RU2465855C1 - Method for bone defect replacement in tibial and femoral condyles in total knee replacement - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly orthpaedics and traumatology, and may be used in bone defect replacement in tibial and femoral condyles in total knee replacement. The tibial and femoral condyles are resected. When resecting the defect-free condyle, it is sawn off at 2-6 mm from a planned level, and then at a planned level to form a plate-like spongy autograft. The presence of the tibial bone defect requires performing femoral condyle resection, while the presence of the femoral bone defect involves resecting the tibial condyle. A bone replacement material is presented by an osteoconductive material. The bone defect repair is followed by covering the repaired surface with the prepared autograft. Trial endoprosthesis is inserted.

EFFECT: method provides recovering a support ability of the knee joint, creating an adequate support for the endoprosthesis components and its stable fixation.

3 cl, 2 dwg, 1 ex

Description

The invention relates to medicine, in particular to orthopedics and traumatology, and can be used to restore the supportability of the knee joint during its total arthroplasty, namely to replace extensive bone defects of the condyles of the tibia and femur.

In the surgical treatment of the consequences of injuries or severe forms of arthrosis with total knee replacement, significant difficulties arise in the installation and stable fixation of the components of the endoprosthesis. Bone defects that occur in the medial, anterior or posterior margin of the condyles of the femur and tibia do not allow the endoprosthesis to be fully installed, correctly oriented and stably fixed [see Description of RU patent for invention No. 2200494].

A known method of replacing defects of the condyles of the tibia with knee replacement [RU patent for the invention No. 2241399]. After removal of the altered portions of the articular surfaces of the condyles, the surface of the condyle defect is cleaned of soft tissues. Then the defect is aligned so that it has a wedge-shaped shape and replaced with a metal modular wedge-shaped implant using bone cement.

However, the use of standard metal implants with certain sizes and shapes does not fully compensate for the bone defect and provide reliable support for the components of the implant. Individual manufacturing of the implant, depending on the size of the bone defect, also in most cases cannot ensure the achievement of the desired result, because accurate determination of the defect size during preoperative planning is impossible - the size and shape of the defect during the operation are modeled.

There are also known methods for repairing condylar defects of the femur and tibia used in knee arthroplasty, in which they are replaced with an autograft from condyles fillets [RU patent No. 2200494] or from the iliac crest [see description of patent RU for invention No. 2355324].

The disadvantage of these methods is the limited choice of transplant size. In this regard, in the presence of extensive bone defects in area and extent, these methods are not technically feasible. Performing an autograft removal from the iliac crest through an additional incision increases the invasiveness of the surgical intervention and, therefore, increases the risk of postoperative complications.

The closest analogue to the claimed invention is a method for replacing bone defects in total knee replacement [replacement of bone defects in primary knee replacement / N.N. Kornilov [et al.] // Traumatology and Orthopedics of Russia. 2008. No. 1. P.76-81], including replenishment of bone deficiency with polymethyl methacrylate, i.e. bone cement, if necessary with reinforcement of 1-3 screws.

However, the shrinkage of cement during polymerization can reach 2%, and the uneven distribution of the load on the underlying bone with eccentrically acting forces can subsequently lead to a violation of the fixation strength of the components of the endoprosthesis.

The objective of the invention is the creation of a full support for the components of the endoprosthesis and its stable fixation while ensuring the replenishment of bone deficiency.

The essence of the claimed invention lies in the fact that in the method of replacing bone defects of the condyles of the tibia or femur with total knee replacement, including after resection of the condyles of the femur and tibia and installing the test components of the endoprosthesis of the bone defect of the condyles of the boneless bone marrow without replacing the material, bone defect perform its filing at 2-6 mm from the planned level, then at the planned level with formed using a spongy autograft of a plate-like shape, osteoconductive material is used as a bone substitute material, after the plastic bone defect, the obtained autograft is placed on the restored surface.

There is also a method for replacing bone defects of the condyles of the tibia and femur with total knee replacement with the above symptoms, in which, in the presence of a bone defect of the tibia, the femoral condyle is resected by filing the femur condyle 2-6 mm distal to the planned level, and then at the planned level .

In addition, there is also claimed a method with the above features, in which, in the presence of a bone defect of the femur, resection of the tibial condyle is performed by sawing the latter 2-6 mm proximal to the planned level, and then at the planned level.

The technical result of the claimed invention consists in solving the problem posed earlier by introducing additional technical manipulations in the process of surgical intervention. Performing the replacement of a bone defect with osteoconductive plastic during laying, the material allows you to fully restore the anatomical shape of the tibial condyles and to ensure the reconstruction of its bone mass to fully support the components of the endoprosthesis. However, during the period of perestroika, the load on the surface restored by bone defect plasty by bone substituting osteoconductive material is harmful, because its destruction, displacement and violation of perestroika are possible. In order to eliminate this drawback and create a reliable support for the components of the endoprosthesis, in the claimed method, a plate-shaped autograft is placed on the surface reconstructed by the bone defect plasticity, taken earlier when performing the standard procedure for endoprosthetics resection of the tibia and femur and corresponding in shape and area to normal (without bone defect ) oval condyles. The implementation of just such a support for the components of the implant allows you to evenly distribute the load on the underlying bone and increase the strength of fixation of the components of the implant, and therefore, reduce the risk of postoperative complications, including instability of the established design, which leads to the need for revision surgery.

The invention is illustrated using Fig.1-2, which depict: Fig.1 is a schematic representation of the implementation of plastics bone defect of the tibia; figure 2 is a schematic representation of the execution of plastic bone defect of the femur.

The method of replacing bone defects of the condyles of the tibia and femur with total knee replacement is as follows.

After anesthesia in the patient’s position on the back and flexion in the knee joint, medial parapatellar access is performed by performing a direct midline incision of the skin, which begins 6-10 cm above the patella, passes over it and ends over the tibial tuberosity. Produce dislocation of the patella outward and exposure of the femoral-tibial joint. Then, partial excision of the hypertrophied synovial membrane and patellar adipose tissue sections is performed, providing access to the medial, lateral and intercondylar spaces. Osteophytes of the distal femur and proximal tibia are removed. Acute way remove soft tissue located between the collateral ligaments and articular surfaces. Soft tissues are mobilized, exposing the proximal part of the tibia for at least 25 mm in front, from the inner and outer surfaces.

Resection of the proximal tibia and release of soft tissues are performed. A guide channel is formed in the femur by drilling and a shaft is inserted to attach a resection block to it. Resection of the femur is performed.

In the presence of a bone defect of the tibia, the femoral condyle is resected by filing the latter 2-6 mm distal to the planned level, and then at the planned level.

In the presence of a bone defect of the femur, the tibial condyle is resected by cutting the latter 2-6 mm proximal to the planned level, and then at the planned level.

Place the autograft in a sterile saline solution. Perform trial reduction. To do this, establish a trial tibial plateau, oriented according to the mark in the correct position. Select and install a trial loading platform - liner. In the 90 ° knee flexion position, the assembled insert is inserted into a test metal tibial plateau. After that, the femoral component of the endoprosthesis is installed and the amplitude of movements, the equality of the flexion and extensor joint spaces, the optimal balance of the ligaments during extension and flexion of the knee joint, the correct mechanical axis of the limb, the correct rotational position of the tibial component, the naturalness and freedom of movement in the knee joint are checked. With a satisfactory assessment of the function of the trial endoprosthesis according to the above criteria, remove it.

A bone defect of the damaged condyle is made. A bone defect bed is prepared by scraping with a Kocher spoon. The bottom of the defect is perforated with a drill with a diameter of 1-2 mm to a depth of 5 mm to stimulate the effect of vascular neoplasm. Then the osteoconductive material is laid on the bottom of the bone defect and formed, restoring the anatomical shape of the damaged condyle. With a beveled shape of the bone defect and deficiency of its lateral wall, reinforcement of the osteoconductive material with 1-3 screws is additionally performed to strengthen the fixation strength. The resulting spongy autograft is placed on the reconstructed surface of the damaged condyle.

Next, the tibial component of the endoprosthesis is placed on the resected metaepiphysis of the tibia with the introduction of the support leg of the component of the endoprosthesis into the previously prepared guide channel in the metaepiphysis of the tibia and this component of the endoprosthesis is fixed using bone cement. The femoral component is placed on the resected distal femur and is also fixed with bone cement. Then install the liner and produce the final reduction of the endoprosthesis.

The wound is sutured in layers with the removal of drainage. In the postoperative period, standard drug therapy and physiotherapy are performed.

Example

Patient K., 41, was admitted to the orthopedics department with a diagnosis of "Post-traumatic right-sided gonarthrosis of the 3rd degree, aseptic necrosis of the medial condyle of the tibia."

Conducted x-ray examination. Taking into account the results obtained during preoperative planning, the size of the prosthesis and the size of the resection of the femur and tibia were selected by using templates that were applied to radiographs of the knee joint.

The patient underwent surgery according to the method described in this application - total endoprosthetics of the right knee joint with plastic bone fracture of the tibial condyle.

After discharge from the hospital, the patient was advised to limit the load on the operated joint: walking with crutches up to 6 weeks after surgery, then walking with a cane for up to three months. The full function of the operated knee joint was restored 3 months after surgery.

Due to the restoration of the natural biomechanics of the knee joint, the patient's quality of life on the WOMAC scale has increased to the level of "good".

Claims (3)

1. A method for replacing bone defects of the condyles of the tibia or femur with total knee replacement, including after resection of the condyles of the femur and tibia and installing test components of the condyle of the condyle of the condyle defect with bone-replacing material, characterized in that when bone condyle is not resected, of the defect, its sawdust is performed at 2-6 mm from the planned level, then at the planned level with the formation of a spongy autograft plate-like shapes, as bone replacement material is osteoconductive material after plastic bone defect on the reconstructed surface of the resulting stack autograft. 2. The method according to claim 1, characterized in that in the presence of a bone defect of the tibia, the femoral condyle is resected by filing the latter 2-6 mm distal to the planned level, and then at the planned level. 3. The method according to claim 1, characterized in that in the presence of a bone defect of the femur, the tibial condyle is resected by sawdust of the latter 2-6 mm proximal to the planned level, and then at the planned level.

Images