RU2788276C1 - Method for inducing pseudoarthrosis of forearm bones in rabbits - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to experimental medicine and veterinary surgery, and can be used to induce pseudarthrosis of the forearm bones in rabbits. A radius defect is formed in the middle third of the diaphysis, 5 mm long. While maintaining the integrity of the ulna, bone fragments of the radius are skeletonized from the periosteum, followed by a four-minute exposure of the osteotomy area with 96% alcohol, creating diastasis and fixing them with a bone plate using four screws 2 mm in diameter and 6 mm long.

EFFECT: method provides delayed bone union and development of pseudarthrosis up to 60 days after surgery due to the use of this technique.

1 cl, 4 dwg

Description

The invention relates to veterinary medicine, in particular to veterinary surgery, osteology and animal morphology.

The method for inducing pseudoarthrosis of the forearm bones in rabbits can be used to study the course of reparative processes in fractures of the forearm bones, as well as to prepare conditions for preclinical determination of the effectiveness of various methods of treating degenerative-dystrophic conditions in animals.

Pseudarthrosis is a form of fracture nonunion. This group of pathologies is the most common among the complications in the treatment of fractures of long tubular bones. Based on the classification proposed by Weber and Cech in 1976, all nonunion fractures were divided into two groups: vascular and avascular.

The first group, in turn, is divided into: hypertrophic, mildly hypertrophic and oligotrophic nonunion, and the avascular group is divided into dystrophic, necrotic, bone defect and atrophic nonunion.

The reason for the occurrence of pseudarthrosis is not following the basic principles of osteosynthesis, namely, in most cases, it is not stable fixation and impaired blood supply in the fracture zone.

The complexity of modeling pseudoarthrosis of the bones of the forearm in experimental osteology is that in the forearm the main load is borne by the radius, and it is limited from the proximal and distal sides by the joints - the elbow and carpal, respectively. This, in turn, excludes the use of intramedullary fixators. A leaves only two options for fixation with a bone plate and external fixation devices.

To date, no technique is known to induce pseudarthrosis of the forearm in experimental animals.

There is a technique for inducing pseudoarthrosis in dogs proposed by Professor Samoshkin I.B. [1], which involves the insertion of an intramedullary nail with a circular cross section of a deliberately smaller diameter into the femur after osteotomy, inserting it first retrograde into the proximal fragment, and then antegrade into the distal one. The disadvantages of this technique are that this method is not applicable to the radius, since it is limited on both sides by the joints, and when the pin is passed through the joint, there is a high risk of developing arthritis / arthrosis, which will directly affect the result of the experiment.

In 2015 Yemanov A.A. et al. [2] proposed a method for modeling a false joint where, after creating a defect in the proximal part of the tibial shaft, 2 cm in size and damaging a. nutricia. The authors performed distraction, and then performed compression until a diastasis of 5 mm in size was achieved in the apparatus of G.A. Ilizarov. This technique is not applicable in laboratory animals, since the size of the Ilizarov apparatus and its weight will not allow reproducing this technique in animals such as rabbits due to the hocking type of movement, which can lead to loosening of the apparatus supports, migration of fragments and further secondary infection.

There is a known method that was used on the bones of the rabbit shin, where an external fixation device (AVF) is applied to the shin of the rabbit and osteoclasis and perforation of the bone tissue are performed. This technique was proposed in 2014 [5].

Among the shortcomings of this technique is its massiveness and complexity of reproduction on a laboratory animal.

The objective of the present invention is to develop a method that allows you to simulate a defect-pseudoarthrosis of the bone, to study the features of osteogenesis of distraction and contact regenerates by various treatment methods.

The technical result of the claimed invention is the provision of delayed bone fusion and the development of pseudarthrosis up to 60 days after surgery.

The claimed technical result is achieved due to the fact that the method of inducing pseudoarthrosis of the bones of the forearm in rabbits is carried out in compliance with the rules of asepsis and antisepsis, access to the radius is carried out from the cranio-lateral side from the lateral epicondyle of the humerus to the wrist. The skin, subcutaneous tissue, superficial and deep fascia were dissected in layers. The length of the operative access was 5 cm (Fig. 1). Next, 2 small (12 cm long) retractors according to Gelpi were installed in the surgical wound to visualize the bone. The formation of a bone defect was performed with a medical oscillating saw at a speed of 15,000 vibrations per minute until a defect was created in the middle third of the diaphysis 5 mm. The ulna and interosseous muscle are not injured with this technique. Bone fragments were freed from the periosteum by 3 mm from the osteotomy line (Fig. 2), then the bone and periosteum were treated with 96% alcohol with an exposure of 4 minutes. After that, the bone was distracted by 5 mm and the bone plate was applied using four screws 2 mm in diameter and 6 mm long (Fig. 3).

The operation was completed by successive suturing of the access site and applying a protective bandage to the suture area.

Postoperative control of animals after performing this technique showed that lameness in the animal persisted during the first week after surgery. In the next 30 days, lameness was not observed.

X-ray examination was performed on days 31, 51 and 60 after surgery. It was established that on the 31st day no reparative processes of the bone tissue were observed, which indicates nonunion of the bone. On day 51, weak signs of fracture consolidation, moderate periosteal callus were noted. On the 60th day after the experiment, complete consolidation of the bone tissue is not observed on the radiographs, but in contrast to the 51st day, we note that the cortical layer of the radius has signs of moderate osteoreparation.

Thus, it can be argued that the use of this technique ensures non-union of the radius in rabbits within 60 days after surgery (Fig. 4). The obtained data on the dynamics of osteoreparation using this technique can serve as a reference model for testing tools and methods designed to replace bone defects or aimed at stimulating osteoreparation processes in pseudoarthrosis of various etiologies.

The claimed method is not only simple to perform, but also allows for the most accurate modeling of pseudarthrosis of the forearm bones in rabbits.

Thus, the proposed method for modeling destructive processes in bones in rabbits has scientific and practical applications and can be used in preclinical and experimental studies in the field of orthopedics and traumatology not only in rabbits, but also in other animal species.

Literature.

1. Pat. RU 2323694, IPC A61B 17/56. A method for modeling non-union fractures of long tubular bones / Samoshkin Igor Igorevich, Slesarenko Natalya Anatolyevna, Samoshkin Igor Borisovich, Kapustin Roman Filippovich; applicant and patent holder FGOU VPO "Belgorod State Agricultural Academy"; dec. 2005-11-15; pub. May 10, 2008.

2. Pat. RU 2539627, IPC G09B 23/28. A method for modeling a defect-pseudoarthrosis of the limb bone / Yemanov Andrey Alexandrovich, Gorbach Elena Nikolaevna, Mitrofanov Alexander Ivanovich; applicant and patent holder Federal State Budgetary Institution "Russian Scientific Center "Restorative Traumatology and Orthopedics" named after Academician G.A. Ilizarov" of the Ministry of Health of the Russian Federation; dec. 2013-11-19; pub. 01/20/2015

3. Yemanov A.A., Gorbach E.N., Shevtsov V.I. / Reparative regeneration of bone tissue in the treatment of forearm fractures in dogs by transosseous osteosynthesis under conditions of urgent and delayed fragment reposition. Veterinary pathology. 2009, No. 3. pp. 84-88.

4. Qiao Guanda, Goldberg O.A., Lepekhova S.A., Tishkov N.V., Seliverstov P.V., Gumanenko V.V., Akhmedov A.E. Characterization of changes in bone tissue in the area of the defect, under conditions of impaired reparative regeneration. The genius of orthopedics, 2014, No. 3. - 77-81.

5. Pat. RU 2523622, IPC G09 B23/28, А61В 17/56. A method for modeling a false joint in a fracture of the bones of the lower leg and a device for its implementation / Qiao Guanda, Tishkov Nikolai Valerievich, Goldberg Oleg Aronovich, Lepekhova Svetlana Aleksandrovna, Gumanenko Vitaly Viktorovich, Tikhonov Evgeny Vladimirovich; applicant and patent holder Federal State Budgetary Institution "Scientific Center for Reconstructive and Reconstructive Surgery" of the Siberian Branch of the Russian Academy of Medical Sciences (FSBI "NTsRVKh" SB RAMS) (RU), Qiao Guanda (RU); dec. 2013-03-25; pub. 07/20/2014.

6. Weber, B.G.; Cech, O. PSEUDARTHROSIS: Pathophysiology Biomechanics Therapy Results. 1976.

Claims (1)

A method for inducing pseudoarthrosis of the bones of the forearm in rabbits, characterized in that access to the radius is carried out from the cranio-lateral side from the lateral epicondyle of the humerus to the wrist 5 cm long, the formation of a bone defect is performed with a medical oscillating saw until a defect is created in the middle third of the diaphysis 5 mm, bone fragments are freed from the periosteum by 3 mm from the osteotomy line, then the bone and periosteum are treated with 96% alcohol with an exposure of 4 minutes, after which the bone is distracted by 5 mm and the bone plate is applied using four screws 2 mm in diameter and 6 mm long.

Images