RU2281714C2 - Rod apparatus for through-bone osteosynthesis - Google Patents

Abstract

FIELD: medicine; traumatology; orthopedics.

SUBSTANCE: apparatus has arcs with holes connected together by thread beams and reposition members made in form of arms fixed at arcs and provided with through-bone rods. Apparatus is equipped with reposition members made in form of thread rods with cylindrical bushing having smooth longitudinal channel and cut lateral holes. Through-bone rods are mounted in channels for rotation and axial movements and fixation with nuts. Thread ends of reposition units are placed for movement and fixation by nuts in holes of arms disposed onto internal surfaces of arcs of device.

EFFECT: improved reposition properties; improved efficiency of treatment.

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Description

The invention relates to medicine, is used in traumatology orthopedics for transosseous osteosynthesis of long tubular bones.

There are various devices used for this purpose, in particular the device most widely used abroad [1] for transosseous osteosynthesis. However, it has the following disadvantages: when the support pins are inserted into the bone fragments, the pins must be installed strictly parallel to each other with certain distances in terms of clamp size. In this case, technical difficulties arise associated with the installation of the apparatus and the duration of the operation is lengthened.

The rod analogue of transosseous osteosynthesis VV can serve as another analogue. Furdyuk [2]. The disadvantages of this apparatus are the design complexity, as a result of which there are difficulties in combining the threaded bushings of the fixation and reposition units located on the same axis on opposite sides of the apparatus.

Known apparatus V.V. Furdyuk [3] for transosseous osteosynthesis of long tubular bones, which includes an elongated frame with slots, on the parallel walls of which there are reposition and fixation nodes. In this case, the reposition units are made in the form of sliders with spacer threaded bushings and displacement nuts on the bodies of the sliders. Another disadvantage of this apparatus is the technical complexity of the design that occurs when the apparatus is installed.

The closest in technical solution to the claimed one is the Volkov-Hovhannisyan compression-distraction apparatus [4] adopted by us for the prototype for the reduction and osteosynthesis of long tubular bones. The apparatus includes brackets mounted on supporting bolts and connected by two side distractors and with special fixators. However, despite the advantage of this device compared to the above counterparts, it, in turn, also has a number of disadvantages. The device is bulky, which causes significant inconvenience to the patient. In addition, the operation is quite laborious, since the side distractors of the prototype apparatus are used during the operation only as reponators. The final fixation is carried out by connecting the brackets with threaded bolts, after which the side distractors are removed.

The invention consists in a combination of essential features sufficient to achieve the desired technical result, namely, to reduce the invasiveness of the operation, simplify it, and improve the repositional qualities of the apparatus, which increase the efficiency of surgical treatment.

This essence lies in the fact that the apparatus is equipped with reponentive nodes, each made in the form of threaded rods with a cylindrical sleeve with a smooth longitudinal channel and threaded transverse holes. In the channels of the cylindrical sleeve mounted with the possibility of rotational and axial movements and fixing transosseous rods, and the threaded ends of the reponentive nodes are placed with the possibility of movement and fixing by nuts in the holes of the brackets located on the inner surfaces of the arcs of the apparatus.

The mutually perpendicular arrangement of the threaded rods with a cylindrical sleeve passing through their channels of transosseous rods ensures, after preliminary rotation displacement, the absolutely accurate reposition of bone fragments in these planes. The drawing shows an apparatus for transosseous osteosynthesis.

The rod apparatus for transosseous osteosynthesis contains arcs 1 with holes interconnected by threaded rods 2. On brackets 3 mounted on the outer surfaces of the arcs 1 transosseous rods are placed 4. On the inner surfaces of the arcs 1 on the brackets 5 are installed reponentive nodes 6. Reponent elements, made in the form of brackets fixed on arcs and equipped with transosseous rods, are installed with the possibility of movement and fixation by nuts. The threaded ends of the repair nodes 6 are placed with the possibility of movement and fixing by nuts 7 in the holes of the brackets 5. In the channels of the cylindrical bushings 8 of the repair nodes 6 are mounted with the possibility of movement and fixing of transosseous rods 9. The working parts of transosseous rods in the drawing are immersed in bone models.

The apparatus is used as follows: after eliminating the rotational displacement of the fragments, the trocar is inserted to the bone through micro-incision, the stylet is removed, a channel is drilled through the tube to insert the transosseous rod 4 through both cortical layers. The transosseous rod 4 is fixed to the arch 1 using the bracket 3. Similarly, the transosseous rod 4 is mounted on another bone fragment. The second pair of transosseous rods 9 is introduced closer to the fracture line strictly parallel to each other. They are mounted reponent nodes 6, putting them on the holes located in the sliders 8, and fixed with nuts 7. The reponent nodes 6 by means of brackets 5 are fixed to the inner surface of the arcs 1. Arcs 1 are interconnected by means of threaded rods 2. Under x-ray control, reposition by the movement of the elements of the reparation nodes 6 with nuts in perpendicular directions, i.e. directly manipulating their threaded rods and transosseous rods 9. If the bone fragments are correctly positioned, they are brought closer to the compression by means of the threaded rods 2 connecting the arcs 1. To stabilize the achieved reposition, an additional transosseous rod is introduced into each fragment at an angle of 60 degrees to its axis, and transosseous rods 4 are fixed to the arcs using the brackets 3 on the outer surface of the arcs 1.

Information sources

1. Swiss patent No. 0684928, cl. A 61 B 17/60, 1995.

2. Furdyuk V.V. A.S. No. 1766390, A 61 B 17/60, 1993.

3.Furdyuk V.V. RU 2152190 C1, A 61 B 17/66, 23091998.

4. Tkachenko S.S. "Osteosynthesis" L. Medicine, 1987, - p.122-123.

Claims (1)

The rod apparatus for transosseous osteosynthesis, containing arcs with holes interconnected by threaded rods, and reponing elements made in the form of brackets fixed on arcs and equipped with transosseous rods, characterized in that it is equipped with reponentive nodes made each in the form of threaded rods with a cylindrical sleeve with a smooth longitudinal channel and threaded transverse holes installed in the channels, with the possibility of rotational and axial movements and fixation with nuts transosseous terzhni and threaded ends repositioned in nodes arranged movably and fixing nut holes in brackets, placed on the inner surfaces of the apparatus arcs.