RU2328238C2 - Method of fermoral neck false joint and whirlbone osteonecrosis treatment - Google Patents

Abstract

FIELD: medicine; traumatology.

SUBSTANCE: bone-periosteal-muscle-fasciocutaneous flap is cut out by external surface of proximal femur within metaphysis crossed to shaft and bolded back ectad and backwards. Spongy bone is compacted by fermoral neck axis using inmpactor accompanied with destruction and consolidation of false joint tissues whirlbone osteonecrosis. Formed defect of fermoral neck tissue is filled with spongy autotransplant taken from wing of ilium and fixed with compressing screws. Cut flat is laid in its bed.

EFFECT: method provides wide operative access to spongy bone; complete sanitation of cicatrical and necrotising tissue within bone defect; stable fixing and reduced trauma number.

4 dwg, 1 ex

Description

The invention relates to medicine, namely to traumatology and orthopedics, and can be used in the surgical treatment of a false joint of the neck and osteonecrosis of the femoral head.

There is a method of treating femoral neck fractures when a bone graft on a muscle leg is cut out from a large trochanter and transferred to the fracture zone, and the defect at the site of its collection is filled with bone fragments (see RF Patent No. 2128017, 1999).

Closest to the proposed method is a method of bone grafting of a medial fracture and a false joint of the femoral neck, by which two bone autografts are formed in the proximal part of the femoral head with a milling cutter, they are removed and re-placed in the back of the femoral neck (see RF Patent No. 2126231 ) However, this method does not achieve complete sanitation of the zone of the false joint of the neck and osteonecrosis of the femoral head, the bone graft covers only part of the area of the false joint and replaces a small part of the necrotic head of the femur.

The technical result of the proposed method of treatment is to achieve complete rehabilitation of the scar and necrotic tissue in the area of the false joint of the neck and osteonecrosis of the femoral head, reduce the morbidity of the operation and ensure stable fixation for the entire treatment period.

What is new in achieving the technical result is that, on the outer surface of the proximal femur in the transition zone of the metaphysis and in the diaphysis, a bone-superficial-muscular-fascial-skin flap is cut out, it is folded outwards and backwards.

Also new is the fact that along the axis of the femoral neck, an impactor performs compaction of the trabecular bone with destruction and compaction of the tissues of the pseudarthrosis and osteonecrosis of the head.

It is also new that a bone defect in the femoral neck is filled with a spongy autograft from the iliac wing, then it is fixed with compression screws and a cut flap is placed in its bed.

Performing osteoplastic access on the outer surface of the femur in the zone of transition of the proximal metaphysis to the diaphysis reduces the invasiveness of the operation, since access is performed in an area devoid of neurovascular formations and joint capsules.

The abduction of the flap on the feeding leg provides wide access to the cancellous bone forming the neck and head of the femur.

The formation of a bone-superficial-muscular-fascial-skin flap ensures the consolidation and improvement of blood supply in the osteonecrosis zone.

The compaction of the cancellous bone with its compaction and destruction ensures the achievement of full rehabilitation of the scar and necrotic tissue, and also helps to restore the function of the limb.

Comparative analysis with the prototype shows that the proposed method differs from the known one in that on the outer surface of the proximal femur in the zone of transition of the metaphysis into the diaphysis, a bone-superficial-muscular-fascial-skin flap is cut out and folded outward and posteriorly along the axis of the femoral neck the sponge bone is compacted with the destruction and densification of the tissues of the pseudarthrosis and head osteonecrosis, and the resulting bone defect in the femoral neck is filled with a spongy autograft from the iliac wing, then fixation with compression screws and lay the cut flap in his bed, which meets the criterion of "novelty."

A new set of features allows to achieve full rehabilitation of scar and necrotic tissue in the area of the false joint of the neck and osteonecrosis of the femoral head, reduce the invasiveness of the operation and ensure stable fixation for the entire treatment period, which meets the criterion of "industrial applicability".

The proposed method is illustrated by drawings, in which Fig. 1 shows osteoplastic access to the neck and head of the femur, Fig. 2 shows the compaction of the cancellous bone of the head and neck of the femur using an impactor, Fig. 3 shows the implementation of bone autoplasty with a spongy graft and osteosynthesis with compression screws, in Fig. 4 - the final stage of the operation - the cut flap is placed in its bed.

A method of treating a false joint of the neck and osteonecrosis of the femoral head is as follows.

Access to the proximal femur (to the trabecular bone forming the neck and head) is through a linear incision that begins from the apex of the greater trochanter, retreating from its apex 1.5 cm distal to the border of the femoral metadiaphysis. Soft tissue in the course of access is dissected in one block with the periosteum. A bone-periosteal-muscular-fascial-skin flap is formed along the outer surface of the femur below the attachment of the gluteus maximus muscle at the upper-outer edge of the attachment of the external broad muscle of the thigh along the dissection line of the periosteum of the femur using bits. The chisels are set at an angle of 20-30 degrees to the axis of the femur with an angle open inwards, dissecting the adjacent cortical layer of the femur and partly the base of the greater trochanter. The posterior cortical layer of the femur is perforated with drills of 2-3 mm in diameter, installed in the dissection plane of the anterior cortical layer with openings between the holes 1.5-2.0 cm. The final stage of the formation of the bone-periosteal-muscular-fascial-skin flap on the feeding leg is carried out by cutting the gaps between perforations with chisels, slow dilution of the dissected anterior cortical layer of the femur with a bone retractor, with a rotation point of the formed bone flap on the feeding but around the axis passing along the notched posterior cortical layer of the femur (figure 1). This opens up a wide view to the cancellous bone forming the neck and femoral head. Through the formed window at the site of the cut flap, the cancellous bone is compacted using an impactor. At the same time, they pass the zone of the false joint of the neck to the internal curvature of the femoral head, destroying and densifying pathological and healthy bone tissue (Fig. 2). A bone autograft is taken from the iliac crest and the resulting bone defect is filled with it after compaction. Fixation is carried out by two compression screws (figure 3). A bone flap is placed in its bed with moving the front edge of the bone flap until it contacts the front edge of the "mother bed" (Fig. 4). Due to the reduction of the muscles attached to the bone flap and the tension of the broad fascia of the thigh, the contact is strong.

The proposed method is illustrated by the following clinical example.

Patient B., 46 years old. He was admitted with complaints of pain in the left hip joint, difficulties with movement and self-care. I was injured two years ago. He was operated on for a closed subcapital fracture of the neck of the left femur using a closed reposition method with screw osteosynthesis. On admission, she walks with great difficulty with the help of a crutch and a cane.

Clinical and radiological diagnosis: false joint of the neck, osteonecrosis 3 tbsp. heads of the left femur.

The operation of the proposed method.

Access the proximal femur through a linear incision that begins 1.5 cm distal to the tip of the greater trochanter to the border of the metadiaphysis of the femur. Soft tissues in the course of access are dissected in one block with the periosteum. The formation of a bone-periosteal-muscular-fascial-skin flap along the outer surface of the femur below the attachment of the gluteus maximus muscle at the upper outer edge of the attachment of the external broad muscle of the thigh is carried out along the dissection line of the periosteum of the femur using bits, putting them at an angle of 20-30 degrees to the axis femur with an angle open inwards. The adjacent cortical femur and partly the base of the greater trochanter are dissected. The posterior cortical layer of the femur is perforated with drills. Then the gaps between the perforations are cut and the dissected anterior cortical layer of the femur is slowly diluted with a bone expander. Through the formed window, using the impactor, the cancellous bone is compacted, passing the zone of the false joint of the neck to the internal curvature of the femoral head, destroying and densifying pathological and healthy bone tissue. A bone autograft is taken from the iliac wing and the resulting bone defect is filled with it after compaction. Fixation is carried out by two compression screws. The flap is placed in its bed with the movement of the front edge of the cut flap to contact with the front edge of the "mother bed".

Postoperative course without complications.

Long-term results of the operation were tracked after 6 months, 1 year and a half years. Complaints of pain in the left hip joint, walks without crutches, with a full load on the limb, limb function restored. Clinically and radiographically, the fracture was healed, in the area of the head and neck of the left femur, the bone structure was restored.

Claims (1)

A method of treating a false joint of the neck and osteonecrosis of the femoral head by accessing and cutting a graft, characterized in that on the outer surface of the proximal femur in the zone of transition of the metaphysis into the diaphysis, a bone-periosteal-muscular-fascial-skin flap is cut and it is folded outwards and posteriorly, along the axis of the femoral neck, an impactor compactes the cancellous bone with destruction and compaction of the tissues of the pseudarthrosis and osteonecrosis of the head, and the resulting bone defect in the neck cancellous autograft core is filled from the wing of the ilium, then fixing is carried out with compression screws and placed in a cut flap his bed.

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