RU2402298C1 - Method of internal fracture fixation with wide diametre of marrowy canal of long bone - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to traumatology and orthopaedics. The geometry of an injured bone is assessed. Two autografts are formed of the fibular bone of total length 70-75% of the shaft length of the injured bone. The autografts are perforated along the whole length. The fracture ends are resected to open the marrowy canals. The autografts are introduced parietally into the marrowy canals. A compressed extensible nail is inserted into the marrowy canal from a proximal fragment. After passing the proximal fragment, a distal end of the extensible nail is inserted into the marrowy canal of a distal fragment. The extensible nail and autografts are tightly pressed to walls the marrowy canal by extending the nail to maximum diametre. The Fixion nailing system is used as said extensible rod. The nail is extended by the introduction of physiologic saline under pressure up to 80 Bar.

EFFECT: method provides reliable internal fragment fixation of the injured long bone, reduced traumatism and complexity of a surgical intervention.

1 ex, 3 cl, 1 dwg

Description

The invention relates to the field of medicine, namely to traumatology and orthopedics, and can be used to treat injured long bones with a wide diameter of the bone marrow canal, mainly more than 10 mm, by performing intramedullary fixation of fragments in fractures, overgrown fractures and defects in the form of a false joint, defect-diastases.

A known method of intramedullary bone osteosynthesis [RU patent for the invention No. 2200493]. The rod is smaller than the diameter of the medullary canal before insertion is bent in such a way that the transverse distance between the extreme points of two adjacent arches of the rod exceeds the diameter of the canal by 2-3 times, which creates a spring stop between the arches of the rod and the wall of the medullary canal. This method of treatment is suitable for intramedullary fixation of fragments with a wide diameter of the bone marrow canal, because the value of the bending of the rod is adjusted in accordance with the required diameter of the medullary canal.

However, the introduction of the rod into the medullary canal is laborious, increases the time of the operation and its invasiveness, because you must first enter the rod, hammering it into the soft tissue with a hammer, then remove it, thus forming a stroke for subsequent unimpeded introduction, bend it in an arc and enter it back into the medullary canal.

A known method of intramedullary osteosynthesis of fractures of the fibula [RU patent No. 2168317], which consists in the fact that the intramedullary rod fixing the fragments is carried out in the direction corresponding to the longitudinal axis of the intact fibula, characterized in that the said intramedullary rod is inserted directly into the distal by the maximum displaced posteriorly and outward from the center of the transverse section of the fibula, asymmetrically relative to the center of the cross section of the medullary canal of the central fragments.

However, in this method, the stability of fragments is achieved at the cost of inhibiting the process of reparative regeneration of bone tissue.

The closest analogue to the claimed invention is a method of intramedullary injection of an autograft into the medullary canal with various diameters [RU patent for invention No. 2233638]. The method is as follows. Resection of the ends of the pseudoarthrosis is performed. An autograft from the fibula is introduced telescopically. The autograft is fixed in the diaphysis with a screw. Osteosynthesis is performed with nickel titanium brackets having the effect of thermomechanical shape memory, so that one of the legs of the structure fixes the diaphyseal part of the humerus and the autograft, and the other only the head.

An autograft in this method is used for intramedullary fixation as an “axial rod”, along which fragments are continuously compressed by two brackets with thermomechanical memory. However, with a longer proximal fragment, the staples are not able to provide immobility, stability of the fragments, and the telescopic introduction into the prepared canal is associated with a large trauma to the bone substance. The introduction of a distal fragment into the proximal metaphysis leads to a pronounced shortening of the segment. Immobilization for one month leads to a restriction of movement in the joint.

The task of the invention is to provide strong intramedullary fixation of fragments of a long injured bone with a wide diameter, mainly more than 10 mm, with minimal trauma and complexity of the surgical procedure.

The essence of the method of intramedullary fixation of fragments with a wide diameter of the bone marrow canal of the long bone is characterized in that they evaluate the geometric parameters of the injured bone, form two autografts from the fibula, the total length of which is 70-75% of the length of the diaphysis of the injured bone, perforate them along the entire length, resection of the ends of the fragments with opening of the medullary canals is carried out, parietal autografts are inserted into the medullary canals, from the side of the medullary canal s proximal fragment is administered expanding rod in a compressed condition, after passage through the distal end of the proximal fragment of the expanding rod is introduced into the medullary canal of the distal fragment, produce dense pressing the expanding rod and bone marrow grafts to the walls of the channels by expanding to a maximum diameter of the rod.

In addition, the method described above is characterized in that a Fixion rod is used as the expanding rod.

The method described above is also characterized in that the rod is expanded by introducing physiological saline into it under pressure up to 80 bar.

The technical result of the claimed invention consists in solving the problem of ensuring strong intramedullary fixation of fragments with stimulation of osteogenesis with minimal trauma due to the introduction of autografts and an expanding rod into the medullary canal.

In the surgical treatment of long bones, a surgeon often faces a dilemma: either achieving stiff stability of the bone fragments, or ensuring optimal conditions for the course of osteogenesis. This alternative is due to the fact that, with some types of fixation, the stability of fragments is achieved at the cost of inhibiting the process of reparative regeneration of bone tissue. This issue is especially worthwhile in the treatment of patients with large physique with a wide diameter of the medullary canal. In this case, it is difficult to ensure the stability of bone fragments, and this is a necessary condition for healing.

The optimal type of fixation is one that combines the stability of fixation of fragments and a careful attitude to the sources of osteogenesis. In this application, along with strong intramedullary fixation of fragments, methods of stimulation of bone formation processes are also used by introducing perforated autografts into the bone marrow canal, which, in turn, reduce the diameter of the bone marrow canal to the size of the expanding core over the required length of fragments to 70%, which allows provide more stable fixation of fragments. The through holes in the autograft cause its more vascularization and rearrangement. These holes serve as niches for filling them with bone marrow, which is actively involved in post-transplant osteogenesis. The biological complex "transplant - bone marrow" stimulates the healing of bone wounds.

The expansion of the rod under fluid pressure up to 80 bar and the retention of digital values for 5-7 minutes indicates its blocking and rigid fixation of fragments. The choice of autograft length, which is 70-75% of the length of the bone diaphysis, is justified by the anatomy of the limb segment, namely its diaphyseal part of the bone marrow canal. A larger autograft will not anatomically repeat the shape of the bone, a smaller one will limit the blocking area of the expanding shaft and will not create conditions for rigid fixation.

The method is illustrated using the drawing, which shows the X-ray of patient X .: a) upon admission, b) with an autograft inserted into the bone marrow canal of the shoulder fragments and fixation with a Fixion rod - until it is expanded and blocked with screws; c) 4 months after surgery.

The method of carrying out the claimed invention

An x-ray study is carried out, according to which the size of the bone is estimated: the length of the fragments, the width of the medullary canal. Two autografts from the fibula of the required length, width and shape are formed, namely, the total length of the autografts is 70-75% of the length of the diaphysis of the injured bone. Autografts are perforated along the entire length, for example, with a thin drill with a diameter of about 2 mm. After opening the pathology zone, the ends of the fragments are resected. Then open the medullary canal. Consistently from the ends of the fragments, parietal autografts are introduced into the medullary canal.

Then, an expanding rod, for example Fixion, is introduced into the bone marrow canal from the side of the proximal fragment in a compressed state. After passing the proximal fragment, a distal fragment with a wall-mounted autograft is strung onto the distal end of the rod. Contact of fragments is checked, inter-fragment compression is carried out. After the final installation of the rod, resection of fragments by means of a pump, physiological saline is injected into the cavity of the rod under a pressure of up to 80 bar. There is an expansion of the intramedullary inserted rod and its intraosseous blocking - tight pressing against the walls of the bone marrow canal of the bone and autografts throughout. Additionally, the design is laterally locked with screws in the proximal portion of the shaft. The wound is sutured.

Example

Patient X. 68 years old was injured when falling from a height of 0.5 m. Local treatment was performed in the form of osseous shoulder osteosynthesis, removal of a previously installed plate, and development of movements in the joints of the upper limb.

After 1.5 years, she was taken to a medical institution with a diagnosis of "Defect-pseudoarthrosis of the middle third of the right humerus with a shortening of 3 cm." An X-ray examination was performed, which showed: the size of the proximal fragment is 12.0 cm, the size of the distal fragment is 18.5 cm, the width of the medullary canal is from 16 to 19 mm (see drawing, a). After preoperative preparation, the patient underwent surgery. An autograft was formed from the fibula of a size of 15 cm to 1/2 of its diameter: it was cleaned of soft tissues, drilled through holes in it and divided into 2 parts - 9 and 6 cm. Then, the ends of the fragments with opening of the bone marrow channels were resected. Formed perforated bone autografts were successively introduced into the fragments. Introduced an expanding Fixion rod with a diameter of 8.5 mm in a compressed state (in an expanded form, 8.6-13.5 mm) and a length of 24 cm (see drawing, b). Checked the contact of the fragments. Under a pressure of 80 bar, physiological saline was introduced into the expanding rod to the maximum expansion of the diameter of the rod to 13.5 mm. The pressure indicator remained stable for 8 minutes. In the proximal fragment, the expanding shaft was additionally transversely blocked by 2 screws through both cortical bone layers. A repeated x-ray examination was carried out, which showed that the fragments were compared correctly, the autografts were pressed against the cortical plate, the expanding shaft repeated the shape of the bone marrow canal (see drawing, c). The postoperative period was uneventful. Additional immobilization was not carried out. After stopping the pain symptom, a rehabilitation course has been started. One month after surgery, movements in the joints are restored. The patient started to work.

Claims (3)

1. The method of intramedullary fixation of fragments with a wide diameter of the bone marrow canal of the long bone, characterized in that they evaluate the geometric parameters of the injured bone, form two autografts from the fibula, the total length of which is 70-75% of the length of the diaphysis of the injured bone, perforate them throughout length, resection of the ends of the fragments with opening of the medullary canals is performed, parietal autografts are inserted into the medullary canals, into the medullary canal from the side of the maximum DUTY fragment administered expanding rod in a compressed condition, after passage through the distal end of the proximal fragment of the expanding rod is introduced into the medullary canal of the distal fragment, produce dense pressing the expanding rod and bone marrow grafts to the walls of the channels by expanding to a maximum diameter of the rod. 2. The method of intramedullary fixation of fragments with a wide diameter of the bone marrow canal of a long bone according to claim 1, characterized in that the Fixion rod is used as an expanding rod. 3. The method of intramedullary fixation of fragments with a wide diameter of the bone marrow canal of a long bone according to claim 1, characterized in that the rod is expanded by injecting saline into it under pressure up to 80 bar.

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