RU2147845C1 - Method for treating the cases of crural false joint - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves creating compression on the bone fragments junction until tubular structure bone fragment penetrates into spongious structure bone fragment by 10 mm or more. A canal is formed through fibula, diaphyseal fragment of the tibia creating in this way boundary defect of the cortical layer, through false joint zone, metaphyseal fractured tibia fragment. Bone graft is introduced into the canal. The second canal is formed in the fibula and tibia above the false joint zone in the perpendicular direction to the long axis of the shank. Bone graft is introduced into the canal. Fibula osteotomy is carried out in horizontal plane at the level of the upper boundary of the graft. Fibular proximal fractured fragment is brought close to the tibia using the graft as a guide. EFFECT: improved bone fragments adhesion in the false joint vicinity with segment biomechanical properties retained. 4 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics, and can be used in the treatment of pseudoarthrosis and defect-pseudoarthrosis of metadiaphyseal areas.

 A known method of treating a false joint or defect of the tibia. The essence of the operation is to create bypass osteoplastic synostosis. Of the two small incisions in the upper and lower third of the tibia, places of maximum rapprochement of the tibia open. In the proximal and distal epimetaphyses, transverse grooves are made into which the prepared grafts are inserted so as to connect both bones. The operation was aimed at switching the load from the affected bone to the surviving steam room (1).

 Closest to the proposed method is the technology proposed by Mc Master P., M. Hohl, B. Hills (2). The essence of this method is that they drill holes through the fibula and the proximal fragment of the tibia at an angle of 45 degrees to the axis of the leg. Then, holes are also drilled through the lower part of the fibula and the distal fragment. Bone grafts are passed through the holes made. After the operation, the lower leg is fixed until strong synostoses are formed.

However, the known methods have significant disadvantages, namely:
1. It is not provided for the creation of the necessary conditions for the fusion of fragments in the area of the false joint.

 2. When creating tibiofibular synostosis, the load from the affected tibia is transferred to the paired fibula, which changes the biomechanics of the limb segment, resulting in the development of deforming arthrosis in adjacent joints.

 3. The creation of compressive forces at the junction of fragments by the method of closed osteosynthesis does not always lead to bone fusion.

 Based on the current level of technology and the elimination of identified shortcomings of known technologies, the task was set: to achieve the fusion of bone fragments in the area of the pseudarthrosis, preserving the segment biomechanics and preventing the development of deforming arthrosis in adjacent joints.

 The problem is solved as follows: the treatment of the pseudoarthrosis of the lower leg is carried out by performing channels through the fibula and tibia at an angle to the long axis of the limb and introducing grafts into them.

 New in the proposed method of treatment is that prior to the introduction of grafts, compression is created at the junction of bone fragments before the fragment of the tubular structure is inserted into the fragment of the spongy structure by 10 or more millimeters. After that, a channel is formed through the fibula, the diaphyseal fragment of the tibia, creating simultaneously the marginal defect of the cortical layer, the area of the pseudarthrosis, the metaphysial fragment of the tibia, and a graft is inserted into it. Then the second channel is formed in the tibia and tibia above the pseudoarthrosis in the perpendicular direction to the long axis of the lower leg, a graft is introduced. An osteotomy of the fibula is made in a horizontal plane at the level of the upper edge of the inserted graft, bringing its proximal fragment closer to the tibia along the graft.

 We explain the significance of the distinguishing features of the method.

 Before the introduction of the grafts, compression is created at the junction of the fragments before the introduction of the fragment with the tubular structure into the fragment of the spongy structure with a depth of 10 mm or more to achieve tight contact and a larger contact area of the fragments.

 The formation of the channel through the fibula, the diaphyseal fragment of the tibia, simultaneously creating a marginal defect of the cortical layer, the area of the pseudarthrosis and the metaphysical fragment of the tibia with subsequent implantation of the graft, activates the regenerative capabilities of the ends of the fragments of the tibia and fibula for fusion of a single block.

 The formation of the second channel in the tibia and tibia above the pseudoarthrosis in the perpendicular direction to the long axis of the lower leg and the introduction of the graft, followed by osteotomy of the fibula in the horizontal plane at the level of the upper edge of the inserted graft, bringing its proximal fragment to the tibia along the graft allows you to create a second tibiofibular synostosis of a larger area for partial unloading of the tibia for a period of complete anatomical and functional reconstruction Ki pathological zone of the tibia.

 The patent studies on subclasses A 61 B 17/56 and the analysis of scientific and medical information reflecting the current level of treatment for the false joints of the lower leg did not reveal technologies of identical proposals. Thus, the proposed method for the treatment of a false joint of the lower leg is new.

 The interconnection and interaction of existing methods of the proposed method ensure the achievement of a new technological and medical result in solving the problem, namely: to achieve the fusion of bone fragments in the area of the false joint, preserving the segment biomechanics, and preventing the development of deforming arthrosis in adjacent joints.

 Thus, the proposed technical solution has an inventive step.

 The proposed method for the treatment of the pseudoarthrosis of the tibia is industrially applicable in the field of practical healthcare, since it can be reproduced repeatedly, it does not require exceptional means for implementation.

 The essence of the proposed method is as follows. Before the introduction of the grafts, compression is created at the junction of the bone fragments before the fragment of the tubular structure is inserted into the fragment of the spongy structure by 10 or more millimeters. After that, a channel is formed at an angle of 35-60 degrees to the long axis of the limb through the fibula, the diaphyseal fragment of the tibia, creating simultaneously the edge defect of the cortical layer, the zone of the pseudarthrosis, the metaphysical fragment of the tibia, and a graft is introduced into it. Then a second channel is formed in the tibia and tibia above the pseudoarthrosis in the perpendicular direction to the long axis of the lower leg and a graft is introduced. A tibia osteotomy is made in a horizontal plane at the level of the upper edge of the inserted graft, bringing its proximal fragment closer to the tibia along the graft.

The essence of the proposed method is illustrated by a clinical example: Patient Co., born in 1955, IB N 48718, a rural resident of the Irkutsk region, was hospitalized (01/11/95). Mobility in the lower third of the leg to 15 ^o tight, elastic. The color of the lower leg is pink. On the renogram: displacement of the proximal fragment anteriorly to the cortical plate of the distal fragment, wedge-shaped diastasis along the posterior surface 1 x 1 cm. At the posterior edge of the proximal fragment, the shadow of the regenerator is determined, the structure and density of which corresponds to the cancellous bone. Diagnosed with hypotrophic false joint of the lower third of the left tibia (compression zone). Condition after replacement of a defect of the tibia 7 cm. Contracture of the left ankle joint (see Fig. 1A).

 01/25/95. The operation was performed: application of a combined external fixation apparatus for the purpose of reposition of fragments and the creation of end compression in time. Osteotomy of the fibula at the border of the middle and upper third. Over 1.5 months, the proximal fragment of the tubular structure was repositioned and introduced into the distal fragment (spongy structure) in time by 10 mm (see Fig. 1b).

 After creating a compression between the fragments of the tibia using the methods of transosseous osteosynthesis, a spongy autograft was taken from the iliac wing on the right, which was inserted into the tunnel formed by a drill through the fibula, the distal end of the proximal fragment of the tibia, with the creation of a cortical defect, into the area of the pseudogap at an angle of 50 degrees to the long axis of the lower leg. This provided the conditions for creating tibiofibular synostosis and fusion of fragments of the tibia.

 After that, above the pseudoarthrosis, from the same skin incision, a second channel is formed in the perpendicular direction to the axis of the tibia from the fibula to the tibia, into which the second graft was introduced. After that, an osteotomy of the fibula was made along the upper edge of the inserted graft to move the proximal fragment to the tibia along the graft (see Fig. 1c, d).

 The fixation period in the transosseous apparatus is 6.5 months. In the fixation period, movements in the ankle joint were developed using the subsystem of the apparatus on the foot, pivotally connected to the apparatus on the lower leg. Clinically and radiologically, the fracture has healed. The device is removed. The load on the limb is full. After 8 months transferred to the third group of disability.

 Thus, the proposed "Method for the treatment of the pseudoarthrosis of the tibia" allows, in comparison with known technologies, to fuse the hypotrophic pseudoarthrosis of the lower third of the tibia (at the border of the tubular and cancellous bones) while preserving the segment biomechanics and preventing the development of deforming arthrosis in adjacent joints.

Sources of information
1. Bogdanov F.R. "Bone grafting with defects of long tubular bones after gunshot fractures" // Reconstructive surgery of the consequences of injuries, 1948, p. 5-11.

 2. V.I. Shevtsov, V.D. Makushin, K.E. Pozharishchensky "Treatment of patients with a defect of the tibia by the method of reconstructive tibialization of the fibula". Publishing House "Periodic", Kurgan, 1994, p. 17.

Claims (1)

 A method of treating a pseudoarthrosis of the tibia, including channeling through the fibula and tibia at an angle to the long axis of the limb and introducing bone grafts into them, characterized in that prior to the introduction of the grafts, compression is created at the junction of the bone fragments before the fragment of the tubular structure is inserted into the fragment of the spongy structure 10 mm or more, after which they form a channel through the fibula, the diaphyseal fragment of the tibia, creating at the same time a marginal defect of the cortical layer, a zone of false joint a, a metaphysical fragment of the tibia and a graft is inserted into it, then a second channel is formed in the tibia and tibia above the pseudoarthrosis in the perpendicular direction to the long axis of the lower leg, a graft is inserted and an osteotomy of the fibula is placed in a horizontal plane at the level of the upper edge of the inserted graft, bringing its proximal fragment to the tibia along the graft.

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