RU2633471C1 - Retainer for rib osteosynthesis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to thoracic surgery. The retainer for rib osteosynthesis is made in the form of an elongated plate having paired grips along the longitudinal edges to cover the ribs, and longitudinally located openings in the middle part. The plate is made of a shape-memory material. The openings are made in the form of rectangular windows, the middle of which are designed to visually monitor the position of the fracture line, and tongues are made in the outer windows for placement in bone openings. The bases of the tongues are located on the side of the short ends of the plate.

EFFECT: minimization of manipulation in the wound when fixing the retainer and excluding repeated surgical intervention due to lack of residual diastase.

5 cl, 3 dwg, 2 ex

Description

The invention relates to medicine, in particular to thoracic surgery.

In case of fracture of the ribs as a result of trauma or resection with torocular access to the organs of the chest, it becomes necessary to fix bone fragments to ensure subsequent osteosynthesis.

For these purposes, various types of plates are used, which are fixed on the ribs using bone screws / "Guide to internal osteosynthesis", M. Muller et al., Moscow, 1996 /. However, this method has several disadvantages, firstly, the ribs have a small thickness (4-8 mm), and therefore the screw introduced into them is not able to provide reliable fixation of the plate. Secondly, the need for a reliable connection of the screw head and plate forces to increase the thickness of the latter, which increases the injury of soft tissues and the risk of protrusion. In addition, increasing the thickness of the plate increases its rigidity, which leads to difficulties in adapting the shape of the plate to the shape of the ribs.

Known fixers (RF Patent No. 2465859), representing a plate with a thickness of about 1 mm with grips located on the sides of the plate and longitudinally located holes in its middle part. Such a latch is placed along the outer surface of the rib symmetrically with respect to the fracture line. The grips cover the rib and with a special tool are bent along the inner surface of the rib. The small thickness of the plate makes it easy to bend it in all directions, adapting to the shape of the ribs. Bent grips hold the latch quite well, preventing its migration.

However, in this design, taken as a prototype, there are a number of disadvantages. First, the bending of the retainer clamps by the rib requires a special power tool, which is difficult to manipulate in the wound. Secondly, the natural elasticity of the retainer material (usually a titanium alloy) does not allow the creation of compression gripping on the edge. The latch can slip along the rib, and therefore, during functional loads, diastasis can occur between fragments of the rib, fraught with the formation of a false joint and the need for repeated surgical intervention.

The present invention is the development of a latch, providing ease of installation and reliability of fixing fragments of the ribs.

The technical result of the invention is to minimize manipulation in the wound when installing the fixator and the exclusion of repeated surgical intervention due to the absence of residual diastasis.

The problem is solved due to the fact that the clamp for osteosynthesis of the ribs is made in the form of an oblong plate having paired grippers along the longitudinal edges to cover the ribs, and in the middle part there are longitudinally located holes, the plate made of material with shape memory, the holes are made in the form of rectangular windows, the middle of which are intended for visual control of the position of the fracture line, and in the extreme windows languages are made for placement in the holes of the bone, and the bases of the tongues are located on the side s short ends of the plate.

The lock is made of an alloy based on titanium nickelide with a temperature of restoration of the form below 36 ° C.

In the working position, the grips are bent for tight pressing against the ribs, and the tongues are bent from the plate towards the bend of the grips and abut against their ends against the walls of the holes in the bone to the center of the plate.

The plate may be curved in the form of a joined rib.

Captures have at least four pairs.

The use of such a clamp is based on the manifestation of the shape memory effect when the grips are unbent using clamps when cooled to a certain temperature (M _H ), so that their ends are approximately parallel. Tongues in the extreme windows are bent so as to become perpendicular to the surface of the plate. In this state, the grips can easily be inserted behind the fragments of the ribs so that the latch plate fits snugly against the surface of the ribs. In this case, the free ends of the tongues in the holes on the plate should fall into the pre-prepared channels on the rib. This can be easily done using a drill or an awl using a special jig. After installation on the rib, the retainer is heated by body heat or irrigated with warm saline to a temperature A _K , at which the retainer grips tend to return to their original shape and securely cover the ribs. Due to the fact that the rib exceeds the size of the initial grip coverage, the latter create some constant compression on bone fragments, providing reliable fixation of the implant. The tongues in the holes on the plate exert constant compression along the fracture line, providing conditions for its quick fusion and protection from residual diastasis, which can occur during bending functional loads. At the same time, the middle windows allow visual monitoring of the position of the fracture line.

To further reduce the number of manipulations in the wound when installing the latch, it is necessary that the material with the shape memory of which the implant is made has a temperature of the end of restoration of form A _K not higher than 36 ° C. In this case, forced implant heating with warm saline is not required. In this case, it is desirable that the cooling temperature before deformation of the lock was above 0 ° C. In this case, as a cooling medium, you can use sterile physiological saline, previously cooled in a refrigerator and not use refrigerants such as liquid nitrogen or chloroethyl with a cooling temperature well below 0 ° C.

In FIG. 1 shows a latch, where 1 is a plate, 2 is a window, 3 is a gripper, 4 is a tongue.

Before installing the latch on the rib in the cooled state, the grips (3) are unbent and the tongues (4) are bent, as shown in FIG. 2. After installing the ribs on the connected fragments and heating to body temperature, the grips and tongues tend to return to their original form. In this case, the grips are fixed on the fragments of the ribs, ensuring their correct reposition along the plate (1), and the tongues, resting on the walls of the bone canals, create compression on the fracture line (Fig. 3, where 5 are bone fragments of the rib, 6 is the bone canal). This compression will prevent the occurrence of diastasis during bending of the ribs during functional movements (breathing, turning and tilting the body).

Example 1

Patient M. was admitted with a fracture of the middle part of 4 and 5 ribs on the left as a result of a car accident. For osteosynthesis of the ribs, clamps were used, made of an alloy sheet based on titanium nickelide (TH1) 1.2 mm thick with 4 pairs of hooks on a 60 mm long plate. In each extreme hole of the plate there were tongues with a width of 3 mm (at the base) to 1 mm (at the end). In the cross section of the retainer, the plate and grips formed an oval with a maximum size of 14 mm and a minimum of 8 mm. After cooling in a cold (+ 5 ° C) sterile solution, the grippers were extended using a needle holder so that their ends were parallel to each other. In this case, the maximum diameter of the oval increased to 20 mm, which made it easy to position the retainer on the fragments of the rib. Also, using the needle holder, the tongues were bent so that their ends were perpendicular to the middle part of the plate. In accordance with the distance between the ends of the tongues on the fragments of the ribs, holes were prepared with a drill with a diameter of 1.5 mm. The holes were prepared at approximately equal distance from the fracture line. The clips thus prepared were positioned on the ribs. The tongues of the fixators were placed in the bone canals, and the grips were wound beyond the upper and lower edges of the fragments of the ribs. To accelerate the restoration of the shape of the clamps, they were irrigated with a warm (+ 40-45 ° C) sterile solution, starting from the grips and ending with the tongues. When the shape was restored, the grips covered fragments of the ribs, and the tongues rested on the edges of the bone canals located closer to the fracture line. The fixation of the ribs, which was determined by smooth pressure on the fragments of the ribs, was quite reliable. Visual monitoring of the fracture line through the middle hole showed the absence of diastasis.

X-ray studies 3 months after surgery showed osteosynthesis of the ribs. The latch does not interfere with the functional movements of the chest and does not cause any unpleasant sensations in the patient.

Example 2

Patient T. was admitted with a double fracture of the 6th rib from falling onto a solid object. Clamps were prepared similar to the previous case, but with a larger oval cross-section (18 mm) in accordance with the size of the broken rib. The installation sequence differed only in that the clamps were installed sequentially on one edge, and two bone channels were made on the middle part of the fragment for introducing the languages of the two clamps. After heating with a warm sterile solution, the fixators ensured the correct reposition of the rib fragments and their reliable retention. Control x-rays 3 months after the operation confirmed the osteosynthesis of the ribs in the correct position. The functioning of the chest is normal.

Thus, the proposed latch provides ease of installation, because It does not require a special tool, reliably fixes bone fragments and eliminates the occurrence of diastasis, which reduces the risk of repeated surgical intervention.

Claims (5)

1. The latch for osteosynthesis of ribs, made in the form of an oblong plate having paired grips along the longitudinal edges to cover the ribs, and in the middle part there are longitudinally located holes, characterized in that the plate is made of material with shape memory, the holes are made in the form of rectangular windows, the middle ones are intended for visual control of the position of the fracture line, and in the extreme windows tongues are made for placement in the holes of the bone, and the bases of the tongues are located on the side of the short ends of the plates . 2. The retainer according to claim 1, characterized in that it is made of an alloy based on titanium nickelide with a temperature of restoration of the form below 36 ° C. 3. The latch according to claim 1, characterized in that in the working position, the grips are bent for tight pressing against the ribs, and the tongues are bent from the plate towards the bend of the grips and abut against their ends against the walls of the holes in the bone to the center of the plate. 4. The retainer according to claim 1, characterized in that the plate is curved in the shape of a rib. 5. The latch according to claim 1, characterized in that the grippers have at least four pairs.

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