RU116335U1 - LOCK FOR TREATMENT OF Fractures OF THE REMOTE RADIAL BONE - Google Patents

Abstract

1. A fixator for the treatment of a fracture of the distal metaepiphysis of the radial bone, consisting of a perforated plate having an epiphyseal and diaphyseal parts with locking screws, characterized in that the epiphyseal and diaphyseal parts have additional lateral branches directed towards the diaphyseal part of the radial part, and the metaphyseal located perpendicular to the diaphyseal part, while the retainer forms an F-shape with bends that anatomically repeat the shape of the radius in the distal part, while the screws in the lateral branches are inserted perpendicular to the screws in the diaphyseal part, and the screws of the metaphyseal part are inserted at an angle with respect to the diaphyseal part ... ! 2. A fixator for the treatment of a fracture of the distal metaepiphysis of the radial bone according to claim 1, characterized in that all holes are made of different diameters and have a directed thread for locking screws in a strictly defined direction.

Description

The utility model relates to medicine, and more specifically to traumatology and orthopedics, is an innovative universal fixative for osteosynthesis of fractures of the distal metaepiphysis of the radial bone and corrective osteotomies of incorrectly fused fractures of the distal metaepiphysis of the radial bone. The latch is designed for installation on the front-inner surface of the distal radial metaepiphysis.

Fractures of the distal radial metaepiphysis are the most common injuries of the upper limb and make up about 20% of all fractures of the tubular bones and about 70% of fractures of the forearm bones (Z.M. Ataev and D.U. Rusakova 1974; L.P. Sokov 1985; Miller R . 1985; Scharplatz et al, 1986). Great interest in fractures of this localization is caused not only by its frequency, but also by a high percentage of unsatisfactory results. A significantly high percentage of errors and complications in the near and distant periods are the result of prolonged immobilization, as the basis of conservative treatment, which is still the generally accepted method for this contingent of victims. One of the formidable complications of a fracture of the distal metaphysis of the radius is a complex regional pain neurodystrophic syndrome (Sudeck syndrome). To prevent the development of deformations, persistent contractures, deforming arthrosis and instability of the wrist joint, it is necessary to accurately restore the anatomy of the distal end of the radius.

A prerequisite for ensuring the full fusion of the damaged bone and the speedy rehabilitation of the patient is the most accurate comparison of fragments and fragments, restoration of normal bone anatomy, stable fixation and compression between the fragments, as well as the shortest time for immobilization of the damaged limb. These goals, in the case of complex configurations of extended, comminuted and multiple fractures of the distal metaepiphysis of the radius, with a significant displacement, are achieved only through a long and laborious open reposition of fragments and all fragments of the damaged bone. At the same time, reducing the exposure time of the wound, the simplicity, accuracy and atraumaticity of the reposition of bone fragments and fragments, the full restoration of its anatomy, the provision of axial and lateral compression between bone fragments and fragments, as well as the rigidity and stability of fixation of fragments and fragments using one or another metalwork.

A device for fixing fragments in fractures of the distal metaepiphysis of the radius, containing arcs with knitting needles connected by threaded rods (F.Kh. Katushev, B.M. Prokin "Herald of Surgery named after Grekova", 1973, v. 3, No. 12, s .72-76). The disadvantage of this device is the increased invasiveness and the possibility of infection of tissues with a significant number of points of the spokes.

A device is known for fractures of the radius in a "typical place", containing a tire and a spoke, equipped with a spring-loaded bracket with a sleeve (Autosvid. USSR No. 10506693). The disadvantage of this device are: limited use (only for non-split fractures), cumbersome design, the risk of contracture of the elbow joint and poor fixation of fragments.

It is known to use a device for bone osteosynthesis (PM RF No. 58334), in which an X-ray of the damaged bone is preliminarily performed to determine the nature of the displacement of the fragments. A bone fracture of a limb is exposed, for example, the distal radius of the radius. Under the control of an operating stenoscope, the angular and rotational displacement of bone fragments with temporary fixation by Kirschner spokes is eliminated. The supporting hook is brought under the diaphyseal fragment of the bone, proximal to the fracture site. The overlay, together with the osteosynthesis plate, is placed above the supporting hook so that the bent liner of the overlay falls into the oval hole of the hook. After that, the reposition element of the device is fixed to the bone using a clamping clamp and a screw. The osteosynthesis plate is set so that the holes in its transverse part are located above the distal bone fragment. Through holes in the transverse part of the plate, screws are passed into the epiphyseal fragment of the bone. The spokes are removed. Using the traction screw, the plate is moved in the distal direction to eliminate displacement along the length. After the final reposition is achieved, screws are inserted into the diaphyseal fragment of the bone. The reposition element is removed. The disadvantage of this device is the complexity of the design, as well as the impossibility of dosing the magnitude of the compression, insufficient accuracy of the reposition.

A device for the treatment of fractures of the radial bone containing the proximal, middle and distal rings, rods, nuts. The latter fasten the rings and rods and are located on the rods from opposite ends of the rings, brackets with holes along the longitudinal axis, spokes, spoke holders, restrictive emphasis on the spoke, while the diametrically opposite sides of the middle and proximal rings are connected by the corresponding spoke to form the support of the radius (see The book of L. N. Solomin "Fundamentals of transosseous osteosynthesis of G.A. Ilizarov devices", published by MORSAR, St. Petersburg; 2005, p.205-206).

Known T-shaped plate AO (L.N. Ankin, N.L. Ankin. The practice of osteosynthesis and endoprosthetics. - Kiev, 1994. p.144-146). However, this plate fixes the fracture in only one plane and requires two to three screws to pass through the pineal gland, which, for example, in a child can destroy the cartilaginous tissue of the pineal gland and damage the zone (growth zone). The use of a T-shaped plate does not allow stable compression of fragments. The installation of this plate is combined with a wide dissection of the capsule of the wrist joint.

A known plate consisting of an overhead part and having holes for screws (US Pat. RF 2238691). The patch is made in the form of a rectangle, at the bottom of which two stylet are made at an angle of 70 ° to the plane of the plate, the tips of which are directed to the center of the plate. There are two holes on the plate: one is round and the other is oval.

The closest prototype is a fixator for treating a fracture of the distal metaepiphysis of the radius, consisting of a L-shaped perforated plate having an epiphyseal and diaphyseal parts with lockable screws (LCP Distal Radius System 2.4 from Synthes).

However, this device, like all of the above analogues, cannot provide stable fixation of complex comminuted unstable fractures of the radial bone, nor can it treat chronic, non-healing or non-healing fractures of this bone. In addition, this device cannot provide early mobility in the wrist and wrist joints.

The goal of the proposed technical solution is to create a device for the treatment of all types of unstable fractures of the distal part of the radial bone, as well as to eliminate chronic displacements, as a consequence of conservative treatment, in the case of improperly fused or fused fractures, providing conditions for early postoperative functional rehabilitation of the wrist joint and hand . Also, the objectives of the proposed technical solution are: reducing the operation time and treatment time, ensuring stable osteosynthesis, improving the convenience of the operation due to the lack of the need for additional modeling of the fixator and low cost of the device.

This goal is achieved by using a fixative for the treatment of a fracture of the distal metaepiphysis of the radius, consisting of a perforated plate having an epiphyseal and diaphyseal parts with lockable screws. The epiphyseal and diaphyseal parts have additional lateral branches directed perpendicular to the main part of the plate towards the center of the diaphyseal part of the radius. The latch additionally has a metaphysical part located at an angle with respect to the diaphyseal part. In this case, the retainer forms an “F-shaped” shape with bends that anatomically repeat the shape of the radius in the distal part; the screws in the lateral branches are inserted perpendicular to the screws in the diaphyseal part, and the screws of the metaphysical part are inserted at an angle with respect to the diaphyseal part. All holes are made of different diameters and have directional threads to block the screws in a strictly defined direction.

The proposed fixer has holes of different diameters for fixing the subchondral site, metaepiphysis and diaphysis of the radius. The connectedness of the plate branches, the use of crossing screws of different diameters provides greater stability compared to the prototype, and the universality of the arrangement of the fixing elements provides the possibility of osteosynthesis of almost any type of fracture in this area.

The proposed technical solution is a fixative for osteosynthesis of fractures and corrective osteotomies of abnormally fused fractures of the distal radial bone metaepiphysis. The clamp is designed for installation on the palmar and outer surfaces of the distal radial metaepiphysis. The latch can be used for the right and left radius (specular).

The utility model is illustrated in figures 1, 2, 3, which presents a front view, side view and top view, respectively.

The latch consists of 3 interconnected parts - the upper epiphyseal part (1); the middle one is the metaphyseal part (2) and the lower diaphyseal part (3) and 2 branches — the epiphyseal lateral branch (4) and the diaphyseal lateral branch (5).

The metaphyseal part is made in the form of a plate and is perpendicular to the diaphyseal part (3). The general view of the fixator has an “F-shaped” shape with bends that anatomically repeat the shape of the radius in the distal part. The latch is designed for the right and left radius (mirror symmetrical) and is equipped with locking screws of different diameters. Drilling of channels for screws is carried out using a guide, which is screwed into the plate (not shown in Fig.).

The total length of the plate is from 50 to 100 mm, depending on the length of the diaphyseal part. The diaphyseal part (3) has holes (6) for introducing lockable screws with a diameter of 3.5 mm. The metaphyseal part (2) has 3 holes (7), the epiphyseal part (1) has 4 holes (7) and the side branches (4) and (5) have 4 and 2 holes (7), for the introduction of lockable screws with a diameter of 2.4 mm The screws in the lateral branches (4) and (5) are inserted perpendicular to the screws in the diaphyseal part (3). The screws of the metaphysical row (2) are inserted at an angle with respect to the diaphyseal part (3). All holes in the plate have a directional thread to block the screws in a strictly defined direction.

The proposed latch has 3 rows of holes of different diameters (1.5 mm; 2.4 mm and 3.5 mm) for fixing the subchondral pad, metaepiphysis and diaphysis. The connectedness of the plate branches, the use of crossing screws of different diameters provides greater stability compared to the prototype, and the universality of the arrangement of the fixing elements provides the possibility of osteosynthesis of almost any type of fracture in this area.

A clinical example of the use of a fixative. In the operating room under conduction anesthesia or anesthesia in the position of the patient on the orthopedic table on the back, palmar access to the fracture area is performed. Inter-fragment hematoma and scar tissue are removed. Hemostasis is performed. Next, an open reposition of fragments with preliminary temporary fixation with Kirschner spokes of 1.0 mm is carried out. The plate is placed on the back of the distal metaepiphysis of the radius. An intraoperative x-ray control is carried out. Next, screws are inserted into the upper holes (7) of the epiphyseal part (1). Then, the diaphyseal part (3) is fixed with screws through the holes (6), compressing the plate and the fragments among themselves. In the presence of a multi-fragmented fracture, the next step is the osteosynthesis of fragments of the epiphyseal part (4) and the diaphyseal part (5) with the introduction of screws into the holes (7). A check is made of the stability of fixation and the amplitude of movements in the wrist joint. Drainage of the area of intervention by suction drainage. Layer wound closure. An aseptic dressing.

The proposed technical solution can be used to treat all types of unstable fractures of the distal part of the radial bone, as well as to eliminate long-standing displacements, as consequences of conservative treatment, in the case of improperly fused or fused fractures, providing conditions for early postoperative functional rehabilitation of the wrist joint and hand. Also, the positive properties of this technical solution are the reduction of the operation time and treatment time, ensuring stable osteosynthesis, as well as improving the convenience of the operation due to the absence of the need for additional modeling of the fixator, as well as the low cost of the device.

Claims (2)

1. The fixator for the treatment of fracture of the distal metaepiphysis of the radius, consisting of a perforated plate having an epiphyseal and diaphyseal parts with lockable screws, characterized in that the epiphyseal and diaphyseal parts have additional lateral branches directed towards the diaphyseal part of the radius, and the metaphysial part, located perpendicular to the diaphyseal part, while the retainer forms an F-shape with bends that anatomically repeat the shape of the radius in the distal part, with screws in the lateral veins Rep introduced perpendicularly screws in the diaphyseal part, and screws metaphyseal part is introduced at an angle relative to the diaphyseal portion. 2. The retainer for the treatment of a fracture of the distal metaepiphysis of the radius according to claim 1, characterized in that all the holes are made of different diameters and have directional threads to block the screws in a strictly defined direction.