RU2254088C2 - External fixation method applicable in treating clavicle fractures - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves setting two cantilever bar screws into metaphyseal and diaphyseal bone fragment regions in frontal plane in top-down direction in perpendicular to bone axis and in parallel to each other. The rods are rigidly attached to an external support.

EFFECT: reduced risk of traumatic complications; reliable fixation.

5 dwg

Description

The invention relates to medicine, in particular to traumatology and orthopedics, and is intended for fixation of bone fragments in the treatment of fractures of short tubular bones.

There are methods for treating fractures of short tubular bones by external transosseous osteosynthesis. For example, in the treatment of fractures of the metacarpal bones [1] in the proximal and distal metaphyses of the bone, two spokes are used from the rear-lateral radial and ulnar sides at an angle of 45 °. The angle between the knitting needles is 90 °. The rear ends of the spokes are fixed on the external support. Also known is a method of treating clavicle fractures [2], in which two spokes are inserted into each fragment at an angle to each other with a cross along the longitudinal axis of the clavicle, near its articular ends in a top-down direction. The proximal ends of the spokes are fixed on an external support. Then a manual reposition is performed by acting on external supports.

The disadvantages of this method of treating fractures of short tubular bones are:

- insufficient rigidity of fixation using knitting needles, which prevents the creation of stable osteosynthesis;

- the possibility of trauma to soft tissues with the risk of developing local inflammatory complications due to teething of the skin and bone around the spokes and the exit of the ends of the spokes from the bone to the fusion of fragments;

- the relative complexity of osteosynthesis due to the need for several spokes and pulling osteofixes before fixing on an external support;

- insufficient rigidity and stability of osteosynthesis makes it difficult to reposition the fracture.

We first proposed a method of external fixation in the treatment of fractures of short tubular bones, consisting in the fact that two cantilever screw rods with a self-cutting pointed end developed by us [3] are installed in the metaphysical and diaphyseal sections of the proximal bone fragment in the frontal plane in the direction from above down perpendicular to the axis of the bone, parallel to each other. The other two screw rods are inserted into the metaphysical and diaphyseal parts of the distal bone fragment in the frontal plane in a top-down direction perpendicular to the bone axis, parallel to each other. After reposition of the fracture, the screw rods are mounted on an external support made of multi-hole strips and a threaded rod using brackets. By moving the screw rods and multi-hole strips, the position of the bone fragments is controlled.

The proposed method of external fixation in the treatment of fractures of short tubular bones allows you to:

- to provide the greatest rigidity of fixation, and therefore, to create conditions for stable osteosynthesis through the use of rod cantilever fixing elements;

- to exclude the possibility of eruption and migration of osteofixers with the risk of damage to the neurovascular bundles and the development of local complications due to rigid and stable fixation;

- to simplify the technology of surgical intervention through the use of cantilever screw rods with a self-cutting pointed end, which are installed in the bone by screwing in the handle without using a drill and do not need to be tensioned before fixing on the external support;

- create a wide opportunity in the reposition of fragments: the movement of the cantilever screw rods and multi-hole slats allows you to eliminate the typical displacement of fragments along the length and width.

The proposed method of external fixation in the treatment of fractures of short tubular bones is shown in figure 1 (top view), where

1 - metaphysial division of the proximal fragment of the bone;

2 - diaphyseal section of the proximal fragment of the bone;

3 - metaphyseal section of the distal bone fragment;

4 - diaphyseal section of the distal bone fragment;

5 - rod installed in the metaphysical division of the proximal fragment of the bone;

6 - rod installed in the diaphyseal section of the proximal fragment of the bone;

7 - a rod installed in the metaphysical division of the distal bone fragment;

8 - a rod installed in the diaphyseal section of the distal bone fragment;

9 - brackets;

10 - multi-hole planks;

11 - threaded rod.

The method is as follows. Under general intravenous anesthesia after treatment of the surgical field, the skin is pierced above the upper surface of the metaphysical part of the proximal fragment of the bone. Install the screw-rod 5 in the anatomically safe area in the metaphysical section of the proximal fragment of the bone 1 in the frontal plane in the direction of top-down. The skin is pierced above the upper surface of the diaphyseal part of the proximal fragment of the bone inward from the previously installed fixative. Install the screw-rod 6 in the anatomically safe area in the diaphyseal section of the proximal fragment of the bone 2 parallel to the screw-rod 5 and perpendicular to the axis of the bone in the frontal plane in the direction from top to bottom. In the distal bone fragment, the rods are installed similarly to the rods 5 and 6. Pierce the skin over the upper surface of the metaphysical part of the distal bone fragment. Install the screw-rod 7 in the anatomically safe area in the metaphysical part of the distal fragment of the bone 3 in the frontal plane in a top-down direction perpendicular to the axis of the bone. The skin is pierced above the upper surface of the diaphyseal part of the distal bone fragment inward from the previously installed fixative. Install the screw-rod 8 in the anatomically safe area in the diaphyseal section of the distal fragment of the bone 4 parallel to the rod 7 and perpendicular to the axis of the bone in the frontal plane in the direction of top-down. The rods are attached using brackets 9 to external supports made of multi-hole strips 10 connected by brackets 9 and a threaded rod 11. Dosed movement of the supports and screw rods reposition the bone fragments. Elimination of the displacement of fragments along the length is carried out by moving the multi-hole strips 10 along the threaded rod 11. The shift of the fragments in width is eliminated by moving the screw rods relative to the brackets 9 and the multi-hole strips 10. The immobilization period is 4-6 weeks. Functional treatment is carried out at the same time.

The proposed method of external fixation in the treatment of fractures of short tubular bones is illustrated by the example of treatment of clavicle fracture.

Clinical example. Patient R., 43 years old, was admitted to the hospital with a diagnosis of "Closed transverse fracture of the right clavicle in the middle third with displacement of fragments." The diagnosis is radiologically confirmed (figure 2, before treatment). The patient underwent surgery: osteosynthesis of the right clavicle with a rod-type external fixation device. In the position of the patient on the back with a roller between the shoulder blades, general intravenous anesthesia after treating the surgical field pierced the skin over the upper surface of the metaphysical section of the proximal clavicle fragment. A cantilever screw-rod is installed in the metaphysical section of the proximal clavicle fragment in the frontal plane in the direction from top to bottom. The skin is punctured above the upper surface of the diaphyseal section of the proximal clavicle fragment inside of the previously fixed latch. A rod is installed in the diaphyseal section of the proximal clavicle fragment parallel to the previously fixed latch, perpendicular to the axis of the clavicle in the frontal plane in a top-down direction. The skin is pierced above the upper surface of the metaphysical part of the distal clavicle fragment. A cantilever screw-rod is installed in the metaphysical part of the distal clavicle fragment in the frontal plane in the direction from top to bottom. The skin is punctured above the upper surface of the diaphyseal section of the proximal clavicle fragment inside of the previously fixed latch. A rod is installed in the diaphyseal section of the distal clavicle fragment parallel to the previously fixed latch, perpendicular to the axis of the clavicle in the frontal plane in a top-down direction. The rods are fixed with brackets to an external support made of multi-hole strips connected by brackets and threaded rods (Fig. 3, during treatment, Fig. 4, view of the patient with the apparatus applied). Dosed movement of the supports and screw rods repositioned clavicle fragments.

In the postoperative period, the function of the left upper limb was not limited; physiotherapy and therapeutic exercises were performed.

The device is removed after 1.5 months. A strong fusion of bone fragments was achieved (Fig. 5, after treatment), and a favorable clinical anatomical result was obtained. During the treatment, no complications were observed: neither suppuration of soft tissues, nor eruption of fixatives.

Thus, the proposed method of external fixation in the treatment of fractures of short tubular bones allows you to:

- to provide the greatest rigidity of fixation and create conditions for stable osteosynthesis through the use of rod cantilever fixing elements;

- exclude the possibility of eruption and migration of osteofixers with the risk of damage to the neurovascular bundles and the development of local complications;

- to simplify the technology of surgical intervention by using screw rods with a self-tapping pointed end, which are installed by screwing in the handle without the use of a drill and do not need to be tensioned before fixing on an external support;

- eliminate typical displacements of fragments along the length and width by moving the cantilever screw rods and multi-hole strips.

Sources of information

1. Lee A.D. Transosseous osteosynthesis in traumatology, Tomsk, Tomsk University Press, 1992, p.115-120.

2. Lee A.D. Transosseous osteosynthesis in traumatology, Tomsk, Tomsk University Press, 1992, p. 48-53.

3. A.S. No. 2134081. "A core for external transosseous osteosynthesis"

Claims (1)

The method of external fixation in the treatment of collarbone fractures, carried out by external transosseous osteosynthesis using cantilever screw rods as osteo-fixators, characterized in that two screw rods are installed in the metaphysical and diaphyseal sections of the proximal clavicle fragment in the frontal plane in a top-down direction perpendicular to the axis bones parallel to each other and two screw rods into the metaphysical and diaphyseal sections of the distal bone fragment in the frontal plane in the direction of y-down axis perpendicular to the bone, parallel to each other, and the rods are rigidly secured to the external support.

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