RU2054897C1 - Method for carrying out plastic reconstruction of cicatricial changed fibular collateral ligament of knee joint - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves forming channels in external condyle of the femur and the fibular head, in frontal plane in parallel to the articular rima. The ligament is introduced into the channels with articulation capsule to be in one direction in U-shaped mode. EFFECT: accelerated operation; lowered risk of traumatic complications.

Description

 The invention relates to medicine, namely to traumatology and orthopedics, and can be used in the surgical treatment of chronic isolated ruptures of the peroneal collateral ligament of the knee joint.

 A known method of restoring ligaments of the knee joint according to A. V. Kaplan by forming a lateral cruciate ligament, in which, depending on the type of damage to the lateral ligaments on the medial or lateral surface of the joint, two longitudinal cuts are made, one in the condyle of the tibia, the other in the condyle of the femur bones through which in the lateral surface of the condyle of the femur form a channel in the sagittal direction 3-4 cm long. On the lateral surface of the condyle of the tibia, two o Holes at a distance of 3-4 cm from each other and below them, two more holes are applied, upper and lower, the holes are subcortically connected, forming two short vertical channels. Through the formed channels on the thigh and lower leg, a crossed extraarticular lavsan ribbon is drawn, the ends of which are sewn onto the lower legs at the exit from the vertical channels.

 However, when restoring chronic instability of the knee joint caused by ruptures and insufficiency of ligaments according to A.V. Kaplan, increased soft tissue trauma is applied, the risk of infection of the surgical wound is increased, the artificial ligament drawn through the bone channels is pulled manually and by eye, which does not always eliminate the instability that has taken place and often leads to the development of a symptom of a “moving ligament”, thereby causing unnecessarily long-term treatment of patients.

 The purpose of the invention is the reduction of postoperative complications.

 The method is as follows.

The patient under anesthesia is laid on his back. The injured knee joint is fixed at an angle of 160-170 ^about using the kneecap "device for operations on the knee joint". The skin is treated in the usual way in the upper third of the leg and lower third of the thigh. On the outer lateral surface of the thigh, 2-2.5 cm from the joint gap, in the lateral epicondyle of the femur, at the level of the middle of the patella, in the place of natural attachment of the fibular collateral connection on the external condyle of the thigh, an operative incision of the skin and soft tissues is performed 1.5-2 cm. The bone in this place is skeletonized with a narrow raspator, exposing the lateral surface of the epicondyle of the thigh. Through the received surgical incision, a through bone channel is formed, passing through the condyles of the thigh in the frontal plane parallel to the joint space. Formed bone channel, passing the inner condyle of the thigh, goes its extension to its inner-lateral surface. The incision in this area is carried out, focusing on the protruding into the soft tissue end of the device that forms the bone channel. An artificial ligament is passed through the canal, the distal end of which, located in the inner condyle of the thigh, is tied into a knot. The knot, when the artificial ligament is tensioned, is inserted into the bone canal, while ensuring its reliable fixation.

 Retreating 1.5 cm behind the inlet of the first canal in the region of the external condyle of the thigh, a through canal is formed, passing in the frontal plane through the condyles of the femur parallel to the first and articular fissures. The distal end of the artificial connection, passing under the soft tissues along the inner-lateral surface of the femoral condyle, is brought out to the opening of the second channel. After that, the implant is passed through the channel from left to right and brought to the distal end into the existing hole on the outer-lateral surface of the femoral condyle.

 In the area of the head of the fibula, in the place of the natural attachment of the fibular collateral ligament to the lower leg, a longitudinal surgical incision is made 2-2.5 cm long. The head of the fibula is skeletonized. Through the obtained surgical incision, a third channel is formed on the outer lateral surface of the lower leg, in the region of the head of the fibula. The channel is formed in the frontal plane so that it passes through the head of the fibula, closer to the outer surface of the lower leg, parallel to the joint space. The channel, passing through the head of the fibula, goes its extension to the inner-lateral surface of the lower leg. The incision in this area is carried out, focusing on protruding into the soft tissue end of the device that formed the channel. The distal end of the artificial connection is carried out subfascial along the outer lateral surface of the joint along the peroneal collateral ligament, while flashing the joint capsule through the existing surgical incisions on the outer lateral surface of the thigh and lower leg. Upon exiting soft tissues in the region of the head of the fibula, the artificial ligament is carried out along the third channel and is brought into the existing surgical incision on the inner-lateral surface of the tibial condyle. An artificial ligament is carried out along the channel from left to right.

 Retreating 1.5 cm posterior to the inlet of the canal X on the lower leg, form a channel which, having passed the head of the fibula of the tibial condyle, leaves on the inner-lateral surface of the tibial condyle.

 The distal end of the artificial ligament, carried out subfascial with suturing the joint capsule along the outer-lateral surface of the latter and along the canal, on the inner-lateral surface of the lower leg, is dragged under soft tissues and inserted into the canal. Next, the artificial ligament is carried out along the channel in the direction from left to right and is taken out into the existing hole in the region of the head of the fibula. Here, the distal end of the artificial ligament is carried out subfascial along the outer-lateral surface of the joint, crossing X-shaped with the previously made artificial connection segment, but the joint capsule is no longer flashed, and it is removed into the existing surgical incision in the area of the external condyle of the thigh.

 An implant discontinued on the outer-lateral surface of the knee joint provides reliable stability of the knee joint, and flashing the joint capsule in one direction of the upper layers of the capsule reproduces the normal anatomical structure of the peroneal collateral ligament.

 The ends of the implanted artificial ligament on the outer lateral surface of the knee joint in the epicondyle of the thigh are tucked into the grip of the measuring device and the implant is uniformly tensioned with a force of 3.5 kg / force.

 An artificial ligament tension force of 3.5 kg / force is most beneficial in functional tension for patients with chronic isolated tears of the peroneal collateral ligament of the knee joint. Moreover, this power parameter remains virtually unchanged in all groups of patients, regardless of age, gender and profession.

 The specified tension force of 3.5 kg / force is the closest to the tension force of the peroneal collateral ligament of the intact limb and, therefore, can be regarded as a functional tension force.

The tension of the artificial ligament and the retention of the achieved power parameter is carried out at an angle of flexion of the knee joint of 160-170 ^about and in the position of maximum abduction of the lower leg outside.

 With a tension force of 3.5 kg / force in patients, the symptom of tibial deviation is not determined, the full range of movements is preserved, and there are no signs of joint stiffness.

 Having reached the specified tension range, the ends of the artificial ligament are stitched with a ligature in the grip of the device, after which the device is removed, and the ends of the connection, tied in a knot, are sutured to the soft tissues on the thigh. Surgical wounds are sutured. The limb is laid on a Beler tire.

 The dependence of the tensile strength of the implanted artificial ligament on the age, gender and profession of patients with the closed method of restoring the peroneal collateral connection of the knee joint is presented in the table.

 The measurement was carried out in kg / force.

 Persons over 60 years of age have not been admitted to the clinic for medical assistance. However, the table shows the numerical parameters of the artificial ligament tension obtained during experimental tests of the method in troupes, the maximum age limit of which was 82 years.

 PRI me R. Patient Ch. 34 years old. He entered the clinic with complaints of chronic medial instability in the left knee joint.

 From the anamnesis: according to the patient, an injury 8 months ago in a car accident. The left lower limb was clamped by the door of the car, while trying to independently extract the limb, I felt a sharp pain in the knee joint.

 He was repeatedly treated in a hospital and on an outpatient basis at the place of residence (Moscow region), the diagnosis of rupture of the peroneal collateral ligament was not made. The treatment in the hospital and outpatient community did not produce a positive effect.

 Upon admission to the clinic, the patient underwent a full range of clinical and radiological studies, as a result of which the above diagnosis was made.

 Under internal anesthesia, the patient made closed plastic of the peroneal collateral ligament according to the proposed method. During the operation, the capsule of the left knee joint was stitched in one direction, and the force parameter of the artificial ligament was tensioned to the physiological parameters of the intact ligament of a healthy limb. The physiological tensile force of the artificial ligament was 3.480 kg / force.

 The operation time was 25 minutes (compared with the prototype). When checking the stability and function of the joint on the table, the joint is stable, movement in full, deviation of the calf inside is not determined, stiffness is not determined.

 The postoperative period was uneventful. Sutures were removed on the seventh day after surgery. On the tenth day after the operation, the patient was discharged under the supervision of traumatology at the place of residence. Additional fixation of the limb with a gypsum splint was not carried out. After 4 weeks from the moment of surgery, the patient underwent a course of rehabilitation treatment, which amounted to 15 days, in contrast to the prototype, in which the lines of rehabilitation and treatment of patients are 30 days.

 During the control study, 3 months after the operation, the joint function is preserved, the joint is stable, and the movements in the latter are in full. It goes without additional support.

Claims (1)

 The method of plastic surgery of the scarred fibular collateral ligament of the knee joint by making incisions in the external condyle of the femur and head of the fibula, forming channels in the femur, in the head of the fibula and condyle of the lower leg, passing through them a subfascial artificial ligament, the ends of which are fixed, characterized in that , in order to reduce postoperative complications, form channels in the frontal plane parallel to the joint space, insert a ligament into the canal with piercing the capsule of sus Av in one direction U-shaped.

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