RU216076U1 - Pin and pin apparatus for external fixation of femoral fractures in dogs of medium and large sizes - Google Patents

Abstract

The utility model relates to the field of veterinary medicine, in particular, it is intended for the treatment of injuries of domestic animals, in particular for the treatment of injuries of the femur of dogs of medium and large breeds using devices located around the bone with fixation of bone fragments in the desired position. The technical result of the claimed utility model is to provide a sufficiently clear reposition and stable fixation of bone fragments in fractures of the leg bones in small animals, due to structural elements adapted to the anatomical features of the lower limbs of small animals. The claimed technical result is achieved due to the fact that the apparatus for external fixation of fractures of the femur consists of two arcuate half-rings with holes connected by threaded distractors, while transosseous pins are placed on the inner surfaces of the half-rings, and the upper half-ring has a larger diameter than the lower one, and immersion screw pins are fixed on the brackets on the outer surface of the upper half ring. The use of the claimed device for external fixation of femoral fractures makes it possible to fulfill the rules of the "gold standard" of external fixation devices, laid down by the founder of the method, G.A. Ilizarov: 1) rigidly fix bone fragments; 2) manage the process of osteogenesis throughout the treatment (the ability to apply compression-distraction efforts to control the growth of the regenerate), which allows the use of this technique in animals from 6 months.

Description

The utility model relates to the field of veterinary medicine, in particular, it is intended for the treatment of injuries of domestic animals, in particular for the treatment of injuries of the femur of dogs of medium and large breeds using devices located around the bone with fixation of bone fragments in the desired position.

Today, splinting with an external fixation device is known and is already widely used, which transfers the forces acting on the bone from the distal to the proximal main fragment, as well as splinting with a support plate of a multi-fragment fracture, the fragments of which are too small for osteosynthesis with screws. On the base plate, the forces acting on the bone are transmitted from the distal to the proximal fragment, bypassing the fracture area (Hans G. Niemand, Peter F. Suter. Diseases of dogs. A practical guide for veterinarians. 8 ed. / Translated from German. - M .: "Aquarium", 1998 - 816 p.). However, it is far from always possible to achieve an accurate reposition of bone fragments by splinting.

A rod apparatus for osteosynthesis of the tibia with reposition nodes is known (RF Patent No. 2354323, publ. 10.05.2009, Bull. No. 13). The rod apparatus for transosseous osteosynthesis contains rings with holes connected to each other by threaded rods. Transosseous rods are placed on brackets with a threaded hole at the base, mounted on the inner surfaces of the rings and fixed to the ring with bolts. Brackets with threaded holes at the base are fixed to the rings with bolts. Repositioning nodes are installed on the inner surfaces of the middle rings. The reconstructing elements are made in the form of brackets with a threaded hole at the base, fixed on the rings with the help of bolts and equipped with threaded rods with a bushing, in the longitudinal channels of which transosseous rods are installed with the possibility of rotational and axial movements and fixation with nuts. The threaded ends of the repositioning units are movable and fixed with nuts in the holes of the brackets placed on the inner surfaces of the middle rings. Transosseous rods placed on the inner surfaces of the middle rings are installed in the longitudinal channels of the cylindrical bushings of the repairing units with the possibility of movement and fixation.

The disadvantage of this design is the limitation of "anatomical corridors" for the introduction of pins and transosseous rods for fixing bone fragments. Many comminuted, helical fractures on the leg segment require other methods of fixation.

Known apparatus for the treatment of injuries and diseases of the femur of animals, containing a proximal arcuate, middle and distal closed rounded supports connected by threaded distractors, pairwise fixed on the supports bone retainers in the form of crossed spokes and rods, as well as fastening elements. The spokes fixed on the middle support have a smaller angle of decussation than on the distal one, and the rod retainers are installed on opposite sides of the plane of the arcuate support with a decussation in two mutually perpendicular planes. The contour of the middle and distal supports is homotopically similar to the contour of the transverse section of the animal's thigh at the level of the intertrochanteric region, and the proximal arcuate support is congruent to the middle and distal ones, minus the segment homotopic to the inner part of this contour (Patent No. 14122, RF. Published on July 10, 2000. Bull. No. nineteen).

However, a significant disadvantage of this device is that the support function of this design does not allow sufficient control of the process of osteogenesis throughout the treatment of the animal. The rods reinforced with a rigid version do not allow creating compression-distraction forces, which limits the age limits for the application of this method. For animals up to 12 months old (with incomplete osteogenesis), this technique is not rational.

The technical result of the claimed utility model is to provide a sufficiently clear reposition and stable fixation of bone fragments in fractures of the femur in dogs of medium and large breeds, due to structural elements adapted to the anatomical features of the lower limbs of small animals.

The claimed technical result is achieved due to the fact that the device for external fixation of fractures of the femur consists of two arcuate half-rings with holes connected by threaded distractors, while transosseous pins are placed on the inner surfaces of the half-rings, and the upper half-ring has a larger diameter than the lower one, and on the outer surface of the upper half-ring, immersed screw pins are fixed on the brackets.

In FIG. 1 shows the external view of the pin apparatus for external fixation of femoral fractures (top view); in fig. 2 front view and in Fig. 3 is a rear view of the layout of the external fixation device.

The needle-pin device for external fixation of femoral fractures consists of two arcuate half rings 1 and 2 connected by threaded distractors 3. Holes 4 are made in the half rings 1, 2, evenly along the entire length of the half rings 1 and 2. On the inner surfaces of the half rings 1, 2 , transosseous spokes 5 are placed, fixed with bolts 6. The upper half ring 1 has a larger diameter than the lower 2, due to the anatomical narrowing of the size of the animal's thigh closer to the knee joint. On the outer surface of the upper half-ring 1, on the brackets 7, submerged screw pins 8 are fixed. The brackets 7 are fixed to the outer surface of the upper half-ring 1 with the help of bolts 9.

The apparatus is used as follows. At least one pair of spokes 5 is passed through each fragment, the intersection of which is placed in the bone, while one pair of spokes placed on the lower half ring 2 of the apparatus is placed at a level just above the knee joint in the strongest part of the femur. The larger half-ring 1 is located closer to the site of damage and corresponds to the middle third of the thigh (slightly lower or slightly higher than the anatomically calculated middle of the bone) also with one pair of crossed spokes 5. One or two screw pins 8 are attached to rigid fixation elements from the classic set of apparatus Ilizarov and are conducted into the bone monolaterally from the outer surface of the thigh at different levels or in different directions.

The use of the claimed device for external fixation of femoral fractures makes it possible to fulfill the rules of the "gold standard" of external fixation devices, laid down by the founder of the method, G.A. Ilizarov: 1) rigidly fix bone fragments; 2) manage the process of osteogenesis throughout the treatment (the ability to apply compression-distraction efforts to control the growth of the regenerate), which allows the use of this technique in animals from 6 months.

Claims (4)

1. Apparatus for external fixation of fractures of the femur in medium and large breeds of dogs, consisting of two arcuate half-rings with holes connected by threaded distractors, and transosseous pins are placed on the inner surfaces of the half-rings, while the upper half-ring has a larger diameter than the lower one, and immersion screw pins are fixed on the brackets on the outer surface of the upper half ring, while one pair of spokes for the femur at the level above the knee joint can be placed on the lower half ring of the apparatus, and one pair of spokes can be placed on a larger half ring, which can be located in the middle thirds of the thigh, while two screw pins can be located in the bone from the outer surface of the thigh at different levels. 2. Apparatus according to claim 1, characterized in that the holes in the arcuate half rings are made evenly along the entire length of the half rings. 3. Apparatus according to claim 1, characterized in that the transosseous pins on the inner surfaces of the half-rings are fixed with bolts. 4. Apparatus according to claim 1, characterized in that the brackets are fixed to the outer surface of the upper half ring with bolts.

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