RU2168956C1 - Device for treatment of fractures of articulations - Google Patents

Abstract

FIELD: children orthopedics and traumatology. SUBSTANCE: device is made in form of metal lock with shaped onbone part and lengthened fastening part. Lock is made of L- shaped flat strip. On-body part has hook on its end and made with incline of 3-5 deg to fastening part which in its turn consists of narrow and wide part on its end with ratio of lengths of both parts being 2: 3. Wide part has coaxial hole for securing the lock to proximal metaphysis of tibia. Length of no- bone part is function of children age, and length of fastening part is function child stature. EFFECT: provided treatment of fractures of intercondylar eminence under control of arthroscope, without arthrotomy that reduces development of postoperative complications. 2 cl, 4 dwg

Description

 The invention relates to medicine, namely to traumatology, and is used for intraarticular fractures.

 Known methods for treating fractures of the intercondylar elevation of the tibia using wire, lavsan thread, and screws as fixators. The technique of intra-arthroscopic fixation of the intercondylar elevation fracture with the AO-ASIF screw is not applicable in childhood due to the insignificant thickness of the torn fragment [1].

 Known compressive retainer made of titanium nickelide in the form of a bent in a spiral rod with a bent end [2].

 The closest technical solution is a device for osteosynthesis of periarticular fractures. The device is made in the form of a rod with curly osseous and elongated mounting parts. It is made of a material with the effect of double shape memory and is mounted on the bone in a cooled state. The fastening part is installed in the drilled hole in the bone [3].

 However, all the proposed methods for fixing such injuries require wide surgical access, which not only leads to unsatisfactory cosmetic results, but also entails significant intraoperative trauma, which in the postoperative period often leads to various complications - severe scars, severe contractures, inflammatory complications, the development of chronic arthrosis and leads to longer periods (8-12 weeks) of recovery, which affects the mental and physical development of the child.

 All this prompted the development of a fundamentally new method of fixing fractures of the intercondylar elevation of the tibia in children. L-shaped clamps of 3 different sizes were designed and made of metal, depending on the age and height of the child.

 The invention has differences from existing devices, is new and has a number of significant advantages. It can significantly reduce intraoperative trauma, create favorable conditions for the reparative process, reduce the time of rehabilitation treatment, improve the cosmetic effect with stable fixation of the fracture and significantly reduce the treatment time.

The purpose of the invention is achieved in that the device for treating a fracture of the intercondylar elevation of the tibia is made in the form of a metal retainer with a figured bone and elongated fastening parts. The latch is made of a flat strip of the L-shaped form, the osseous part has a hook at the end and is made with a slope of 3-5 ^o to the mounting part, which consists of a narrow and a wide part at the end, the lengths of which are related to each other like 2/3, and the wide part has coaxial holes for fixing the fixative to the proximal tibia metaphysis, while the length of the osseous part is a function of the child’s age, and the length of the fastening part is a function of the child’s growth. The length B of the osseous part of the fixator is calculated from the equality B = α × 30 (mm), where α is the calculated coefficient depending on the age of the child and lies in the range (1-1.34), and the length H of the fastener part of the fixator is calculated from the equality H = β × 50 (mm), where β is a calculated coefficient that depends on the height of the child and lies in the range (1-1.5).

A device for the treatment of a fracture of the intercondylar elevation of the tibia is illustrated by drawings, where:
in FIG. 1 shows a latch in plan;
in FIG. 2 - it is a side view;
in FIG. 3 - 4 depict a retainer mounted at the fracture site (intercondylar elevation of the tibia).

A device for treating a fracture of the intercondylar elevation of the tibia in children is made of metal in the form of a flat curved strip with a thickness t of predominantly 2.5 mm L-shaped. The osseous part 1 of the latch has a hook 2 at the end and is made with a slope of 3-5 ^o to the horizontal (to the mounting part). The mounting part consists of a narrow 4 and a wide part 5, the lengths of which are related to each other as 2/3. In the wide part, coaxial holes 6 are made, mainly with a diameter of d = 5 mm. The distance between them (S) is S = L - (3-4) d mm. The width of the wide fastener portion b2 of the retainer is selected depending on the diameter of the holes and is equal to b2 = (1.5-2) d mm, and the width b1 of the narrow part is approximately equal to the diameter of the holes.

 The length B of the osseous part 1 of the retainer is calculated from the formula B = α × 30 mm. The estimated coefficient α lies in the range 1-1.34 and is selected in direct proportion to the age of the child from 7 to 14 years. The length H of the fixing part 3 of the retainer is calculated from the formula H = β × 50 mm. The estimated coefficient β lies in the range (1-1.5) and is selected depending on the height of the child 1-1.8 m.

 The treatment is as follows. Under general anesthesia, arthroscopy is performed from standard access. After confirming the diagnosis, a manipulator is introduced into the joint cavity from the lower medial access. The manipulator under the control of an arthroscope performs the elimination of interposition and reposition of the fracture. After reposition, the internal medial arthroscopic approach is expanded 3-4 cm down to the tibia. From the same access into the joint cavity under the control of an arthroscope, a osseous 1 part of the L-shaped fixer is inserted, which fixes the fracture. The fixing part 3 of the fixator after traction downward (compression of the fracture) is attached to the proximal metaphysis of the tibia with two Kirschner spokes or two screws through the holes in the fixator 6. Thus, the length of the incision is 3-4 cm, and most of the operative access is located outside the joint. After suturing the wound, a gypsum dressing is applied in the average physiological position. After removing the gypsum, the fixative is removed and rehabilitation treatment begins. Rehabilitation to complete recovery of range of motion in the knee joint takes 3-4 weeks. The invention was tested in a clinic and can be used in trauma departments. (When using traditional methods of treatment - 6-8 weeks).

 According to this method of treatment, 36 children aged from 8 to 14 years were operated on. The operation is considered indicated at all degrees of displacement of the fragments. Long-term results were studied in 23 children from 1 month to 1 year. The absence of complaints, gait disorders, restoration of the limb's working capacity allow us to consider the treatment outcomes satisfactory.

 An example is the observation from clinical practice.

 The child Dmitry, 11 years old, entered 07/21/95. The medical history N 4386. A week before admission fell in the country on his left leg. Diagnosis: closed fracture of the intercondylar elevation of the left tibia with displacement. Hemarthrosis of the left knee joint. On examination, the contours of the left knee joint are smoothed. The patella is running. Movement in the knee joint is practically absent due to pain contracture. On radiographs - a tear-off fracture of the intercondylar elevation of the tibia with a shift of the fragment up. After 3 days, arthroscopy was performed. A l-shaped stainless steel latch with dimensions t = 2.5 mm, d holes = 5 mm, l1 = d1 = 5 mm, l2 = 1.6d = 8 mm is installed in the cavity of the knee joint on a torn fragment of the intercondylar eminence. The coefficient α (at the age of 11 years) is taken to be 1.16, then the length of the osseous part of the fixative is B = 1.16 • 30 = 38 mm. The coefficient β with an increase of 1.55 m is taken 1.3, then the length of the fixing part of the clamp is H = 1.3 • 50 = 65 mm. The length of the wide fastening part of the clamp L is calculated from the formula (H: 5) • 3 = (65: 5) • 3 = 39 mm, we take 40 mm, and the center-to-center distance of the holes is 40-3d = 40-15 = 25 mm. Clinical and radiological diagnosis is confirmed. The fragments were repositioned by the manipulator and metallosynthesis was performed according to the method described above. The postoperative course is smooth. The sutures were removed on the 10th day. Discharged on the 11th day. After a month and a half, he was hospitalized again. Plaster cast. The metal retainer is removed without technical difficulties. Restorative treatment started. The wound healed first. Sutures were removed on the 10th day. Discharged after 3 weeks, because there is no fluid in the joint, the movements are satisfactory. Examined after 3 weeks - no complaints, walks well, movement in full, there are no signs of instability of the knee joint. The invention allowed to treat children in a short time, significantly reduce cosmetic defects. Reduce mental trauma.

Sources of information
1. Samoilovich E.F. Arthropneumography in the diagnosis of meniscus diseases in children. - Journal of Surgery. N.I. Pirogova, 1992, N 11-12, p. 86-92.

 2. Simenach B.I. The problem of pathology of the knee joint. Orthopedics, traumatology and prosthetics, 1982, N 8, c. 28-32.

 3. Stuzhina V.G., Zar V.V. Diagnosis and treatment of injuries of the knee joints in children and adolescents. - Bulletin of sports medicine, 1993, N 2-3 (4), p. 78.

 4. A.c. SU N 1110447, class A 61 B 17/68, 1982

 5. A.c. SU N 1669439, class A 61 B 17/68, 1989 - prototype.

Claims (2)

1. A device for the treatment of joint fractures, made in the form of a metal retainer with a curly osseous and elongated fastening parts, characterized in that the fixator is made of a flat strip of L-shaped form, the osseous part has a hook at the end and is made with a slope of 3-5 ^o to the fastening part, which in turn consists of a narrow and at the end of a wide part, the lengths of which are correlated as 2/3, and in the wide part there are coaxial holes for attaching the retainer to the proximal tibia metaphysis, at Ohm, the length of the osseous part is a function of the age of the child, and the length of the fastening part is a function of the growth of the child. 2. The device according to claim 1, characterized in that the length of the osseous part of the retainer is calculated from the equality
B = α • 30 (mm),
where B is the length of the osseous part;
α is the estimated coefficient, depending on the age of the child and lying in the range 1 - 1.34,
and the length of the fastener part of the latch is calculated from the equality
H = β • 50 (mm),
where H is the length of the mounting part;
β is the calculated coefficient, depending on the growth of the child and lying in the range of 1 - 1.5.

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