RU2577765C1 - Method of stimulating bone formation in ischemic regenerate on extensive tibial defects size - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention can be applied to stimulate bone formation in ischemic regenerate the vast size of the defect on the tibia. Diaphysis of fibula is osteotomized transversely in two places at ischemic regenerate tibia, matching the size of the fragment length of the defect size of the tibia. Produce flake diaphysis of the fibula. Carry out formation of a new regenerated fibula and compaction ischemic regenerate dosage moving flake diaphysis of the fibula, together with the adjacent soft tissue in the direction of ischemic regenerate to contact flake with ischemic regenerate. Produce compression along the axis of the tibia.

EFFECT: method provides a way to regenerate the formation of satisfactory quality under extensive defects, reduced blood supply and nervous disorders.

1 cl, 2 dwg

Description

The invention relates to medical equipment and can be used in traumatology and orthopedics to stimulate the process of bone formation with ischemic regenerate on a large size defect of the tibia.

Ischemic regenerate is an inferior bone regenerate that forms when there is insufficient blood supply to the site where the process of bone formation occurs.

The following treatment methods are known to be used in the formation of ischemic regenerate on the tibia.

A known method of replacing an extensive defect of the tibia, comprising performing a double osteotomy of the tibia and dosed displacement of the formed fragments into the area of the defect of the tibia with simultaneous restoration of the length and axis of the tibia, as well as its stable fixation to the consolidation of the bone using a compression-distraction apparatus. When performing the osteotomy of the fibula from the inner surface of its selected proximal fragment, a longitudinal flange is additionally formed and during the replacement of the defect it is displaced inward until it contacts the lateral surface of the adjacent fragment of the tibia. (RU 2474398).

However, this method provides for the complete replacement of the defect of the tibia with a fragment of the tibia, is not intended to stimulate the formation of bone structures of the tibia itself with ischemic regenerate in the region of the defect and impaired innervation.

A known method for treating a bone defect is when an osteotomy of one end of the bone is made and the resulting bone fragment is moved to contact the second end of the bone, in which, in order to reduce the treatment time, one or more osteotomies of the moved fragment are produced to obtain additional fragments. Distraction of the obtained fragment is carried out at a known pace, and at the same time, distraction of additional fragments relative to the first (SU 1526666).

A known method of replacing an extensive bone defect, including osteotomy of the end of one of the fragments, dosed movement of the formed fragment in the defect to contact with the end of the opposing fragment, and subsequent stable fixation using a compression-distraction apparatus until the bone is consolidated at the junction of the fragments and the reconstruction of the site of the formed bone regenerate, characterized the fact that at the stage of fixation in the bone marrow cavities of opposing bone fragments through a displaced fragment and a section formed of callus is administered at least two spokes, having a biologically active coating (RU 2492827).

A known method of stimulation of ischemic regenerate when compensating for a defect in a long tubular bone using an additional osteotomy of the middle movable fragment, with further compaction of the regenerate due to retro - or antegrade movement of the formed fragment. (The option of using additional osteotomy in the delayed formation of a distraction regenerate, L. M. Kuftyrev, D. Yu. Borzunov, D. D. Bolotov. Orthopedics genius No. 1, 2003, pp. 51-53).

However, the presented treatment methods under the following conditions: the lack of adequate blood supply, impaired innervation of the segment, the presence of severe cicatricial degeneration of the skin and soft tissues, large sizes of ischemic regenerate do not provide sufficient stimulation of the bone tissue regeneration process, which leads to an increase in the duration of treatment or unsatisfactory quality of the regenerate .

The objective of the invention is to develop a method of stimulating bone formation in ischemic regenerate (complete failure of the regenerate, there is no organotypic adjustment) on the defect of the tibia in the absence of adequate blood supply, impaired innervation of the segment, the presence of severe scar degeneration of the skin and soft tissues, large sizes (significant over the length of the defect when the area of diastasis prevails over the bone parts of the ischemic regenerate, the absence of support function f course.

The technical result is the compaction of ischemic regenerate, with extensive defects of the tibia, in conditions of reduced blood supply and impaired innervation, ensuring the formation of a regenerate of satisfactory quality in the area of ischemic regenerate.

This result is achieved by the fact that in this method of stimulating bone formation during ischemic regenerate on an extensive size of the defect of the tibia, a bone osteotomy is performed to obtain a fragment, the dosage movement of the fragment in the direction of the defect of the tibia is performed, and the regenerate is compacted. It differs in that the diaphysis of the fibula is osteotomized, transversely in two places at the level of the ischemic tibia regenerate, ensuring that the fragment size is consistent with the size of the defect of the tibia, the fibula diaphysis is cleaved, a new regeneration of the fibula is formed, and ischemic regeneration is compacted, and ischemic regeneration is compacted, flakes of the fibula diaphysis together with adjacent soft tissues in the direction of ischemic regenerate, until the flakes come into contact ischemic regenerate and subsequent compression along the axis of the tibia.

The invention is illustrated by illustrations, which depict:

FIG. 1 - Image of a patient's limb from a CT scan before treatment.

FIG. 2 - Image of the limb of the patient with a CT scan after treatment.

The method is as follows.

If the patient has formed an ischemic regenerate in the area of large sizes of the defect of the tibia, with reduced blood supply to the limb and impaired innervation. At the first stage, a double transverse osteotomy of the fibula diaphysis is performed with the formation of a flap of the fibula diaphysis (flap), at the level of ischemic tibia regeneration. This ensures compliance with the size of the flakes along the length of the size of the defect of the tibia. An apparatus for osteosynthesis is installed on a limb (an apparatus similar to the Ilizarov apparatus). Through the flange, 6 needles are held with solders in different directions. The ends of the spokes, for which the metered movement of the flakes is carried out, are attached to the rods-rods of the apparatus. Two distraction subsystems of the apparatus are installed, one that provides diastasis between the segments of the fibula and facilitates the movement of the flakes, the second one contains rod rods, which provides a metered movement of the flakes towards ischemic regenerate. Using the apparatus, the formation of a new fibular regenerate and compaction of ischemic regenerate is carried out. To do this, the flake is metered in by rods-rods together with adjacent soft tissues in the direction of the ischemic regenerate, until the flake comes into contact with the ischemic regenerate. Flaking when moving in the direction of the ischemic regenerate through adjacent soft tissues exerts pressure on the ischemic regenerate, ensuring its compaction. Upon reaching the contact of the flake with the ischemic regenerate, the apparatus compresses along the axis of the tibia, which provides additional compaction of the ischemic regenerate. Compaction of ischemic regenerate, with extensive defects of the tibia, in conditions of reduced blood supply and impaired innervation, ensures the formation of a regenerate of satisfactory quality in the defect zone. Next, the osteosynthesis apparatus is put into fixation mode. Upon reaching a complete clinical and radiological fusion of the tibia, the apparatus is dismantled.

Clinical example.

Patient K., 51 years old, was admitted for treatment with a diagnosis of defect c / 3 diaphysis of the right tibia 12 cm (Fig. 1). Chronic post-traumatic osteomyelitis of the right lower leg, remission. Neuropathy of the peroneal nerve.

When collecting the medical history, it was found that four years ago, as a result of a gunshot wound, the patient received an open multi-fragmented fracture of the right tibia with damage to the fibular nerve. As a result of PCP, a defect with / 3 diaphysis of the tibia 12 cm was formed. To replace the defect formed, bone autoplasty of the defect was performed with a graft from the left fibula. The postoperative period was complicated by a purulent-inflammatory process. For this reason, the graft has been removed. Re-replacement of the tibial defect was carried out by transosseous compression-distraction osteosynthesis according to G.A. Ilizarov by lengthening the distal fragment of the tibia. Distraction was performed for 173 days. During this time, a distraction regenerate with a length of 12 cm was formed. Retrospectively evaluating and visualizing X-ray diffraction patterns, it was found that an inadequate rate of movement was chosen to move the formed fragment (1.0 mm per day for 4 doses). An unsatisfactory regenerate was formed. X-ray anatomical semiotics of the defect suggested a violation of the main blood flow in the basin of the intraosseous artery and the possibility of active participation in bone formation of only periosteal bone structures. An important role in the formation of an unsatisfactory regenerate was played by pronounced neuropathy of the peroneal nerve and scarred soft tissues. Slowing the rate of distraction, as well as temporarily stopping it, did not solve the problem. 6 months after the cessation of distraction, according to the radiation research methods, an ischemic regenerate (hypoplastic distraction regenerate with a dominant predominance of the diastasis area over its bone parts) was formed in the inter-fragment diastasis. The bone sections of the regenerate had significant defects and an interlayer. Signs of the process of compactification of the regenerate along the periphery were not detected.

To fill the bone deficit in the regenerate zone, it was decided to use the claimed method. To this end, at the level of ischemic regenerate, a longitudinal flap of the tibia diaphysis was formed using longitudinal osteotomy, the size of which corresponded to the size of the defect of the tibia. 7 days after surgery, a fragment of the fibula began to be discretely moved to the medial side. Fibilization of the fragment was dosed for 20 days. The rate of distraction was 0.25 mm × 4 times a day. When radiographs were visualized, a compactization of the shadow of the regenerate structures was revealed with the loss of defects and zoning of the atypical structure.

Fixation of the lower leg by the apparatus was continued for 251 days. Retrospective imaging of the radiographs made it possible to determine the restoration of the integrity of the segment by 131 days. After removing the apparatus, the length of the legs was equalized, the axis was corrected, the support ability of the limb was restored. The patient walked with a full load on his sore leg. The function of adjacent joints is preserved. On x-ray and CT (Fig. 2), the tibial regenerate underwent organotypic rearrangement. In 2/3 of the lower leg, between the ends of the fragments of the tibia, a bone block was formed. A bone fusion of the flank of the fibula with the tibia in its upper and lower sections was revealed.

Claims (1)

A method of stimulating bone formation in an ischemic regenerate on a large size defect of the tibia, in which a bone osteotomy is performed to obtain a fragment, the dosage movement of the fragment in the direction of the defect of the tibia is performed, the regenerate is compacted, characterized in that osteotomy of the fibula diaphysis transversely in two places at the level of ischemic the tibial regenerate, ensuring that the fragment size along the length corresponds to the size of the tibial defect odyat flake diaphysis fibula performed formation of a new regenerate fibula and compaction ischemic regenerate dosage displacement flake diaphysis fibula together with the adjacent soft tissue in the direction of ischemic regenerate into contact with an ischemic regenerate flake and subsequent compression along the axis of the tibia.

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