RU2254090C2 - Fork plate for performing fractures and false joints osteosynthesis - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has plate with holes and fork-like fixing unit having two teeth. The teeth are arc-shaped along longitudinal relief of frontal surface of external clavicle one-third. The teeth divergent in planes parallel to each other for arrange external fractured bone fragment. Longitudinal part of the plate is S-shaped.

EFFECT: enhanced effectiveness of treatment; high multisplitter fracture fixation reliability.

4 dwg

Description

The invention relates to medical equipment, namely to traumatology and orthopedics, and can be used in surgical treatment of fractures and false joints of the clavicle.

A device is known - a 3.5 mm DCP plate - AO-ASIF systems (M.E. Müller, M. Allgover, R. Schneider, H. Willeneger. Guide to internal osteosynthesis. - Springer-Verlag. - Berlin -...- Moscow 1996. - p.434-435), which is placed on the front surface of the clavicle, simulating it along the curvature of this bone.

The disadvantage of the prototype is its low efficiency in the complicated surgical task: with a multi-fragmented fracture of the external third and the false joint with osteoporosis of the lateral fragment, as well as in obesity. With a comminuted fracture, the requirements for fixation are increased, and the place where the screws can be inserted is damaged. Usually one screw can be reliably delivered, and only in the absence of osteoporosis, and the rest are oriented to the fracture zone. An attempt to additional fixation in a plaster cast leads to the fact that the weight of the latter is added to the weight of the limb and only increases the overload of the screws and the external fragment. In obesity, the weight of the limb is large, and the plaster cast is even heavier. With a false joint, osteoporosis in the external fragment is inevitable, as a result of which the anterior and posterior cortical edges of the clavicle are greatly thinned, and if it is possible to place the screws, their fastening is unreliable and there is a risk of re-loosening and non-coalescence.

It is known "Device for osteosynthesis of fractures of the proximal end of the humerus", patent RU 2143862, containing a osseous plate with holes and a pair of teeth for insertion into the spongy pineal gland (that is, the forked fixing unit), selected as a prototype. Since the description claims the effect of higher stability of fixation of the spongy fragment (head) using a “fork”, we should expect its high efficiency when fixing the lateral (also spongy) end of the clavicle, and the size and shape of the plate are suitable for modeling the fixer according to S -shaped curved front surface of the clavicle as in the analogue. The disadvantages of this retainer are the shape of the teeth and the plate itself. When laying it on the external fragment in front, the teeth responsible for the main fixation are outside the bone, and the bending of the teeth (bringing them closer to each other) leads only to point contact with the surface of the bone. With a strong convergence of the teeth, in which it becomes possible to introduce them into the spongy acromial end, the damage to the latter is excessive, threatening a fracture along the hole with the tooth. The high curvature of the bending of the straight plate when fitting to the front surface of the clavicle threatens with excessively high residual stresses in the metal, especially with delayed consolidation, which is predictable with multi-fragmented fractures and pseudarthrosis.

The technical result of the present invention is to increase the reliability of fixation in a multi-fragmented fracture and a false joint with clavicle osteoporosis, as well as to reduce the invasiveness of the operation.

Elimination of the disadvantages of the prototype and analogues allowed us to create a universal internal fixative for any fractures and false joints of the clavicle.

The technical result is achieved by the fact that in the known device containing a osseous plate with holes and a fixing unit in the form of a “fork”, the teeth are made arcuately curved along the longitudinal relief of the front surface of the outer third of the clavicle and fan-shaped diverging in parallel to each other planes for placement of the outer fragment between them and the longitudinal part of the plate is curved S-shaped.

The significance of the distinguishing features is determined by the fact that:

1. The execution of a pair of teeth of the fork node arched curved along the longitudinal relief of the front surface of the outer third of the clavicle and fan-shaped diverging in parallel to each other planes changed the principle of fixation of the lateral fragment, on which a rather massive arm with a scapula “hangs”. When installing the retainer, this fragment is sandwiched between the planes of the teeth, which firmly hold it by the cortical surfaces near the acromial end. The orientation of the tooth planes turned out to be the most rational for counteracting the weight of the limb, and the contact of the tooth planes with the planes of the clavicle surfaces made it possible not to damage the bone at the place of maximum loads and even reduce the specific pressure of the metal on the cortical layer with increasing stability in general. The role of the screws in this part of the plate was reduced to auxiliary: to the prevention of bone slipping out of the gap between the teeth, therefore the load on them is minimal, and the risk of loosening is negligible.

All this led to the achievement of a more reliable fixation in comminuted fractures and pseudoarthrosis with damage to the fragment by osteoporosis due to a denser and less traumatic installation of the fixing node on the surface of the clavicle.

2. Since this fixative was created for a complicated surgical task (pseudoarthrosis and comminuted fractures), it should not lose strength during at least double consolidation time, which can be expected after a serious injury or nonunion. Due to the fact that the clavicle has a very pronounced bend, and the radius of the external curvature is quite small, an attempt to bend the retainer from a straight plate leads to the induction of dangerous metal stresses at the points of greatest bend (at the holes) and threatens the fatigue fracture of the retainer. The initial (factory) S-shape allows you to avoid dangerous metal stresses that occur during cold bending in the operating room. With this form, the surgeon only has to slightly bend the latch to fit individual forms, the differences between which are very small.

Achieving high fixation reliability allows more confident to conduct active movements for the prevention of contractures after severe fractures and functional treatment of existing contractures with pseudarthrosis.

The compliance of the technical solution with the criterion of "novelty" is determined by the absence in the prior art of an identical technical solution to achieve the claimed result.

Compliance with the criterion of "inventive step" was determined by the fact that this solution contradicts a known trend and therefore does not follow explicitly from the prior art, as well as the fact that the effect achieved by the proposed solution was discovered by chance by the applicant himself. To increase the reliability of fixation, traumatologists in one way or another “flash” a problem fragment with a fixative or use compression or a combination of them. On a porous, small, and overloaded lateral fragment in the presence of intermediate fragments, these mechanisms are ineffective. Coverage of the fixator of the tip of the peripheral fragment with a fork immediately solved several problems: a) final fixation (for which one screw is enough, but it is possible to put two and three), b) temporary fixation (the effect of the "bone holder" is highly appreciated by the surgeons for their convenience ), d) preservation of blood circulation in the fragment (it is not damaged by a fork and does not require skeletonization for its installation), e) reduction of the specific load on the bone affected by osteoporosis, e) preservation of all the advantages of the anterior location of the fixative. A side effect confirming the reliability of this fixation was the continued tight landing of the fork planes, observed when the retainer was removed from the fused clavicle, regardless of the type of pathology (pseudoarthrosis or comminuted fracture).

Compliance with the criterion of "industrial applicability" is determined by the effectiveness of the treatment of comminuted fractures of the clavicle and pseudarthrosis, characteristic of these forked devices, which supports the interest of Healthcare in them, as well as the willingness of the enterprise that made the prototypes to switch to mass production, for which it is advisable to obtain patent protection of a new development .

The drawings show:

Figure 1. Fork plate for osteosynthesis of fractures and false joints of the clavicle, front view.

Figure 2 Fork plate for osteosynthesis of fractures and false joints of the clavicle, side view.

Figure 3. Fork plate for osteosynthesis of fractures and false joints of the clavicle, top view.

Figure 4. Fork plate for osteosynthesis of fractures and false joints of the clavicle, in a perspective view of the bone.

Fork plate for osteosynthesis of collarbone fractures (Figs. 1-4) consists of a bone plate 1 with holes 2. In the part corresponding to the acromial end of the clavicle, two teeth 3 extend from it, forming a forked fixing unit (“fork”) 4. Prongs 3 curved along the longitudinal relief of the front surface of the outer third of the clavicle and fan-shaped diverge, smoothly passing in the plane of 5 teeth that are parallel to each other.

This device is used as follows. After performing surgical access and reaching the front edge of the clavicle, the planes of the teeth 5 are oriented in the direction of the upcoming insertion on the surface of the acromial end 6 and are put on the fragment with a certain effort. The plane of the teeth 5 in this case acts as a raspatory, making its way between the soft tissues and the bone. If there is a mismatch between the thickness of the fragment and the gap between the planes of the teeth 5, the latter is reduced or bred by 0.5-1 mm with tools. For final landing, the latch is pounded with a light hammer blow. The external fragment is fixed - sandwiched between the planes of the teeth of the retainer. Manipulating the fixator as a bone holder, reposition is carried out, the plate is placed on the front surface of the medial fragment and fixed with a screw. Compression - according to indications. Screws are inserted into the holes above the medial and lateral fragments (Figure 4). When suturing the wound, the fixator is covered with deltoid and pectoralis major muscles. In the postoperative period, limb function begins after cessation of postoperative pain. External immobilization is not indicated.

The device allows you to:

- in case of comminuted fractures and false joints of the clavicle, to increase the reliability of fixation by eliminating trauma to the spongy bone of the external fragment of the clavicle and tight fit of the forked fixing node on its intact cortical surface;

- reduce the specific load (pressure) on the cortical surfaces of a less durable lateral fragment;

- facilitate and accelerate the operation at the stage of fixation of the external fragment;

- minimize the intraoperative fitting of fixatives to the individual anatomy of the clavicle.

Claims (1)

Fork plate for osteosynthesis of fractures and false joints of the clavicle, containing the actual plate with holes and a fixing unit in the form of a fork consisting of two teeth, characterized in that the teeth are made curved along the longitudinal relief of the front surface of the outer third of the clavicle and fan-shaped diverging parallel to each other planes for placement of the outer fragment between them, and the longitudinal part of the plate is curved S-shaped.

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