RU184520U1 - ANGLE CARBON FOR DEROTATIONAL OSTEOTOMIES OF LONG TUBULAR BONES - Google Patents

Abstract

The utility model relates to medicine, namely to traumatology and orthopedics, and can be used to perform measurements when performing derotational osteotomy of long tubular bones. Goniometer for derotational osteotomy of long tubular bones containing fixation elements on the bone and a linear scale, characterized in that the goniometer has two proximal and one distal shaft; at the same time, one end of each rod has an external thread for fixation to the bone, the other end has a rectangular groove for placing and fixing the strap in it with a screw through a hole in the upper part of the groove; in two grooves of the proximal rods there is a curved bar with a hinge; a straight bar is located in the groove of the distal shaft; straight and curved slats have rectangular grooves with holes in the upper parts for fixing between them with the help of graduated level screws with a scale from 0 to 180 °.

Description

The utility model relates to medicine, namely to traumatology and orthopedics, and can be used to perform measurements when performing derotational osteotomy of long tubular bones.

A device is known for measuring the angle between planar anatomical formations, containing an axis and rods that are rigidly mounted in the couplings, the rods being joined by plates installed at their ends, and a protractor (1) placed on the coupling of the middle of the three rods.

The disadvantage of this tool is that it cannot be used intraoperatively.

Known orthopedic goniometer, which contains a transparent ball half filled with an opaque liquid; angular scales are plotted on the surface of the ball along the meridians in mutually perpendicular planes, and a third angular scale is installed at the equator, which is connected to the probe with a bracket using a bracket. The ball is mounted to rotate relative to the third angular scale (2).

The disadvantage of the tool is the complexity of its design, the inability to use to hold bone fragments.

Known protractor for orientation of bone fragments, containing a rack with a linear scale, fixation elements on the bone and located on the rack protractor with a graduated scale (3). We took this protractor as a prototype.

The disadvantage of the tool is the narrow focus of its use for measurements during deformations of the proximal femur. Moreover, the instrument does not intraoperatively retain fragments, and therefore the accuracy of measuring and performing osteotomy is lost.

The purpose of the utility model is to create a protractor for derotational osteotomies of long tubular bones.

This goal is achieved in that the goniometer has two proximal and one distal shaft; at the same time, one end of each rod has an external thread for fixation to the bone, the other end has a rectangular groove for placing and fixing the strap in it with a screw through a hole in the upper part of the groove; in two grooves of the proximal rods there is a curved bar with a hinge; a straight bar is located in the groove of the distal shaft; straight and curved slats have rectangular grooves with holes in the upper parts for fixing between them with the help of graduated level screws with a scale from 0 to 180 °.

The proximal and distal rods have an external thread that allows them to be firmly fixed to the bone.

The rods have rectangular grooves with holes in the upper parts, for reliable fixation of straight and curved planks in them with screws.

The presence of grooves makes it possible to stabilize the goniometer, thereby avoiding the displacement of fragments after osteotomy and loss of correction at the time of osteosynthesis.

The presence of a hinge on a curved bar allows the displacement of bone fragments after osteotomy in different planes. The graduated curved bar has a scale from 0 to 180 °, which ensures the accuracy of measurements at the time of torsion of the fragments after performing the osteotomy.

The goniometer has two proximal and one distal shaft; at the same time, one end of each rod has an external thread for fixation to the bone, the other end has a rectangular groove for placing and fixing the strap in it with a screw through a hole in the upper part of the groove; in two grooves of the proximal rods there is a curved bar with a hinge; a straight bar is located in the groove of the distal shaft; straight and curved slats have rectangular grooves with holes in the upper parts for fixing between them with the help of graduated level screws with a scale from 0 to 180 °.

The device is illustrated with graphic material. The figure 1 shows the assembled goniometer mounted on the femur. The proximal rods 1, the distal rod 2, the grooves 3 and the screws 4 of the proximal rods 1 and the distal rod 2 are shown; curved strip 5 with hinge 6; straight bar 7; graduated bar 8, fixed by screws 9 in the grooves 10 of the curved bar 5 and the straight bar 7.

The device is used as follows. Skeletonize the bone. Intraoperatively mark the osteotomy zone. Using a drill on the front surface along the bone axis, two channels are drilled under the external thread of two proximal rods 1 proximal to the osteotomy zone, and one channel under the external thread of the distal rod 2 is distal to the osteotomy zone. Install the rods in these channels. In rectangular grooves 3 with screws 4 of the proximal rods, a curved bar 5 with a hinge 6 is drawn. Through a groove 3 with a screw 4 of the distal rod 2, a straight bar 7 is drawn. Through grooves 10 with the screws 9 of the straight bar 7 and curved bar 5, a graduated bar 8 with marks from 0 ° to 180 °, placing it along the line of osteotomy. The movement of the slats in the grooves occurs as a slide mechanism. Using an oscillation saw, a bone osteotomy is performed. Focusing on the graduated bar 8 of the protractor, the distal fragment is detorsed by the required number of degrees. The goniometer is stabilized by fixing the straight bar 7 and the curved bar 5 in the grooves 3 with screws 4, and fixing the graduated bar 8 in the grooves 10 with the screws 9 of the curved bar 5 and the straight bar 7. Osteosynthesis of the bone is carried out. Remove goniometer elements. Check the stability of osteosynthesis.

A clinical example of using the developed protractor.

Patient K., 15 years old, was admitted to the Clinic of Samara State Medical University with a diagnosis of Congenital dislocation of the right patella of a severe degree. The operation was performed - corrective derotation osteotomy n / 3 of the right femur using this goniometer. There were no intraoperative complications - the elements were installed easily and the goniometer was mounted, the internal distal fragment of the femur was accurately rotated internally and its osteosynthesis was performed without loss of correction, the goniometer elements were easily removed.

This tool is possible and appropriate to use in trauma and orthopedic hospitals for performing derotational osteotomy of long tubular bones.

INFORMATION SOURCES

1. RF patent №2299677, authors: Ananiev N.I. (RU), Volkov A.N. (RU), Yakovlev V.A. (RU), Volkov Z.N. (RU)

2. USSR patent No. 1664283 authors: Kulish N.I. (USSR), Tankut V.A. (USSR), Gapochenko V.D. (USSR),

3. RF patent No. 2004208 dated 12/15/1993 "An angle gage for the orientation of bone fragments", authors: Akhtyamov I.F (RU), Kulik ON. (RU).

Claims (1)

Goniometer for derotational osteotomy of long tubular bones containing fixation elements on the bone and a linear scale, characterized in that the goniometer has two proximal and one distal shaft; at the same time, one end of each rod has an external thread for fixation to the bone, the other end has a rectangular groove for placing and fixing the strap in it with a screw through a hole in the upper part of the groove; in two grooves of the proximal rods there is a curved bar with a hinge; a straight bar is located in the groove of the distal shaft; straight and curved slats have rectangular grooves with holes in the upper parts for fixing between them with the help of graduated level screws with a scale from 0 to 180 °.

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