RU2368341C2 - Method of heel bone fracure treatment - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to traumatology. Method includes separate reposition of fragments with awl, direction of whose introduction and awl pivot are determined for each large fragment by roengetologic data and data of three-dimensional computer reconstruction of fragments position, and fixation of each fragment by pins. In case of multi-fragment fracture additional fixation by two axial-cross pins introduced along heel bone is carried out.

EFFECT: improvement of quality of fragments reposition and increase of their fixation reliability, due to control of separate fragments and possibility to introduce pins in different planes.

2 cl, 1 ex, 6 dwg

Description

The invention relates to medicine, namely to traumatology, and can be used in the treatment of calcaneus fractures.

There is a method of closed reposition and fixation of calcaneal fractures using a special awl, followed by holding it up to the cuboid bone, it remains during the entire period of fixation in a plaster cast (Rockwood and Green’s "Fractures in adualts", Charles, A., Rockwood, Jr. MD, David, P., Green, MD, Robert, W., Bucholz, MD; with 48 cintributors. - 1991 Third edition. - No. 2). This method does not allow accurate reponition and fixation of small fragments, the main and only fixing element is the awl.

There is a method of treating calcaneus fractures (Pat. RF 2238051, 2004), in which a device in the form of a lever with a L-shaped end and with a movable gripper is used to reposition a fragment. The L-shaped end of the lever is inserted under the posterior articular facet, pressed into the calcaneus, and the movable gripper of the device is installed on the calcaneal tubercle in front of the Achilles tendon. Acting on the free end of the lever, hold the fragment in the anatomical position and fix it. Then, the reposition apparatus is removed.

This method requires opening the fracture site and mechanical manipulations with fragments in the areas of the most damaged tissues, which significantly worsens the blood supply to the fracture area and surrounding tissues, in addition, it is impossible to reposition with comminuted fractures with small fragments.

A known method of reposition of intraarticular fractures of the calcaneus (Pat. RF 2192798, 2002). An awl is inserted through the Achilles tendon under the fragments of the articular surfaces of the calcaneus and the fragments are raised from bottom to top, while using the calcaneal tuber as a fulcrum, moving it down, reponing and forming the normal Beller angle, which improves matching and prevents joint arthrosis.

However, the known solution does not allow to achieve a complete reposition of calcaneus fragments and the reliability of fixation of fragments, since one reponing lever and a fragment fixator are used. Fragments are held on the awl-rod due to the intact fascial-desmoid heel of the calcaneus, with damage to it and the comminuted nature of the fracture, reposition and fixation become impossible.

The task is to improve the quality of reposition by managing individual fragments and the reliability of their fixation.

In the method for treating calcaneus fractures, including reposition of fragments of an awl and their fixation, according to the technical solution, first, based on the X-ray or three-dimensional computer reconstruction data, the direction of insertion of the reponing awl and the fulcrum for each large fragment are determined by the position of the fragments, then the fragments are repositioned separately and fixation of each fragment with knitting needles. In a multi-fragmented fracture, additional fixation is performed by two axially cross-knitting needles inserted along the calcaneus.

The choice of the direction of insertion of the repairing awl and the fulcrum for each large fragment, based on x-ray data or three-dimensional computer reconstruction data on the position of the fragments, allows avoiding the awl near the neurovascular formations and tendons, since they are subjected to mechanical pressure at the time of reposition of the fragments, select a support point for the awl, which simplifies the reposition of a single fragment, and the possibility of separate reposition of fragments allows you to control the movement of the fragment in the desired direction, which increases the accuracy of their comparison. In addition, it is possible to fix the knitting needles in all planes, taking into account the created resistance to the calf muscle, which allows each replicated fragment to be securely fixed for the entire postoperative period. The introduction of the spokes through the damaged skin and through the plantar surface of the foot is excluded due to its impaired blood supply arising from a calcaneus fracture, and in the presence of only large fragments, the introduction of the spokes through the articular surfaces is excluded.

Thus, the ability to control individual fragments and fixation of each fragment allows to improve the quality of reposition and increase the reliability of fixation, this contributes to the anatomical restoration of the calcaneus and the normal talacaneal angle, which increases the effectiveness of treatment.

Figure 1-5 shows the possibilities of introducing spokes in different planes for fixing fragments:

Figure 1 - fixation with needles after restoring the angle of the calcaneus. Figure 2 - introduction of knitting needles from the dorsal surface of the calcaneal tuber. Figure 3 - the introduction of knitting needles from the side of the plantar-dorsal surface of the calcaneal tuber. Figure 4 - the introduction of the front spokes into the body of the calcaneus. Figure 5 - introduction of knitting needles laterally into the body of the calcaneus.

Figure 6 presents the calcaneus with introduced needles: the main and cross.

The method is as follows.

After general anesthesia and muscle relaxation in the abdominal position under aseptic conditions, the injured limb is bent in the knee joint. Based on the data of x-ray or three-dimensional computer reconstruction (CT) data, conditional marks corresponding to the main fragments requiring reposition are applied to the skin, and the direction of insertion of the repairing awl and the fulcrum for each large fragment are determined by the position of the fragments. Under the control of the image intensifier, a repair awl is inserted through a small incision on the skin, which is carried out over or through the repaired fragment, abutted at the selected support point and creates a reparative force directed against the gastrocnemius muscle in the direction of the assumed initial position. Fix it with a spoke (for example, with a diameter of 2 mm). After this, another fragment is repaired and fixed with a knitting needle. In the presence of fragments displaced in the frontal plane, reposition is performed by preloading them with two hands and cross-fixing to the main fragments or to the talus.

The final fixation is performed after x-ray evaluation of the performed manipulations. In the presence of large fragments and a sufficient reposition of the fracture, trans-articular spokes inserted into the talus can be pulled up. Given the frequent damage to the articular surface of the subtalar joint from the calcaneus, especially with a comminuted fracture, fixing needles can, if necessary, be inserted through the articular surfaces of other bones of the foot, as this will allow the most reliable fixation of fragments to fusion (Figure 1).

With a multi-fragmented nature of the fracture, additional fixation is performed. Additional fixation is performed by two axially cross-knitting needles (for example, with a diameter of 2 mm) inserted along the calcaneus (Fig.6).

Single seams are applied at the sites of insertion of the reponseal awl. The ends of the needles bend and apply aseptic dressings. External immobilization is performed by applying a circular gypsum dressing to the middle third of the thigh in the position of flexion in the knee joint to 130 degrees and plantar foot flexion of 115-120 degrees. Bandaging is performed 1-2 times a week through a window in a bandage in the area of the calcaneal tuber. After 1.5 months, the plaster cast is shortened to the upper third of the leg. The knitting is carried out throughout the entire period of fusion 2.5-3 months.

Clinical example. Patient N., 42 years old, was admitted to the hospital with comminuted intraarticular fracture of the right calcaneus.

According to x-ray and computed tomography, fragmentation of the talus of the calcaneus across and along the proximal section and a joint fragment with a process of the calcaneus of 2 cm by 1.5 cm, displaced to the side of the plantar surface by 1 cm were detected. The patient was assigned a closed reposition of the fracture with fixation fragments with needles (under conduction anesthesia).

On the operating table in a position on the abdomen and flexion in the knee joint at an angle of 90 degrees under the control of an electron-optical transducer, separate reposition of fragments with an awl is performed.

Based on the data of X-ray and CT, the degree of fragmentation of the calcaneal tuber and the direction of insertion of the repair awl were determined: (Beller angle, calcaneus angle – minus 10 degrees), a longitudinal skin incision is made in the area of the Achilles tendon base, a skin reserve is formed taking into account the movement of the awl, the awl is introduced with side of the Achilles tendon attachment surface towards the sole to the maximum length of the fragment, which is moved along a radius of 40 ° towards the plantar surface with traction along the length and the fragment is fixed with knitting needles. The articular fragment is repositioned with the calcaneus process, for which the awl is introduced from the side of the plantar surface of the foot and fixed with knitting needles. On the control radiographs: Beller's angle was corrected to 125 degrees (on a healthy limb - 130 degrees), the congruence of the articular surface was restored. Aseptic dressings were applied to the upright knitting needles, the limb laid on the Beller tire. 3-4 days after reducing swelling of the soft tissues and completing the outflow of hematoma on the knitting needles, the ankle joint is at an angle of 115-120 degrees, and the knee joint in the flexion position of 150-140 degrees is fixed with a circular plaster cast for 1.5 months, then the plaster cast was shortened to the upper third of the leg.

The total fixation period in the plaster cast was 2.5-3 months. On the control radiographs, the heel bone fracture coalesced, Beller's angle was 125 degrees, the load on the leg was allowed, the arch insole was worn, and joint movements were developed. At 4 months, disability was fully restored.

Thus, the use of the proposed method increases the effectiveness of the treatment of calcaneus fractures, improves the anatomical and functional results of treatment, by increasing the accuracy of the reposition of fragments and their reliable fixation.

Claims (2)

1. A method of treating calcaneus fractures, including reposition of fragments of an awl and their fixation, characterized in that first, on the basis of the fragments, the direction of insertion of the repairing awl and the fulcrum for each large fragment are determined based on x-ray data or data of three-dimensional computer reconstruction, then separate reposition is performed fragments and fixation of the fragment with knitting needles. 2. A method for the treatment of calcaneus fractures according to claim 1, characterized in that in the case of a multi-fragmented fracture, additional fixation is performed by two axially cross-knitting needles inserted along the calcaneus.

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