RU2701125C1 - Method for asthma bone replacement in experiment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to traumatology and orthopedics, and can be used for replacement of ankle defects in experiment. Shin and foot are fixed in an external fixation apparatus. There are two crossed pins passed through the tibia in the middle one-third, which are fixed in the base ring. Two intersecting pins are inserted through the calcaneal bone and fixed in the base semi-ring. Then, on the border of the middle and lower one-third of the shin, two crossed pins are inserted, which are fixed in the stabilizing ring. Rings are interconnected by means of rods. That is followed by an anterior long-length approach to ankle joint 6–8 cm long along a medial edge of the anterior tibial tendon starting 4–5 cm above the joint space line and 3–4 cm below it. Proximal extensor extensor is Z-shaped to cross the anterior tibial artery, the vein and the deep branch of the fibular nerve together with the tendons of the long extensor of the thumb and the long extensor; then preparing a bed comprising a body and an ankle block or, in its absence, a posterior articular facet of a calcaneal bone for a transplanted graft by bone or cartilage resection. That is followed by exposing the distal shin bone metaepiphysis and using an oscillating saw to form a bone bicortical transplant in the form of a truncated pyramid. Medial approach to tibia 3–4 cm long is performed. Transplant is corrected by the osteotomy of the posterior edge of the distal shin of the tibia. That is followed by a posterior approach along an Achilles tendon of 2.5–3 cm; after creation of bicortical graft, a pin is inserted through it, which is fixed in a distraction ring; then transplant is moved into prepared bed and fixed with preliminary restoration of height of rear foot and bringing foot into optimal position.

EFFECT: method provides experiment creation of a method of treating large ankle defects, allowing to provide conditions for tibial calcane arthrodesis with preserving anatomical relationships in the distal area of the shin and foot due to reliable retention of ankylosized surfaces of tibia and heel bone in a given position.

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Description

The invention relates to medicine, specifically to traumatology and orthopedics, can be used in helping patients with talus defects of various sizes.

In everyday medical practice, there are various methods for treating talus defects: tibia lengthening and tibia-heel arthrodesis in an external fixation device (McCoy TN, Goldman V, Fragomen AT, Rozbruch SR (2012) Circular external fixator-assisted ankle arthrodesis following failed total ankle arthroplasty. Foot Ankle Int 33: 947-955). This method has disadvantages: the creation of a large volumetric acute defect and its filling by converging the calcaneus with the distal metaepiphysis of the tibia leads to corrugation of soft tissue structures at this level with a neurovascular disorder. Proximal osteotomy of both bones of the leg does not compensate for these disorders.

A known method of tibial-calcaneal arthrodesis using retrograde intramedullary nail with resection of the fibula (Klos K. The use of a retrograde fixed-angle intramedullary nail for tibiocalcaneal arthrodesis after severe loss of the talus. Klos K., Drechsel T., Gras F. , Beimel C., Tiemann A., et al. Strat Traum Limb Recon, 2009.4: 95-102). The intramedullary nail is a reliable fixation, however, this method also leads to shortening of the limb and the progression of neurovascular disorders in the foot area.

The result of the proposed method for the treatment of talus defects in the experiment is the restoration of anatomical relationships in the distal region of the lower leg and foot (restoration of the height of the hindfoot. This is achieved due to the anatomical and physiological substantiation of the method of treating defects of the talus in the experiment, which allows providing conditions for tibial talus and tibial-calcaneal arthrodesis with preservation of anatomical relationships in the hindfoot, reliably m ankiloziruemyh retention surfaces in a predetermined position.

The solution to this problem is ensured by the fact that in the method of treating defects of the talus in the experiment, the lower leg and foot are fixed in the external fixation device, while two torsion needles are fixed through the tibia in the middle third, which are fixed in the base ring, two crossing tutus are made through the calcaneus knitting needles that are fixed in the base semicircle, then at the border of the middle and lower third of the lower leg, two crossed needles are held, which are fixed in the stabilizing ring; rings are interconnected using rods; then perform frontal longitudinal access to the ankle joint with a length of 6-8 cm along the medial edge of the tendon of the anterior tibial muscle, starting 4-5 cm above the line of the joint space and up to 3-4 cm below it, then the proximal extensor retinaculum crosses Z-shaped, laterally displacing the anterior tibial artery, vein and deep branch of the peroneal nerve together with the tendons of the long extensor of the thumb and the long extensor of the fingers; then prepare the bed, including the body and the block of the talus or, in its absence, the posterior articular facet of the calcaneus under the moved graft by bone or cartilage resection; then the distal metaepiphysis of the tibia is exposed, and, using an oscillating saw, a bicortical bone graft is formed in the form of a truncated pyramid; then perform medial access to the tibia 3-4 cm long; through this access, graft correction is performed by osteotomy of the posterior edge of the distal tibia metaepiphysis; then perform posterior access along the Achilles tendon, 2.5-3 cm long; after creating a bicortical graft, a spoke is passed through it, which is fixed in the distraction ring; then the graft is moved to the prepared bed and fixed with a preliminary restoration of the height of the hindfoot and bringing the foot to the optimal position.

The invention is illustrated in FIG. 1, FIG. 2, which shows the diagram and results of the operation of the tibial-calcaneal arthrodesis using a non-free bicortical bone autograft from the distal metaepiphysis of the tibia in the external fixation apparatus. In FIG. Figure 3 shows the results of a cadaver study using 3 samples taken from a morgue.

In FIG. 1 adopted the following notation:

1 - tibia;

2 - calcaneus;

3 - fibula;

4-non-free bicortical bone autograft from the distal tibia metaepiphysis.

In FIG. 2 adopted the following notation:

1 - tibia;

2 - calcaneus;

3 - fibula;

4 - non-free bicortical bone autograft from the distal metaepiphysis of the tibia;

5 - external fixation apparatus;

6 - the neck of the talus.

In FIG. 3 adopted the following notation:

1 - tibia;

2 - calcaneus;

3 - fibula;

4 - non-free bicortical bone autograft from the distal metaepiphysis of the tibia;

5 - external fixation apparatus.

The operation is performed as follows. The first stage is the fixation of the lower leg and foot in the external fixation apparatus 5. Through the tibia 1 in the middle third, two crossed needles are held, which are fixed in the base ring. Through the calcaneus 2, two crossed needles are held, which are fixed in the base semicircle. Then, at the border of the middle and lower third of the lower leg, two intersecting needles are held, which are fixed in the stabilizing ring. The rings are interconnected using rods. Perform frontal longitudinal access to the ankle joint 6-8 cm long along the medial edge of the tendon of the anterior tibial muscle, starting 4-5 cm above the line of the joint space and up to 3-4 cm below it, then the proximal extensor retinaculum is intersected in a Z-shape, laterally displaced anterior tibial artery, vein and deep branch of the peroneal nerve, along with the tendons of the long extensor of the thumb and the long extensor of the fingers. A bed is prepared (the body and the block, the neck of the talus 6 or, if there is none, the posterior articular facet of the calcaneus 2) under the moved graft by bone or cartilage resection. Then the distal metaepiphysis of the tibia 1 is exposed, and, using an oscillating saw, a bicortical graft is made in the form of a truncated pyramid 4. To improve visualization and safe filing of the tibia 1, a medial access of 3-4 cm is performed. Through this access, the graft is corrected by osteotomy of the posterior edge of the distal metaepiphysis of the tibia 1. Then perform posterior access along the Achilles tendon, 2.5-3 cm long, in order to create unimpeded movement of the knitting needle, passing through graft 4. After creating a bicortical graft 4, a needle is passed through it, which is fixed in the distraction ring. Next, the graft 4 is moved (either instantaneously or gradually: according to the method of Ilizarov G.A.) of the graft 4 to the prepared bed and fixed, with preliminary restoration of the height of the back section and putting the foot in the optimal position (plantar flexion 90 °, external rotation 5 ° -10 ° of the first beam relative to the crest of the tibia 1, valgus setting 5 °, talus-tibia angle 110 ° -120 ° (in this case, take into account the angle between the lines drawn through the middle of the scaphoid and the middle of the tibia 1).

According to the developed technique, a cadaver study was performed using 3 samples taken from the morgue (Fig. 3). All samples did not show congenital or acquired deformity, ankle joint diseases. The talus defect was carried out by resection of the talus block with the formation of a fragment of the talus neck 6.

Example 1. The drug No. 123. The operation was performed according to the stages (described above): during the operation, anterior longitudinal access to the ankle joint was 6 cm long along the medial edge of the tendon of the anterior tibial muscle, starting 4 cm above the line of the joint space and up to 3 cm below it, to improve visualization and safe the tibia sawdust was performed with a medial access of 3 cm long. Rear access was also performed along the Achilles tendon, 2.5 cm long, in order to create unimpeded movement of the spoke passing through the graft.

Example 2. The drug No. 125. The operation was performed in stages (described above): during the operation, frontal longitudinal access to the ankle joint was 7 cm long along the medial edge of the tendon of the anterior tibial muscle, starting 5 cm above the line of the joint space and up to 4 cm below it, to improve visualization and safe tibial sawdust was performed with a medial access of 4 cm long. Rear access was also performed along the Achilles tendon, 3 cm long, in order to create unhindered movement of the spoke through the graft.

Example 3. The drug No. 126. The operation was performed in stages (described above): during the operation, anterior longitudinal access was made to the ankle joint 8 cm long along the medial edge of the tendon of the anterior tibial muscle, starting 4 cm above the line of the joint space and up to 4 cm below it, to improve visualization and safe tibial sawdust was performed with a medial access of 4 cm long. Rear access was also performed along the Achilles tendon, 3 cm long, in order to create unhindered movement of the spoke through the graft.

In the studied literature, the described methodology for treating victims was not found.

Claims (1)

A method of treating talus defects in an experiment, characterized in that the lower leg and foot are fixed in an external fixation device, with two crossing needles that are fixed in the base ring and two crossing needles that are held in the base ring through the calcaneus, fixed in the base semicircle, then at the border of the middle and lower third of the leg, two crossed needles are held, which are fixed in the stabilizing ring; rings are interconnected using rods; then perform frontal longitudinal access to the ankle joint with a length of 6-8 cm along the medial edge of the tendon of the anterior tibial muscle, starting 4-5 cm above the line of the joint space and up to 3-4 cm below it, then the proximal extensor retinaculum crosses Z-shaped, laterally displacing the anterior tibial artery, vein and deep branch of the peroneal nerve together with the tendons of the long extensor of the thumb and the long extensor of the fingers; then prepare the bed, including the body and the block of the talus or, in its absence, the posterior articular facet of the calcaneus under the moved graft by bone or cartilage resection; then the distal metaepiphysis of the tibia is exposed and, using an oscillating saw, a bicortical bone graft is formed in the form of a truncated pyramid; then perform medial access to the tibia 3-4 cm long; through this access, graft correction is performed by osteotomy of the posterior edge of the distal tibia metaepiphysis; then perform posterior access along the Achilles tendon 2.5-3 cm long; after creating a bicortical graft, a spoke is passed through it, which is fixed in the distraction ring; then the graft is moved to the prepared bed and fixed with a preliminary restoration of the height of the hindfoot and bringing the foot to the optimal position.

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