RU2461366C1 - Method for surgical approach to fibula fractions in lower one-third accompanied by tibiofibular syndesmosis disruption - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention concerns medicine, particularly traumatology. A surgical approach is created. Fibula fragments are reduced. A canal is formed in a lateral malleolus through its apex. An intramedullary rod with altitude clamp holes are inserted in the formed canal. Holes coaxial with those in a lower portion of the intramedullary rod are formed in the lateral malleolus. The position of the intramedullary rod is fixed by inserting the altitude clamps through the holes therein and in the lateral malleolus. A transversal canal is formed in the fibula and tibia above a joint space to provide the diameter of its fibula intake exceeding a diameter of the formed canal. A malleolar screw is inserted through the formed canal and screwed in the intramedullary rod against the head stop to provide dynamic fixation of the tibiofibular syndesmosis.

EFFECT: method provides higher stability of fibula osteosynthesis and reduced rehabilitation period.

2 cl, 1 dwg, 1 ex

Description

The invention relates to medicine, namely traumatology, and can be used in the surgical treatment of injuries of the ankle joint, in particular fractures of the fibula in the lower third with a rupture of the tibiofibular syndesmosis.

There are various surgical methods for treating fractures of the fibula in the lower third, aimed at restoring the tibia syndesmosis, for example, the methods of Sitenko, Chaklin, Schumann, etc. [Shabanov A.N., Kai I.Yu., Sartan V.A. Atlas of ankle fractures and their treatment. M.: Medicine, 1972. S. 38-43].

However, all of the above methods of treatment do not correspond to the modern level of development of medicine and are mainly of historical importance.

The well-known "Method of treating a fracture of the fibula in the lower third with damage to the tibiofibular syndesmosis of the lower leg" [RU patent for the invention No. 2282411], including mounting the apparatus of two ring and one half-ring supports connected by threaded rods. Two rods are inserted into the distal fragment of the fibula, above and below the level of syndesmosis. The rods are fixed in two single-hole brackets, connected by their bases on the plate and forming together with two threaded rods attached to the proximal annular support of the apparatus, a reposition unit. Using the latter, the bone fragment is repositioned by moving the reposition unit in three planes with the nuts. Upon achieving reposition, a repositional node is fixed.

Also known is a "Method for the treatment of fractures of the fibula with a rupture of the tibia" [SU certificate of invention for invention No. 799734] by fixation using a ligature conducted through the bone channels. Channels form along the ankle line from four points, with two channels passing through the ends of fragments of the fibula and tibia, and the other two next to the fibula only through the tibia. The ligature through the bone canals is carried out in the form of a double return loop.

However, the use of the above methods can lead to clamping of the ankle fork of the ankle joint, the formation of synostosis between the tibia and fibula, the development of deforming arthrosis of the ankle joint.

The closest analogue to the claimed invention is a method of surgical treatment of fractures of the fibula in the lower third with damage to the tibiofibular syndesmosis [RU patent for the invention No. 2168317], including intramedullary osteosynthesis. To do this, an intramedullary rod fixing fragments is carried out in the direction corresponding to the longitudinal axis of the intact fibula. The rod is inserted into the distal fragment in a direct way, maximally displaced posteriorly and outward from the center of the cross section of the fibula, asymmetrically relative to the center of the section of the medullary canal of the central fragment.

However, the installation of the rod in this method is maximally displaced posteriorly and outward from the center of the cross section of the fibula without blocking its elements, which leads to weakening of the outer and posterior cortical layers of the bone, while there is the possibility of eruption of the rod, which, in turn, contributes to complications, particular displacement of fragments and the instability of their fixation. Performing an intramedullary insertion of the rod without using elements blocking it can lead to the expansion of the bone marrow canal during bone resorption, and therefore, the rod will begin to shift in the bone, i.e. migrate. In this case, the reponing and fixing effects of its elastic-elastic deformation will be lost, i.e. treatment will be ineffective.

The task of the invention is to increase the stability of osteosynthesis of the fibula and reduce the rehabilitation period while ensuring the elimination of excessive tibial diastasis and dynamic fixation of the tibiofibular syndesmosis.

The essence of the claimed invention is characterized by the fact that in the method of surgical treatment of fractures of the fibula in the lower third with a rupture of the tibia syndesmosis, the fragments of the fibula are repositioned, surgical access is performed, a canal is formed in the outer ankle of the fibula through its apex, an intramedullary hole is inserted into the formed canal with under the locking screws, form holes in the outer ankle of the fibula located on the same axis with holes in the lower part an intramedullary shaft, fix the position of the latter by inserting blocking screws through the holes in it and the outer ankle of the fibula, form a channel in the transverse direction to the tibial and tibia bones, providing a diameter of its inlet in the fibula greater than the diameter of the formed channel, through the last insert a malleolar screw, tighten it until the head stops into the intramedullary shaft with the possibility of providing dynamic fixation of the tibiofibular syndrome smoza.

In addition, there is also claimed a method for the surgical treatment of fractures of the fibula in the lower third with a rupture of the tibia syndesmosis, in which the channel formation in the fibula and tibia is produced 4-5 cm above the joint space.

The technical result of the claimed invention consists in solving the problem posed earlier by the simultaneous use of osteosynthesis as an intramedullary inserted rod, and the installation of screws of various specifications. The introduction of locking screws through the holes in the intramedullary shaft and the outer ankle of the fibula allows to increase the stability of the performed osteosynthesis and to exclude the possibility of metalwork migration, thereby reducing the risk of postoperative complications. The specificity of the installation of the malleolar screw, which provides a uniform distribution of the compression force of the ankle ankle forks on the cortical plate of the fibula, allows for additional blocking of the shaft, elimination of excessive tibial diastasis, and dynamic fixation of the tibia syndesmosis, eliminating the clamping of the ankle forks of the ankle. The introduction of a malleolar screw above the tibiofibular syndesmosis helps to reduce the morbidity of the surgical intervention by eliminating the possibility of damage to the interosseous fibers of the tibiofibular syndesmosis and cortical tibia plates in the area of their contact. The set of signs of the implementation of the claimed in this application method can reduce the time of the rehabilitation period.

The inventive method for the surgical treatment of fractures of the fibula in the lower third with a rupture of the tibiofibular syndesmosis is illustrated using the drawing, which shows a schematic representation of the installation used in it metal structures.

In the drawing, positions 1-3 indicate:

1 - intramedullary rod;

2 - locking screw;

3 - malleolar screw.

A method for the surgical treatment of fractures of the fibula in the lower third with a rupture of the tibia syndesmosis is as follows.

After spinal anesthesia, the patient is placed on the operating table in the supine position, a roller is placed under the operated limb. Under the control of an electron-optical converter (EOP), a closed reposition of fragments of the fibula is performed. If it is impossible to close the reposition, a skin incision is made in the projection of the fracture of the fibula and an open reposition of its fragments is performed. They provide surgical access by performing a skin incision on the outer surface of the ankle joint from the apex of the outer ankle. A channel is formed in the outer ankle of the fibula. Why, through the tip of the outer ankle under the control of the image intensifier, the Kirschner needle is inserted into the medullary canal of the fibula. A canal is drilled along a spoke using a cannulated drill. Intramedullary rod with holes for locking screws is inserted into the formed channel. Using a target, holes are formed in the outer ankle of the fibula located on the same axis as the holes in the lower part of the intramedullary shaft. Fix the position of the latter by introducing locking screws through the holes in it and the outer ankle of the fibula. In the fibula and tibia above the joint gap, in most cases by 4-5 cm, a channel is formed in the transverse direction with the diameter of its entrance opening in the fibula being larger than the diameter of the formed channel. Through the latter, a malleolar screw is inserted, which is screwed to the end of the head into the intramedullary shaft with the possibility of providing dynamic fixation of the tibiofibular syndesmosis. The wound is sutured in layers. An aseptic dressing is applied to the wound.

Example

Patient K., 37 years old, was admitted to the Department of Traumatology and Reconstructive Surgery with a diagnosis of "Closed fracture of both ankles of the right lower leg with displacement of fragments, rupture of the tibiofibular syndesmosis with subluxation of the foot outward."

After preoperative preparation, surgery was performed according to the method described in this application.

The postoperative period was uneventful. The patient underwent medical and physiotherapeutic treatment. The shin bones were immobilized using a plaster cast for 3 weeks after surgery, and then by applying an elastic orthosis for the ankle joint. During the first month after surgery, the patient moved on crutches, without relying on the right lower limb, then she was allowed to step on the operated leg. A month after the surgery, rehabilitation treatment was carried out, including physiotherapy exercises for the ankle joint, massage of the muscles of the right lower limb, electrophoresis of Ca and P and ozokeritotherapy. After 2 months, the patient began to move with the support of a cane and was discharged to work. During the follow-up examination 3 months after surgery: bone ankle fusion was noted on radiographs, the patient clinically walks independently, without relying on a cane, does not limp, movements in the right ankle joint flexion / extension 43/0/10, in the left - 47 / 0/15.

After 6 months, the patient underwent surgery to remove established metal structures from the bones of the right lower leg. The stitches were removed on day 12 and she was discharged to work.

Claims (2)

1. A method for the surgical treatment of fractures of the fibula in the lower third with a rupture of the tibia syndesmosis, characterized in that they provide surgical access, reposition fragments of the fibula, form in the outer ankle of the fibula through its apex channel, an intramedullary shaft with openings is inserted into the formed channel locking screws form holes in the outer ankle of the fibula located on the same axis as the holes in the lower part of the intramedullary shaft, fix the latter is positioned by inserting locking screws through the holes in it and the outer ankle of the fibula, a channel is formed in the transverse direction in the transverse direction of the fibular and tibial bones, providing the diameter of its inlet in the fibula is larger than the diameter of the formed channel, through the latter a malleolar screw is inserted , twist it all the way to the head in the intramedullary shaft with the ability to provide dynamic fixation of the tibiofibular syndesmosis. 2. The method according to claim 1, characterized in that the channel formation in the tibia and tibia is produced 4-5 cm above the joint gap.

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