RU2627815C1 - Method for tubular bone defects plastic in patients with chronic osteomyelitis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: sanation of the osteomyelitis focus, plastic of the bone cavity by platelet-enriched autoplasm and biomaterial are performed. At that, prior to plastic surgery, a thin needle is rotated in various directions to provide revascularizing osteoperforation of the bone cavity walls along the edge of which the bioplastic membrane "Collost" is fixed with transossal sutures, without tightening the threads. The intact autologous muscle tissue is taken, which is ground to the state of muscle mince. It is mixed with the platelet-enriched autoplasma and densely placed in the bone cavity, which is sealed with the bioplastic membrane "Collost", tightening the threads of the transossal sutures.

EFFECT: method allows to ensure sealing of the plastic area of tubular bones defects in patients with chronic osteomyelitis, to create optimal conditions for reparative processes of bone tissue.

1 ex

Description

The invention relates to medicine, namely to general surgery, traumatology and orthopedics, and can be used in the surgical treatment of chronic osteomyelitis of long tubular bones.

A known method of bone grafting with a crushed muscle autograft with the addition of the autofibronectin adhesive preparation (1).

The disadvantage of this method and the use of other adhesive compositions is their high cost and the absence in the conditions of surgical hospitals of the developed technique for procuring auto preparations.

There is a known method of plasticizing bone defects by replacing them with bone autografts, taken from standard donor zones, covered by the type of “stocking” with a layer of platelet-rich patient autoplasma; under this layer, bone marrow puncture from the patient ileum is injected into bone autografts and / or an autoculture of stromal cells obtained from the punctate by in vitro cultivation, the filled bone cavity is covered with adjacent soft tissues (2).

The disadvantage of this method is its invasiveness when taking bone autograft, which increases the risk of postoperative complications in the donor bed, exacerbates the pain syndrome. In patients with chronic osteomyelitis, the likelihood of rejection of the bone graft increases with a reduced immune response. The need to use cells increases the cost and complexity of treatment. Closure of the filled bone cavity with soft tissues in patients with chronic osteomyelitis is sometimes impossible due to their cicatricial degeneration.

A known method of plasticity of defects of tubular bones by using platelet-rich autoplasma and autologous cancellous bone (3).

The disadvantage of this method is its trauma during the sampling of a bone autograft, which increases the risk of postoperative complications in the donor bed and aggravates the pain syndrome. In patients with chronic osteomyelitis, the likelihood of rejection of the bone graft increases with a reduced immune response. There is no sealing of the replenished bone cavity.

A known method of treating patients with long-term non-healing fractures, false joints and defects of long bones using the combined use of platelet-enriched autoplasma and biocomposite material “Collapan” (4). This method is taken by us as a prototype.

The disadvantage of this method is that the liquid part of the plasma enriched with platelets and the drug “Kollapan” used in granules cannot fully compensate for a defect in the bone cavity, since its sealing is absent. Part of the autoplasm flows into the surgical wound, thereby reducing its osteoinductive effect. With this method, it is often necessary to perform osteosynthesis to stabilize the area of bone grafting. In the postoperative period hemorrhages are often observed, which leads to the formation of subcutaneous and paraossal hematomas, and even to their suppuration in conditions of reduced immunoresistance in patients with chronic osteomyelitis.

The aim of the invention is the provision of sealing the plastic region of defects of tubular bones in patients with chronic osteomyelitis, creating optimal conditions for reparative processes of bone tissue.

This goal is achieved by performing revascularizing osteoperforation of the walls of the bone cavity in different directions before thin-spoke plastic surgery, along the edge of which the Kollost bioplastic membrane is fixed with transossal sutures without tightening the threads; carry out sampling of intact autologous muscle tissue, which is crushed to the state of minced meat, mixed with autoplasma enriched with platelets and tightly placed in the bone cavity, which is sealed with a Kollost bioplastic membrane, tightening the threads of transossal sutures.

Thus, the method provides the formation of a sealed zone of plastic bone defect, creating optimal conditions for the course of regenerative processes. Performing revascularizing osteoperforation of the bone bed, using a mixture of autologous muscle tissue and autoplasma enriched with platelets - all this ensures that the maximum pool of osteoinductive substances and growth factors are located in the area of bone grafting.

When grinding muscle tissue to the state of mincemeat, platelet alpha granule inducers are released. When mixed with platelet-rich autoplasma, these inducers ensure their degranulation and the release of a pool of factors that stimulate regenerative processes. The sealing membrane “Kollost” itself is a biological material with a collagen modulating effect and subject to bioresorption over time.

The method is as follows.

After radical rehabilitation of the osteomyelitis focus, a revascularizing osteoperforation of the walls of the bone cavity is performed using a thin-pointed drill in different directions. A patch of the required size is cut out from the Kollost bioplastic membrane, which is fixed with transossal sutures along the edge of the bone cavity without tightening the threads.

Intact autologous muscle tissue is collected. As sources of muscle tissue, preference is given to spindle-shaped or bipernate muscles located outside the zone of purulent-inflammatory process, the bodies of which are free from scars and are well supplied with blood. Muscle tissue is crushed manually or by a morcellator to the state of minced meat. Then it is mixed with autoplasma enriched with platelets and tightly placed in the bone cavity, which is sealed with a Kollost bioplastic membrane, tightening the threads of transossal sutures. The wound through which the autologous muscle tissue was taken is drained and sutured. The wound through which bone grafting was performed is sutured tightly.

The method is illustrated by a clinical example.

Patient B., 28 years old. The diagnosis is chronic post-traumatic osteomyelitis of the right tibia, exacerbation, fistulous form. History - closed comminuted fracture of the bones of the right lower leg.

Intraoperatively after staining of the fistulous passages of the middle third of the right lower leg and formation of access, destruction of the periosteum over 7 cm, altered soft tissues are determined. The tibia is gray in color, does not bleed contact, is overbrowed and stained with contrast for 5 cm. Trepanation of the right tibia for 5 cm is performed, 2 sequestries of 2 × 3 and 2.5 × 4 cm and 3 × 4 plate sequestration are visualized , 5 cm. They are gray in color, around a large number of small sequesters, pathological granulations. A bone cavity 5 × 2.5 × 2 cm in size was formed with a flat chisel. A curettage was performed with a Volkman spoon of the bone cavity and surrounding soft tissues. Removed minor sequesters. Sanitation with antiseptic solutions, exposure to Octenisept solution for 5 minutes. The patch of the required size was cut from the Kollost bioplastic membrane, fixed with transossal sutures along the edge of the bone cavity without tightening the threads.

An additional incision in the anteroposterior region of the right thigh. Dissected skin, fiber, performed hemostasis. Fascia lata is dissected, access to m is bluntly and sharply executed. vastus lateralis. A portion of muscle 4 × 5 cm was taken, the ends of the resected muscle were sutured with Z-sutures with absorbable suture 3.0. A portion of the muscle is stacked in a tray and chopped manually to the state of muscle stuffing.

Performed a blood sampling from the peripheral vein of the patient. By double centrifugation according to the standard procedure on a CENTRIFUGE 80-S2 apparatus, 2 ml of autoplasma enriched in platelets, which is mixed with minced meat, were obtained. The mixture is tightly placed in the bone cavity, which was sealed with a Kollost bioplastic membrane by tightening the threads of transossal sutures. The wound through which autologous muscle tissue was taken was drained and sutured. The wound through which bone grafting was performed was sutured tightly.

The postoperative period without complications. Conservative treatment was carried out (antibiotic therapy taking into account the sensitivity of microflora, analgesics, vascular therapy, vitamin therapy, physiotherapy). The patient was discharged on the 21st day after the operation under the supervision of a surgeon on an outpatient basis. Re-examination after 3 months from the date of surgery. Edema and hyperemia in the right lower leg. Postoperative scar normergic, without signs of inflammation. Fistulous passages are absent. On the control x-ray, the formation of new bone tissue in the plastic region is determined. Re-examination after 6 months. Relapse of the disease is not observed. On the control x-ray is determined by the replacement of the defect with newly formed bone tissue, the strengthening of the bone structure.

The proposed method can be recommended for use in surgical departments for plastic surgery of defects in tubular bones in patients with chronic osteomyelitis.

Information sources

1) RF patent No. 2323734.

2) RF patent No. 2356508.

3) RF patent No. 2517563.

4) RF patent No. 2283043.

Claims (1)

Method for plastic surgery of defects of tubular bones in patients with chronic osteomyelitis, including sanitation of an osteomyelitis lesion, plastic surgery of the bone cavity with platelet-rich autoplasma and biomaterial, characterized in that prior to plastic surgery with a thin spoke, they perform revascularizing osteoperforation of the bony cavity walls with transoplastic bone tissue along the edge “Kollost” membrane without tightening the threads; carry out sampling of intact autologous muscle tissue, which is crushed to the state of minced meat, mixed with autoplasma enriched with platelets and tightly placed in the bone cavity, which is sealed with a Kollost bioplastic membrane, tightening the threads of transossal sutures.