RU2151565C1 - Compression-distraction device - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has two frames each composed of two arcs joined with threaded tie rods bearing holders with perosseous threaded rods fixed inside, rotation and reposition unit. The holders have semicircular and round holder members joined with a screw through central holes making an axle of relative rotation. One of the holders has threaded hole. Semicircular holder member has a displaced hole which axis is in perpendicular relation to holder rotation axis, two grooves symmetrically disposed relative to holder rotation axis. The round holder member has displaced channeled groove which axis is in perpendicular relation to holder rotation axis. Each frame arcs have angular values from 100 to 180 deg with smooth threaded holes and slots symmetrically spaced along the arc width on radius from 50 to 180 mm. One of the arcs of every frame has smooth holes only, to enable them to move under control along the threaded tie rods. Rotation unit has an arc with grooves, threaded and smooth holes, two cantilevers, threaded tie rod, check nuts. It is placed on the plane running in perpendicular to longitudinal axis of the device. EFFECT: provided displacements in three planes perpendicular relative to each other; reliable fixation in required position. 3 dwg

Description

 The invention relates to medical equipment for use in traumatology and orthopedics.

 Known compression distraction apparatus (KDA) [1] and [2], in which the fastening and movement of bone fragments is carried out using knitting needles. In devices [4], [5], [6] rods are used. An inconvenient condition is the introduction of the rods close to the same plane, as well as the insufficient rigidity of the fastening of the rods during the longitudinal movement of bone fragments.

 The prototype selected compression-distraction apparatus [3]. In this KDA it is impossible to change the dimensions of the movable and fixed frames, because half-arcs are rigidly connected by strips. Holders of bone retainers when moving in the longitudinal direction have insufficient rigidity, because it is possible to rotate the housing along the axis of the bolt securing the housing to the bar.

The proposed compression-distraction apparatus contains two frames, each of them consists of two arcs connected by threaded ties. These screeds are equipped with holders with transverse threaded rods fixed to them. Between the two frames, a rotation and reposition unit is installed. The holders are made in the form of semicircular and round holders, connected through central holes with a screw, which is the axis of mutual rotation, one of the holders has a threaded hole. The semicircular holder has an offset hole, the axis of which is perpendicular to the axis of rotation of the holder. At the end there are two grooves symmetrical about the axis of rotation of the holder. The round holder has an offset groove with corrugation, the axis of which is perpendicular to the axis of rotation of the holder. The arcs of each frame have angular values from 100 - 180 ^o with smooth and threaded holes and grooves symmetrically located along the width of the arcs at a radius of 50 - 180 mm. One of the arches of each frame has only smooth openings, with the ability to dosed move on threaded ties. The rotation unit consists of an arc with grooves, threaded and smooth holes, two brackets, a threaded coupler, fixing nuts and is located in a plane perpendicular to the longitudinal axis of the apparatus. The reposition unit consists of three threaded couplers and has three nuts on each coupler. One side of the screw ties is rigidly connected to one frame, the second side of the screw ties through smooth holes with two nuts is connected to the second frame.

 In FIG. 1 shows a compression-distraction apparatus, a general view. In FIG. 2 shows round and semicircular holders of transosseous threaded rods. In FIG. 3 shows a rotation and reposition unit and fragments of two frames. KDA contains two frames 1 and 5 (Fig. 1 and 3), interconnected by three threaded ties 2. Rotation and reposition unit 3. Threaded ties 4 with knurling. Holders round 6 and semicircular 7 (Fig. 1 and 2). Nuts 8 for fastening transosseous threaded rods 9 (Fig. 1). Screw 10 for attaching the holders to the knurled threaded ties (Fig. 1 and 2). Two brackets 11 (Figs. 1 and 3) included in the rotation assembly, two fixing nuts 12, a threaded coupler 13 and two nuts 14, allowing for the rotation of two frames. Two nuts 15 on each of the three threaded couplers provide reposition of two frames. Arcs 16, 17, 18, 19 and 20 form two frames and a rotation and reposition unit (Figs. 1 and 3).

 The holders (figure 2) are made in the form of a semicircular 7 and round 6 holders connected through central holes with a screw 10, which is the axis of mutual rotation. The semicircular holder 7 also has an offset hole, the axis of which is perpendicular to the axis of rotation of the holder, two grooves located at the end symmetrically with respect to the axis of rotation of the holder. The round holder 6 also has an offset groove with a corrugation, the axis of which is perpendicular to the axis of rotation of the holder, there is a thread in the central hole. Holders 6, 7 with transverse threaded rods 9 are mounted on threaded tie rods 4 with a knurled screw 10, along the groove with corrugation and one symmetrical groove. Transosseous threaded rods 9 (Fig. 1) are attached and moved with bone fragments and bone fragments in the transverse direction by means of two nuts 8.

Each of the frames 1 and 5 (Fig. 1 and 3) consists of two arcs, interconnected by several threaded couplers 4 with knurling, fixed by nuts or welding on one side. Arcs 16 and 17, 19 and 20, forming frames 5 and 1, respectively (Fig. 1 and 3), have angular values of 100 - 180 ^o with smooth, threaded holes and grooves symmetrically located along the width of the arcs at a radius of 50 - 180 mm. The arches 16 and 20 of each frame have only smooth holes and move metered along the threaded couplers 4 with knurling, providing universal use of the compression-distraction apparatus for the upper and lower extremities.

 The rotation and reposition unit 3 (Fig. 3) consists of an arc 18 with grooves, threaded and smooth holes, two brackets 11, a threaded tie 13 and two nuts 14. On one side, it is rigidly connected to frame 1 (Fig. 1) by three ties 2 and nuts 15, is connected to the frame 5 by two brackets 11, fixing nuts 12 and a bolt (not shown).

 The rotation of the frames 1 and 5 with each other is done by changing the length of the threaded part of the screed 13 with the help of nuts 14, fastening by tightening the fixing nuts 12. The rotation unit is located in a plane perpendicular to the longitudinal axis of the apparatus.

 Reposition of the frames 1 and 5 in the longitudinal direction is carried out by changing the length of the threaded part of the three threaded ties 2 using nuts 15.

 The procedure for applying KDA is as follows.

 In accordance with generally accepted bone landmarks, the limbs attach a normal axis, eliminating visible displacements. According to the latest radiographs, places of insertion of transosseous threaded rods are planned in such a way as to avoid contact with tendons, vessels and nerve trunks. To insert the transosseous threaded rods 9 (Fig. 1) into the bone, the skin in the intended place is dissected with a scalpel, soft tissues are pierced to the bone with a trocar (not shown), through which a hole is drilled into the bone with the drill included in the apparatus. The holes are drilled perpendicular to the axis of the limb and at the required angles in planes perpendicular to the longitudinal axis of the limb. Two or three transosseous threaded rods are inserted above the fracture, the assembled apparatus is mounted on them and fixed in the holders, forming a basic support. Then the limb is repaired and in the same sequence spend the required number of transosseous threaded rods below the fracture and fix them in the holders.

 Reposition of bone fragments is as follows. In the longitudinal direction, the distance between the frames 1 and 5 is changed by rotation of the nuts 15 on the screeds 2, they provide distraction or compression of bone fragments.

 In the transverse direction, transosseous threaded rods with bone fragments are moved using two nuts 8 (shown on one holder).

 To eliminate rotational displacements, turn the frame 1 relative to the frame 5 by moving the nuts 14 along the threaded coupler 13, fix with three nuts 12 (Fig. 3).

 Then, a radiography of the fracture area is performed in two mutually perpendicular planes and, taking into account the change in the image scale, the final displacement values of the bone fragments are determined. Next, reposition of bone fragments in metered quantities is performed.

 The proposed design of the KDA provides the introduction of transosseous threaded rods into bone fragments at any angle in planes perpendicular to the longitudinal axis of the apparatus, which increased the rigidity of the apparatus-bone system.

 Therefore, the lack of mutual displacement of bone fragments allows to reduce the treatment time. The design of KDA provides for metered movement of bone fragments in two mutually perpendicular directions and metered rotation in a plane perpendicular to the longitudinal axis of the apparatus, which allows more accurate combination of bone fragments and also reduce treatment time.

 It is possible to change the length of the apparatus in the longitudinal direction, which allows the use of KDA for patients of different heights in the treatment of fractures of bones of the upper and lower extremities, and compression or distraction of the bone can also be performed as necessary.

 The holders of the new design provide reliable fixation of transosseous threaded rods with bone fragments and bone fragments in a predetermined position, which eliminates the mutual displacement of bones at the fracture sites, while also reducing the duration of treatment.

 The round holder 6 (Fig. 2), due to the groove with a groove, mates with a threaded coupler 4 with a knurling and with one of two grooves on the semicircular holder 7, provides reliable fixation of the holder in a predetermined position. By positioning the groove on the round holder 6 above or below its axis of rotation, the holders can be removed or brought closer to the bone, and therefore the extension length of the transosseous threaded rod can be changed.

 The semicircular holder 7 (Fig. 2) has two symmetrical grooves, which allows you to move the transosseous threaded rod to the left or right, choosing a place and without damaging the nerves, blood vessels and tendons. The design of the holders round 6 and semicircular 7 is easy to handle, just tighten the screw 10 and ensure their reliable fixation on threaded couplers 4 with knurling.

 On arcs 16 and 20 (Fig. 3) there are smooth precise holes. On threaded couplers 4 with knurling on one side, threads up to 40 mm long. Due to the mating of the holes and screeds with a gap, the arches 16 and 20 are able to move along the thread between two nuts. In this case, the length of frames 1 and 5 changes, therefore, the length of the apparatus (KDA) changes. This ensures the versatility of using the device for patients of different sizes.

 Due to the combination of a groove and a smooth hole made in mating arcs 17 and 18 (Fig. 3), and installation of brackets 11 with minimal gaps in them, the rotation unit performs smooth and accurate mutual angular displacement of frames 1 and 5. The rotation angle is located in the plane perpendicular to the longitudinal axis of the apparatus, and the smooth movement of two nuts 14 along the threaded coupler 13 provide accurate, metered rotation of the frames 1 and 5. Therefore, bone fragments are more accurately combined.

 The combination of these technical solutions of the CDA ensure the movement of bone fragments in three mutually perpendicular planes and their reliable fixation in a given position, excluding mutual movement.

 Advantages of the claimed invention.

 1. Arcs 17, 18 and 19 (Fig. 3) have the necessary combination of smooth, threaded holes and grooves, which allow reliable fastening of threaded rods 4 with knurling and ensure a rigid structure of frames 1 and 5. In the rotation unit on the mating ends of arcs 17 and 18 (Fig. 3) there are no guides and additional holders. Their functions are performed by two brackets 11 and one bolt M6 located on the opposite end of the arcs 17 and 18 (in Fig. 3 the bolt is not shown). The brackets 11 and the M6 bolt are installed in a smooth hole, each in its own arc. The movement occurs along the grooves located on the arcs 18 and 17. It is enough to loosen the three nuts 12 (the third nut is located on the M6 bolt) and you can rotate the frames 1 and 5 with two nuts 14. Therefore, the design of the rotation unit is simple and consists of a minimum number of parts.

 2. The extreme arches 16 and 20 have only smooth holes and can be dosed to move along threaded couplers 4 with knurling between two nuts, therefore, the length of the apparatus changes.

 3. Structurally, the round holder 6 (Fig. 2) is made so that by positioning the groove on the round holder 6 above or below its axis of rotation, the holders can be removed or brought closer to the bone. Therefore, it is possible to additionally change the extension length of the transosseous threaded rod.

 4. The semicircular holder 7 (Fig. 2) is made so that using one of two symmetrical grooves, it is possible to move the transosseous threaded rod to the left or right, choosing the place of its installation and without damaging the vessels and tendons. Therefore, the design of the holders round 6 and semicircular 7 (Fig. 2) is universal and allows you to choose the best options for fastening transosseous threaded rods relative to the bone. Due to the two grooves and the offset groove with corrugation, both holders are securely fixed to the threaded couplers 4 with knurling through the central hole with screw 10. Their rotation and movement along the threaded couplers 4 with knurling are excluded.

Claims (1)

A compression-distraction apparatus containing two frames, each consisting of two arcs interconnected by threaded ties, on which holders are mounted with transverse threaded rods fixed to them, a rotation and reposition unit, characterized in that the holders are made in the form of semicircular and round holders connected through central holes with a screw that is an axis of mutual rotation, one of the holders has a threaded hole, a semicircular holder has a displaced hole, the axis of which is perpendicular axis of rotation of the holder, two grooves symmetrical with respect to the axis of rotation of the holder, the round holder has an offset groove with corrugation, the axis of which is perpendicular to the axis of rotation of the holder, the arcs of each frame have angular values of 100 - 180 ^o with smooth, threaded holes and grooves symmetrically located in width arcs with a radius of 50 - 180 mm, one of the arches of each frame has only smooth holes with the ability to move metered along threaded couplers, the rotation unit consists of an arc with grooves, threaded and smooth holes, two cro mattes, threaded coupler, the locking nut and situated in a plane perpendicular to the longitudinal axis of the apparatus.

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