RU2436535C1 - Method of treating knee joint osteoarthrosis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to orthopedics and can be used for treatment of knee joint osteoarthrosis. Sampling of content of tibia and femur tunnels is performed, as content of tibia and femur tunnels selected is bone marrow of spongy substance, which immediately after sampling is diluted with sterile physiological solution 1:4 to total amount 2 ml. Obtained mixture is introduced into upper torsion of knee joint. Into each tunnel along its entire length subcortically introduced are 0.25 ml of 2% solution of pentoxifylline once, after that on the 2,3,4 and 5-th days after operation - two times per day.

EFFECT: method makes it possible to stimulate blood circulation directly in subcortical layers of joint parts.

3 cl, 1 ex

Description

The invention relates to medicine, in particular to orthopedics, namely to extra-articular methods of treating heterogeneous gonarthrosis, and can be used in clinical departments specializing in the treatment of joint diseases.

A known method of surgical treatment of deforming arthrosis of the knee joint, which consists in tunneling with drill bits of the articular departments (M.Kh. Khaddadin. Surgical treatment of deforming arthrosis of the knee joint. // Orthopedics, traumatology and prosthetics. - 1981, No. 3, p. 27-29).

However, the known method is very traumatic, because after preliminary sections of soft tissues, tunneling of the subchondral condyles is performed in the sagittal direction with a large diameter drill (8 mm). In addition, the method does not provide a targeted biological effect on the subchondral zone of the condyles of the femur and tibia with potentiation of reparative tissue genesis.

A known method of treating deforming arthrosis of the knee joint, including injecting fluid into the cavity of the joint and subchondral osteoperforation and tunneling of the articular ends, tibia osteotomy, fixation of fragments and subsequent correction of the limb axis using transosseous apparatus, in which, after injection of novocaine under pressure into the upper collar produce its reduction through 3-5-fold flexion and extension of the lower leg. Then, a partial bilateral ligamentotomy of the transverse, supporting ligaments of the patella and pterygoid ligament is performed. After that, the joint is washed sequentially with physiological saline and novocaine to clean wash water, subchondrally formed in the patella of at least three tunnels through mutually oblique directions, the intraosseous pressure in the bone marrow cavity of the tibia is reduced (RF patent for the invention No. 2193363, CL АВВ 17/56 Published on November 27, 2002).

However, in the known method, reparative chondrogenesis is not potentiated by the introduction of intravital biologically active substances of the bone marrow and stromal cells from the bone marrow into the subchondral parts of the bones.

There is also a method for modeling the treatment of full-layer defects in cartilage of the knee joint, in which, after modeling the walls and the bottom of the defect, a piece of adipose tissue tissue is taken for subsequent isolation and cultivation of autologous mesenchymal stem cells, which are then punctured three times into the cavity of the knee joint (RF patent for invention No. 2351020, class G09B 23/28. Published on March 27, 2009).

But this method is traumatic when collecting fragments of the fatty body; in addition, there is a risk of additional damage to the cartilage of the knee joint during the fence.

Closest to the proposed in its technical essence is a method of treating osteoarthritis, including fan subchondral decompression tunneling of the articular and patella, in which the contents of the bone marrow cavity of the tibia are taken, which is diluted 1: 6 with sterile physiological saline immediately after collection. A needle attached to a syringe is drawn into the final zone of each tunnel, and at least 0.3 mm is injected subchondrally, aseptic dressings are applied to the wounds. During rehabilitation treatment, walking with orthopedic unloading of the joint and subsequent gradually increasing load on the leg is recommended. In the subchondral layer of the articular regions, at least 16 zones of active remodeling are formed (RF patent for the invention No. 2363408, class A61B 17/56. Publ. 10.08.2009).

However, this method is also traumatic, because It involves subchondral decompression tunneling, the use of a perforator and cannulated vintamandren to collect the contents of the marrow cavity of the tibia and the formation of at least 16 subchondral tunnels in the articular and patella, which can lead to detachment of the articular cartilage from the bone closure plate during its subchondralization and, as a consequence, to narrowing the function of the knee joint with limited movement and load on the operated limbs.

The problem to which the claimed invention is directed is to increase the effectiveness of the method of treating osteoarthrosis of the knee joint and reduce its morbidity.

The technical result consists in stimulating blood circulation directly in the subcortical layers of the articular regions.

The problem is solved in that in a method of treating osteoarthritis of the knee joint, including decompression tunneling of the articular departments, sampling the contents of the tibia tunnels, diluting the contents with sterile saline, forming zones of active remodeling in the articular departments, additionally sampling the contents of the femoral tunnels, while as the contents of the tunnels of the tibia and femur, the bone marrow of the spongy substance is chosen, which directly after the fence, dilute with sterile saline 1: 4 to a total of 2 ml. The resulting mixture is injected into the upper inversion of the knee joint, and 0.25 ml of a 2% solution of pentoxifylline is injected subcortically into each tunnel along its entire length. Then, on the 2nd, 3rd, 4th and 5th days after the operation - twice a day, and 10 days after surgical treatment, pentoxifylline is prescribed orally 200 mg 3 times a day for 10 days.

The fence of the spongy substance of the femur and tibia in the tunnels reduces the invasiveness of the method.

The spongy content of the femur and tibia contains live autologous mesenchymal stem cells that stimulate the formation of articular cartilage from the side of the joint cavity and act on it as a biological stimulator, which increases the effectiveness of the treatment.

Dilution of the contents of the spongy substance with a sterile saline solution 1: 4 to a total amount of 2 ml allows, without prejudice to bone marrow hematopoiesis, to obtain the necessary amount of its own chondrogenesis stimulator.

The introduction of the mixture into the upper inversion of the knee joint leads to a uniform distribution of the mixture over the entire surface of the damaged and intact cartilage.

The introduction into each tunnel along its entire length subcortical 0.25 ml of a 2% solution of pentoxifylline once, then on the 2nd, 3rd, 4th and 5th days after surgery - twice a day, and 10 days after surgical treatment pentoxifylline 200 mg orally 3 times a day for 10 days additionally locally stimulates blood circulation in the subcortical areas of the pineal gland due to an improvement in the viscoelastic properties of the blood, thereby further reducing venous hyperemia and increasing the supply of oxygen to the bone chondrogenic zones and plastic properties.

The method is as follows.

Surgical treatment is carried out under epidural anesthesia after treatment of the lower limb with an antiseptic solution. Through skin punctures in the projection of the epiphyses of the femur and tibia, frontally parallel to their articular surfaces form 4 zones of active remodeling with a spoke of at least 2 mm in diameter in the femur and tibia in the subcortical layer.

A needle attached to a syringe is drawn into the final zone of each tunnel, and, gradually removing the needle from the tunnel, the contents of the tunnels of the femur and tibia are taken. The bone marrow obtained in the tunnels of the cancellous spongy femur and tibia is diluted with sterile saline 1: 4 to a total amount of 2 mm and the resulting mixture is injected into the upper inversion of the knee joint. A needle attached to a syringe is drawn into the initial zone of each tunnel to a depth of 0.5 cm, and 0.25 ml of a 2% solution of pentoxifylline is injected subcortically once. The operation is completed by applying aseptic dressings to skin punctures.

After surgery for the period of rehabilitation treatment, walking with crutches is recommended, and subsequently with a gradually increasing load on the leg. On the 2nd, 3rd, 4th and 5th day after surgery under aseptic conditions after treating the knee joint area with an antiseptic solution, a needle attached to a syringe is inserted into the initial zone of each tunnel to a depth of 0.5 cm and 0.25 ml of subcortical 2 % solution of pentoxifylline twice a day. 10 days after surgical treatment, pentoxifylline is administered orally at 200 mg 3 times a day for 10 days.

Example

Patient M., 62 years old. Received at the Saratov Research Institute of Traumatology and Orthopedics (SarNIIITO) with a diagnosis of idiopathic right-sided gonarthrosis, II art. with pain. Complaints: pain in the knee joint when walking and at rest, lameness. Clinical examination: restriction of extension (160 degrees) and flexion (95 degrees) in the knee joint. On the radiograph of the right knee joint, subchondral sclerosis, narrowing of the joint gap are noted.

Under epidural anesthesia after treatment of the lower extremity with an antiseptic solution in the frontal plane through skin punctures in the projection of the epiphyses of the femur and tibia, 4 zones of active remodeling with a 2 mm diameter spoke were subcortically formed parallel to their articular surfaces. A needle attached to a syringe was sequentially drawn into each tunnel and the contents (bone marrow of the spongy substance) of the tunnels of the femur and tibia were taken. This content was diluted with sterile saline 1: 4 to a total of 2 ml, and the resulting mixture was injected into the upper inversion of the knee joint. Then, in each tunnel along its entire length, 0.25 ml of a 2% solution of pentoxifylline was injected with a syringe once through a needle. The operation was completed by applying aseptic dressings to skin punctures.

On the 2nd, 3rd, 4th and 5th day after the operation under aseptic conditions after treating the knee joint area with an antiseptic solution, 0.25 ml of a 2% solution of pentoxifylline twice daily was injected subcortically into each tunnel along its entire length.

10 days after surgery, the patient received oral pentoxifylline 200 mg 3 times a day for 10 days.

In the postoperative period, the patient walked with the help of crutches with a gradually increasing load for two weeks on the operated leg.

10 days after surgery, the pain in the knee joint stopped, 1 month after the operation, the range of motion in this joint was restored to full.

When examining 1 year after surgery: no complaints, movement in the knee joint in full.

On the radiograph of the right knee joint, a significant decrease in the signs of subchondral sclerosis and the preservation of the former dimensions of the joint gap are noted. Disability is restored, the patient continues to work.

Thus, the claimed invention allows to increase the effectiveness of the method of treating osteoarthrosis of the knee joint and reduce its invasiveness.

Claims (3)

1. A method of treating osteoarthritis of the knee joint, including decompression tunneling of the articular departments, sampling the contents of the tibia tunnels, diluting the contents with sterile saline, forming active remodeling zones in the articular departments, characterized in that the contents of the femoral tunnels are additionally sampled, while the contents of the tunnels of the tibia and femur choose the bone marrow of the spongy substance, which immediately after the extraction of sterile saline solution 1: 4 to a total of 2 ml and the resulting mixture is injected into the upper inversion of the knee joint, and 0.25 ml of a 2% solution of pentoxifylline is injected subcortically into each tunnel along its entire length, then by 2, 3 , 4 and 5 days after surgery - twice a day, and 10 days after surgical treatment, pentoxifylline is administered orally 200 mg 3 times a day for 10 days. 2. The method according to claim 1, characterized in that it forms 4 zones of active remodeling in the subcortical layer in the femur and tibia. 3. The method according to claim 1, characterized in that the diameter of the tunnels is at least 2 mm.