RU2205610C2 - Device for carrying out bone osteosynthesis - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has plate with wavy profile. Convex surface is built in the central part of the plate and concave surface are in border area. Oval openings are made in surface areas adjacent to the concave surfaces longitudinally directed relative to plate edges. Straight lines passing through top points of convex and concave surfaces make an angle of 115-120 deg. EFFECT: accelerated rehabilitation treatment; reduced risk of postoperative complications. 6 cl, 3 dwg

Description

 The invention relates to medical equipment and can be used in traumatology for the treatment of fractures, nonunions, false joints, deformities of limb bones.

 A device for bone osteosynthesis is known, which is a rod with a series of elongated holes into which screws are inserted to attach the rod to the stabilized part of the bone (see US Pat. No. 5,041,113, “Bone Stabilization Device”, MKI A 61 B 17 / 56.17 / 58, German priority 07.20.89, publ. 08.20.91).

 An advantage of the known device is that the holes for the fixing screws are elongated. This ensures the mobility of the rod, which is important, because when the bones are fused, their ends are absorbed by 1-2 mm, and the muscles are tightened to eliminate the gap.

 This design provides mutual pressure of bone fragments on each other, which accelerates the fusion of broken bones. The known device is also inherent disadvantage. The location of the screw holes in one line does not interfere with the rotational displacement of the bones. As a result, the core can break through the holes, which slows down the fusion of the bone. Therefore, in addition to attaching to the bone, additional fixation with gypsum is necessary, which also lengthens the patient's rehabilitation period.

 A device for bone osteosynthesis is known, made in the form of a plate of rectangular cross section with screw holes and arcuate double recesses arranged alternately along the length and edges on the side of the plate contacting the bone (see RF patent 2093100 MKI A 61 B 17/80, claimed .21.07.93, publ. 20.10.97).

 The known device overcomes to some extent the disadvantage inherent in the above analogue. However, a rectilinear plate with its entire wide surface presses on a broken bone, causing circulatory disturbance and delaying the formation of a growth on the bone ("callus"). Due to the above, the likelihood of postoperative complications.

 The applicants believe that the device according to the patent of the Russian Federation 2093100 is the closest in essential differences and the achieved effect to the claimed invention, therefore, selected as a prototype.

 The technical result of the invention is to reduce the patient's rehabilitation period and reduce the likelihood of postoperative complications.

The technical result is ensured by the fact that in the device for osseous osteosynthesis containing a plate with holes for fixing screws, the plate has a wavy profile with the formation of concave surfaces along its edges, and a convex along the center, along which longitudinally made in areas adjacent to concave surfaces oriented oval holes for the fixing screws, and the angle formed by straight lines drawn from the top of the convex surface and the top of the concave surfaces is in the range of 115-120 ^o .

 In the device for bone osteosynthesis, oval holes form two parallel rows with the same distance of the holes from each other in each row.

 The device for bone osteosynthesis may have a central groove at one end of the plate or at both ends for the formation of petals.

 A device for bone osteosynthesis may have petals with a decrease in their cross section from the base to the ends.

 The device for bone osteosynthesis may have a plate longitudinally curved in accordance with the physiological curvature of the broken bone.

 Studies on patent and scientific and technical sources of information indicate that the proposed device for bone osteosynthesis is unknown and does not follow explicitly from the studied prior art, and therefore meets the criteria of "novelty" and "inventive step".

 The device can be manufactured in the industrial production of medical equipment using standard domestic or imported equipment, known materials and technologies.

 Thus, the proposed device meets the criterion of "industrial applicability".

 The proposed set of essential features informs the device for bone osteosynthesis of new properties that allow us to solve the problem.

 A wavy profile with the formation of a convex surface in the center of the plate and concave surfaces along its edges reduces the area of contact with bone fragments. A gap is created between the bone and the plate. Slight pressure of the device on the bone does not cause circulatory disorders and does not prevent the formation of "bone callus". In addition, the plate itself has increased rigidity due to concave surfaces along its edges.

 At the time of fusion, the ends of the bones dissolve by 1-2 mm, and the muscles are compressed, trying to eliminate the gap between the fragments. The holes for the fixing screws are oval, oriented longitudinally relative to the entire plate, provides its mobility. It does not interfere with the mutual pressure of fragments on each other, which accelerates bone fusion.

The straight lines drawn from the top of the convex surface and the top of the concave surfaces form an angle in the range of 115-120 ^o . The axes of the fixing screws in the opposing holes are also at this angle to each other, which prevents the rotational displacement of bone fragments. 115 ^o -120 ^o are the optimal limits of the angle, selected experimentally.

When the angle increases above 120 ^o decreases the gap between the bone and the plate, which contributes to the deterioration of the blood supply to the periosteum and slow down the process of fusion. In this case, the rigidity of the plate decreases and its deformation is possible, which can cause postoperative complications due to deterioration of the periosteum blood supply.

When the angle decreases to less than 115 ^{o, the} plate abuts against soft tissue, i.e. muscles, interfering with their work and lengthening the rehabilitation period.

A device for bone osteosynthesis is illustrated by drawings, which shows:
figure 1 - the inventive device, the main view;
figure 2 - the inventive device, side view;
figure 3 - the inventive device, a top view.

 The device comprises a steel or titanium plate 1 with oval holes 2, longitudinally oriented relative to its edges. Holes 2 form two parallel rows with the same distance of the holes from each other in each row. Depending on the length of the fused bone 3, the number of holes varies from 8 to 12. For the forearm, 8 is enough, for the humerus - 10 and for the thigh - 12.

 Plate 1 has a wavy profile: a convex surface 4 is formed in the center, and concave surfaces 5 that extend beyond the bone 3 are formed at the edges. Plate 1 can be curved longitudinally in accordance with the physiological curvature of the broken bone for a better fit to the latter.

 Touching the plate, if you look at figure 3, occurs at the two lower points (not indicated on the drawing) of the convex surface 4. Above these points are oval holes 2 through which the plate 1 is attached to the bone 3 with fixing screws (not shown in the drawing). The distance between the attachment points around the bone circumference is approximately 2/5 of its entire perimeter.

The angle formed by straight lines drawn from the top (not indicated in the drawing) of the convex surface 4 and the vertices (not indicated in the drawing) of the concave surfaces 5 is in the range of 115-120 ^° .

 To fix bone fragments near the joint, a central groove 7 is provided at one end of the plate 1. Thanks to the groove 7, two petals 8 are formed with one oval hole 2 each. The presence of the petals 8 facilitates the work with the plate 1, because it provides the convenience of folding on the expansion of the articular ends of the bone.

 The petals 8 are made beveled from the base to the ends, i.e. their cross section decreases in the indicated direction, which makes them more durable.

 If necessary, the petals 8 can be made at the two ends of the plate 1 by performing on each of the Central grooves 6, 7.

 If the broken bone 3 has a curvature, then use the plate 2, curved in the longitudinal direction in accordance with this physiological curvature.

 The proposed device for bone osteosynthesis is used as follows.

 Upon admission to the trauma unit of the clinic of a patient with a complex fracture of limb bones, a soft tissue incision is made and a portion of the broken bone 3 is exposed. A plate 1 is placed on the bone 3 and fixed with fixing screws, inserting them into the oval holes 2. The wound is sutured. From the first days, the patient begins to move, having a damaged limb.

 Periodically, approximately every month, an x-ray is taken of the stabilized area of bone 3. When the picture shows healing, the wound is opened and plate 1 with fixing screws is removed. Then the wound is sutured again. After several dressings and removal of sutures, the patient returns to his usual activities.

A device for bone osteosynthesis has several advantages:
- there is no decrease in muscle activity in the stabilized bone area, as no gypsum is applied;
- provides high reliability of the device due to stiffeners, eliminating the possibility of breakage of the plate;
- the morbidity of the treatment is reduced, because the plates do not break, and therefore, it is not necessary to open the wound once again to replace a broken plate;
- facilitates the operation, because plates due to stiffness do not break during installation;
- facilitates the comparison of fragments of broken bones during surgery due to the profile of the plate.

Claims (6)

1. Device for bone osteosynthesis, containing a plate with holes for fixing screws, characterized in that the plate has a wavy profile with the formation of concave surfaces along its edges, and a convex along the center, along which longitudinally oriented sections are made in areas adjacent to concave surfaces oval holes for fixing screws, and the angle formed by straight lines drawn from the top of the convex surface and the vertices of the concave surfaces is in the range of 115-120 ^o .  2. The device for bone osteosynthesis according to claim 1, characterized in that the oval holes form two parallel rows with the same distance of the holes from each other in each row.  3. The device for bone osteosynthesis according to claim 1, characterized in that at one end of the plate there is a central groove for the formation of two petals with one oval hole each.  4. The device for bone osteosynthesis according to claim 1, characterized in that at both ends of the plate there is a central groove for the formation of two petals with one oval hole each.  5. The device for bone osteosynthesis according to claim 3, characterized in that the petals are made with a decrease in their cross section from the base to the ends.  6. The device for bone osteosynthesis according to claim 1, characterized in that the plate is longitudinally curved in accordance with the physiological curvature of the broken bone.

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