod apparatus of extrafocal fixation; Figure 2 shows the construction of a displacement sensor.

A device for determining the mobility of bone fragments contains a rod apparatus of extra focal fixation (Fig. 1), which includes at least two rigid threaded rods 1 of the apparatus, which are installed in bone fragments 2 and 3 (mainly perpendicular to the longitudinal axis i of the bone segment) opposite each other to each other on both sides of the fracture site, as well as an external support in the form of a beam 4, rigidly connected to the external parts of the rods 1 with clamps 5, and also a displacement sensor 6, made, for example, in the form of a capacitive axis sensor ny move: niy, and the steward 7..

The axial displacement sensor 6 and the pusher 7 interacting with it are mounted parallel to the beam 4, which in turn is installed parallel to the longitudinal axis I of the damaged bone segment.

The capacitive axial displacement sensor (see FIG. 2) comprises a housing 8 with elements 9, 10, 11 for fastening to the rod 1. as well as two metal cylinders 12 and 13 telescopically connected to each other,

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forming between themselves a variable electrical capacitance.

The cylinder 12 is electrically insulated, for example, by means of a dielectric coating, from the housing 8, and the cylinder 13 is mounted on a dielectric rod 14, which by means of a spring 15 is spring-loaded to the movable rod 16 mounted in the sliding bearing 17. The rod 16 serves to interact with the movable sensor element of the sensor a cylinder 13 with a pusher 7. The sensor contains electrical leads 18 and 19, which are connected to the cylinders 13 and 12 by means of electrical conductors 20 and 21.

The housing 8 of the sensor 6 is rigidly fixed on one of the two rigid rods 1 of the extrafocal fixation apparatus adjacent to the fracture site in the area between the injured bone and the beam 4, and on the second similar rigid rod 1, located relative to the fracture site opposite to the first rigid rod, in the area between the injured the limb and the beam 4 is fixed to the pusher 7, which is mounted coaxially with the rod 12 of the sensor. -.

The device also comprises measuring and recording devices 22 and 23. The terminals of the sensor b are connected to the measuring device 22, which in turn is connected to the recording device 23.

The device operates as follows. To determine the mobility of bone fragments, for example, on the lower limbs of the patient during their fusion to the rods 1, adjacent to each other and to the fracture site, a previously calibrated capacitive sensor 2 and a pusher 7 are installed, connected to a measuring device 22, for example, a capacitance meter connected to the recorder recorder 23.

After that, the injured limb is loaded, for example, the lower patient with the metered axial load, which is controlled, for example, by means of floor scales.

When a longitudinal axial load is applied to the damaged segment of the lower limb of the patient, mutual movement of bone fragments occurs, as well as those installed in the last rigid metal rods 1, which leads to the movement of the pusher 7 and the spring-loaded metal cylinder 13 connected to it through the rod 16 relative to the metal cylinder 12. as a result, the electric capacitance of the capacitive sensor 6 is changed in proportion to the relative displacement of the bone fragments 2 and 3.

According to the reading of the measuring device

22, to which the sensor 6 is connected, its electric capacity is determined, which in turn determines the mutual displacement of the bone fragments 2 and 3. Registration of the displacement readings

bone fragments are performed by a recorder 23.

Installation of a sensor of 6 linear displacements directly on the main rigid rods x of the extrafocal apparatus

5 fixation, which are the forceful structural elements of the apparatus, eliminates additional trauma of the patient in determining the mobility of bone fragments, since it does not require the introduction of

0 bone fragments or the patient’s body of any additional elements for the mouth. new measuring sensor.

Thanks to the fact that the sensor has 6 axial displacements and (. In the pusher 7 connected with it,

5 mounted coaxially to each other, mounted on two nearby rigid rods x 1 apparatus of extrafocal fixation, installed in bone fragments and located opposite on either side of the site

0 fracture, providing a high accuracy in determining the degree of mobility of bone fragments due to the fact that the linear displacement transducer is mounted directly on the main rigid rods and

5 near the fracture, which excludes the introduction of significant errors in determining the mobility of bone fragments that occur in the previously described analogues.

0 The location of the sensor 6 and the pusher 7 parallel to the beam 4, which, in turn, is installed parallel to the longitudinal axis of the damaged segment, allows for proportional readings

5 sensors the value of the mobility of bone fragments in the entire range of axial loads applied to the damaged bone segment. Measurement of the load applied to damaged bone

0 segment can be carried out by, for example, floor scales, on which the patient becomes injured by the foot during measurements. Formulas

5 A device for determining the mobility of bone fragments, comprising a beam with threaded rods attached to it and a displacement sensor connected to measuring instruments, characterized in that, in order to improve accuracy

determining linear mobility of bone fragments, in it a displacement transducer is made in the form of a body with a spring-loaded axial sensing element and kinematically connected to the last pusher;

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mounted on adjacent threaded rods x installed in different fragments, the pusher and axial sensing element are parallel to the beam and the axis of the damaged limb segment.