RU2676653C1 - Method for producing of osteoarthrosis model of rabbit knee joint of traumatic genesis - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medicine, in particular to clinical and experimental traumatology and orthopedics, and can be used to simulate the post-traumatic osteoarthritis of the knee joint of a rabbit. After a layered linear incision made perpendicular to the articular gap of the knee joint, the tendon of the superficial pes anserinus is extracted and traversed from the medial side, substitute arthrotomy is carried out. In the area of the medial condyle of the tibia, subperiosteal dissection is performed. Chisel out a section of bone with a thickness of 5 mm and an area of 1 cmwith access to the articular surface. In the middle of the length of this area, transverse osteotomy is performed and the area is divided into proximal and distal segments. Distal segment is removed. Proximal segment is implanted in the distal direction by directly driving it along the axis of the tibia and clamping it between the branches of the surgical clamp. Wound is sutured in layers, without seizing the tendon of the goose foot in the suture.EFFECT: method provides an increase in the reproducibility of the pathological process due to the destabilization of the knee joint, the malnutrition of the articular cartilage and the traumatic impact on the articular hyaline cartilage.1 cl, 6 dwg, 1 ex

Description

The invention relates to medicine, namely to clinical and experimental traumatology and orthopedics, and is intended to study post-traumatic osteoarthritis of a large joint by modeling gonarthrosis in a rabbit.

The high rates of development of traumatology and orthopedics, the collaboration of medicine with the natural sciences provide ample opportunities for introducing new bone-substituting materials into practice. However, their use requires experimental justification. And at the first stage of the experiment, artificial modeling of pathological processes of the osteoarticular apparatus, (post-traumatic osteoarthritis in particular), as close as possible pathogenetically to those in humans, is necessary.

A known method of creating a model of deforming arthrosis of the knee joint in animals (E. N. Bellendar, GD Nakonechny. Modeling deforming arthrosis of the knee joint in the experiment and some aspects of its application. Orthopedics, traumatology and prosthetics, 1973. B. No. 8, p. . 36-37), which consists in the fact that a rabbit is injected into the knee joint, under the patella, with 0.5 ml of 10% suspension of surgical talcum powder in saline, resulting in degenerative changes in the joint.

The disadvantages of this method include the duration of the formation of deforming changes that develop mainly in the femoral-patellar region of the joint. And due to the introduction of talc, which in this case is a foreign body, such a model will not be physiological and not close to real conditions.

A known method of modeling degenerative-dystrophic changes in the joint of an animal, which consists in the fact that within three days they carry out longitudinal compression of the bones that form the joint, equal to 2-3 times the body weight of the animal, using the compression method in the apparatus of external fixation (A.S. No. 1587568, publ. 23.08.1990, Bull. No. 31), resulting in a deforming arthrosis of the knee joint.

The disadvantage of this method is the non-physiological method, due to the deformation of the articular surfaces of the bones due to high compression. Another disadvantage of this method is local pressure on the articular cartilage, which eliminates the violation of the blood supply to all components of the knee joint, excluding the destruction of subchondral bone from pathogenesis.

A known method of modeling a destructive-dystrophic process in a joint in an experimental animal (A.S. No. 1622899609, publ. 23.01.91, Bull. No. 3), which consists in violating the tribological properties of the cartilage and creating its discongruence by introducing finely divided bone chips into the joint 2% solution of novocaine. As a result of this, cartilage destruction occurs, which leads to the development of degeneration and atrophy of the articular surfaces.

However, the disadvantage of this method is the possibility of the development of infectious and inflammatory complications due to the fact that bone chips are a foreign body. In addition, the direct effect of the physical factor on the contacting surfaces of the joint does not correspond to the clinical course of the pathological process.

A known method of forming a model of osteoarthritis of the knee in a rabbit (VD Makushin, MA Stepanov, TA Stupina. Modeling of osteoarthritis of the knee. Patent of the Russian Federation No. 2452999 from 10.06.12). This method consists in isolating the femoral artery trunk at the level of the middle third and ligation with synthetic thread in two places, crossing the artery between the ligatures and immobilizing the joint for 28 days. Moreover, the articular departments of the animal are fixed in a state of bending at an angle of 40 ° by an apparatus, external fixation.

The disadvantage of this method is the high risk of developing gangrene of the hind limb of the rabbit. Also, this method eliminates damage to the synovial membrane of the joint with a violation of the composition of the synovial fluid, which is the main source of nutrition for articular cartilage. This model is carried out in conditions of complete immobilization, which does not always correspond to the clinical picture, because often arthrosis is caused precisely by mechanical damage and violation of the biomechanics of the joint. It is also necessary to note the technical complexity of the method in connection with the difficulties of assembling the external fixation apparatus on the animal.

The present invention is to create a model of traumatic deforming osteoarthritis of the rabbit knee joint by increasing the reproducibility of the pathological process due to destabilization of the knee joint, malnutrition of the articular cartilage and direct traumatic effect on the articular hyaline cartilage.

This problem is solved in the method of modeling post-traumatic osteoarthritis of the rabbit knee joint as follows: a linear incision up to 3.5 cm, perpendicular to the joint gap of the knee joint on the inside, produces an incision of the skin and subcutaneous fat. In the projection of the skin incision, the fascia is dissected with a scalpel, the tendon pes anserinus superficialis intersects (the tendon of the superficial goose paw, ie the tendon that combines the tailor, semi-tendon and thin muscles of the bird); a submenorrhal arthrotomy is performed, the meniscus is stitched and taken to the holders; valgus efforts are created in the lower leg to better visualize the medial part of the tibia plateau. A corticotomy is made with a chisel, and then an osteotomy with an exit to the articular surface of a square-shaped area of bone with a thickness of 5 mm and an area of 1 cm ² , which is subsequently impacted by the clamp in the distal direction.

The method is illustrated by a detailed description and illustrations, which depict:

FIG. 1. Photo from the operating room to create a model of post-traumatic osteoarthrosis of the knee joint of the rabbit GO-1. Dissection is shown in the area of the medial part of the knee joint with the isolation and intersection of the tendon of the superficial goose paw (shown by arrow).

FIG. 2. Photo from the operating room to create a model of post-traumatic osteoarthritis of the knee joint of the rabbit GO-1. An osteotomy of the medial condyle of the tibia is shown to produce a 1 × 1 × 0.5 cm area with access to the articular surface.

FIG. 3. Photo from the operating room to create a model of post-traumatic osteoarthrosis of the knee joint of the rabbit GO-1. The distal segment of the osteotomated bone site is removed, the proximal segment is impacted and compressed between the jaws of the surgical clamp.

FIG. 4. Frontal CT section of the knee joint of the rabbit GO-1 45 days after the operation to create post-traumatic osteoarthritis. There is a narrowing of the joint space, osteosclerosis of the medial condyle of the tibia.

FIG. 5. Sagittal CT section of the knee joint of the rabbit GO-1 45 days after surgery to create post-traumatic osteoarthritis. The discongruency of the articular surface of the tibial plateau, the narrowing of the joint space, the osteosclerosis of the medial condyle of the tibia are clearly visible.

FIG. 6. The histological preparation of the proximal tibia of the rabbit GO-1 45 days after the operation to create post-traumatic osteoarthritis. The boundaries of the joint space are configured, thinning of the bone beams, pycnosis of the nuclei and lysis of the cytoplasm of chondrocytes, perivascular lymphohistiocytic infiltration, a developed network of collagen fibers and elements of the microvasculature (approx. Hematoxylin and eosin, uv. 200) are noted.

The method is as follows.

Under aseptic conditions, after shearing the hair in the area of the alleged skin incision in the anesthetized animal (rabbit), the tendon pes anserinus superficialis is isolated and intersected from the medial surface of the knee joint layer at the border of its distal and middle third. Subperiosteal dissection is then performed in the medial condyle. Submenus arthrotomy is performed. A bit of a bone 1 × 1 × 0.5 cm in size is knocked out with a chisel with access to the articular surface. A transverse osteotomy is performed in the middle of the length of this section, after which the completed bone section is divided into proximal and distal segments. The distal segment is removed. The proximal segment is impacted distally. After that, the wound is sutured in layers, without capturing the “goose paw” tendon in the suture, thereby destabilizing the joint. Suture the skin. The wound is treated with a solution of teramycin (oxytetracycline dihydrate).

The postoperative period is conducted in a standard manner: all animals receive analgesics (ketoprofen) and broad-spectrum antibiotics in appropriate dosages. In order to confirm the adequacy of the obtained model for animals on the 7th day, computed tomography of the knee joint is performed, for morphological studies, animals were withdrawn from the experiment after 45 days.

At the time of the withdrawal from the experiment (45 days after the operation), the supportability of the pelvic limbs in rabbits remained, they moved independently, but their gait was “constrained”. Clinically in animals, during the first 7 days, extensor contracture in the knee joints was observed.

In 5 operated animals, according to the proposed method, a model of osteoarthrosis of a traumatic origin (an impression fracture of the proximal tibia) was developed, when, through arthrotomy, the joint loses the main source of nutrition of the articular cartilage - synovial fluid, the morphology of the impacted bone region is as close as possible to the morphology of the impression fracture, and using the intersection of the tendon pes anserinus superficialis achieved destabilization of the knee joint. Thus, this model takes into account the main aspects of the development of a degenerative-dystrophic process in the joint with x-ray, macroscopic, morpho-histological confirmation of the development of degenerative-dystrophic changes in the tissues.

An example of the method.

Rabbit GO_1, weight 3 kg (protocol of operation No. 2 dated 05/18/2017). Under aseptic conditions, after preliminary treatment of the surgical field with antiseptics in the area of the alleged skin incision in the anesthetized animal, the tendon pes anserinus superficialis was isolated and crossed in sharp and blunt ways layerwise after the direct skin incision in the anesthetized animal at the border of its distal and middle third (Fig. one).

Then, in the area of the medial condyle of the tibia, subperiosteal dissection and submeniscal arthrotomy were performed. 1 × 1 × 0.5 cm in size of the proximal tibia was knocked out with a bone chisel with access to the articular surface (Fig. 2.).

A transverse osteotomy is performed in the middle of the length of this section, after which the performed bone section using the thin osteotome was divided into the proximal and distal segments. The distal segment was removed. The proximal segment was impacted in the distal direction by directly driving it along the axis of the tibia and clamping between the jaws of a surgical clamp (Fig. 3).

The wound was sutured in layers without grabbing the tendon of the goose foot into the suture, thereby destabilizing the joint. Stitches to the skin in a standard manner. Postoperative wound treatment with a solution of teramycin (oxytetracycline dihydrate) to prevent infectious and inflammatory complications. Standard postoperative period.

The rabbit GO-1 was withdrawn from the lethal experiment with an overdose of anesthetic drug in compliance with all the rules.

After 45 days, on the desired sections of computed tomography, an uneven narrowing of the joint gap of the knee joint was observed, mainly in the area of its medial section; expansion and densification of the tibial condyles, subchondral osteosclerosis, as well as secondary impression in the medial condyle of the tibia, which indicates the development of post-traumatic osteoarthritis of the knee joint (Fig. 4, 5).

Histologically revealed thinning of bone beams, pycnosis of nuclei and lysis of the cytoplasm of chondrocytes, perivascular lymphohistiocytic infiltration, a developed network of collagen fibers and elements of the microvasculature (Fig. 6).

Claims (1)

A method for modeling post-traumatic osteoarthrosis of the rabbit knee joint, characterized in that after a layered linear incision perpendicular to the joint gap of the knee joint from the medial side, the tendon of the superficial goose foot is extracted and intersected, the submenual arthrotomy is performed in the submedial tibia of the medial condyle , beat bone chisel portion thickness of 5 mm and an area of 1 cm ² with access to the articular surface at the middle of the length danno transverse osteotomy is performed on the site and the site is divided into the proximal and distal segments, the distal segment is removed, and the proximal segment is impacted in the distal direction by directly driving it along the axis of the tibia and clamping between the jaws of the surgical clamp, then the wound is sutured in layers without seizing the tendon superficial goose paws.

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