RU187371U1 - Guide for minimally invasive implantation of spoke fixators of metaphysical fractures of the proximal humerus - Google Patents

Abstract

Guide for minimally invasive implantation of spoke retainers of metaphysical fractures of the proximal humerus.

The utility model relates to medicine, namely to traumatology, orthopedics and medical equipment, and can be used in the surgical treatment of fractures of the proximal humerus.

The technical result is to increase the efficiency of osteosynthesis of fractures of the proximal humerus by developing a device that provides less traumatic accurate axillary-subfascial injection and bone positioning of the spokes for osteosynthesis.

The technical result is achieved in that the guide consists of a working part, a handle, a screw for fixing the working part to the handle, while the working part is represented by a rounded hollow curved stainless steel tube, one end of which is sealed and made in the form of a cone and has two oval holes, located on opposite walls of the tube, and the opposite end of the tube ends with an end face and has a rectangular support area for connection with the handle, while the handle is made of stainless steel and has the shape of truncated truncated cone, in addition, in the narrow part of the handle along its axis a rounded channel with smooth walls for the end end of the tube is made, also in the same part of the handle there is a rounded, transverse hole with an internal thread, which is intended for the screw, which is intended for installation designed to fix the working part in the handle, while the set screw is made of stainless steel, the shape of the head is wing, that is, its head has two protrusions in the form of petals, when The screw shaft is completely threaded and has a flat end. 3 ill.

Description

The utility model relates to medicine, namely to traumatology, orthopedics and medical equipment, and can be used in the surgical treatment of fractures of the proximal humerus.

A number of devices and devices are known for accurately carrying spokes and other small-sized implants into bone fragments during osteosynthesis. There are analog devices represented by various conductors and guides for introducing spokes and screws (Nigmatullin K.K. et al., 1991; Egorov M.F. et al., 1995; Malygina M.A. et al. ., 2001; Egorov M.F. et al., 2003; Skoroglyadov A.V. et al., 2005). But they are technically and structurally complex, and therefore not always convenient to use. In addition, these devices do not provide the necessary accuracy of implant insertion; they are not always provided for less traumatic osteosynthesis.

Closest to the claimed solution is "A device for osteosynthesis of fractures in the ankle joint" (Dubrovin G.M., Kovalev P.V., Doroshev M.E., Mechenkov S.A., Kichigina A.S. RF Patent No. 59963, June 16, 2006). However, when using this device, there are the following disadvantages: firstly, the parametric characteristics are intended for subcutaneous-periosteal positioning of spokes along surface-located bone formations; secondly, the device is designed to perform osteosynthesis of fractures in the ankle joint and, due to design features, cannot be used for osteosynthesis of fractures of other segments, including fractures of the proximal humerus.

The technical result is to increase the efficiency of osteosynthesis of fractures of the proximal humerus by developing a device that provides less traumatic accurate axillary-subfascial injection and bone positioning of the spokes for osteosynthesis.

The technical result is achieved in that the guide consists of a working part, a handle, a screw for fixing the working part to the handle, while the working part is represented by a rounded hollow curved stainless steel tube, one end of which is sealed and made in the form of a cone and has two oval holes located on opposite walls of the tube, and the opposite end of the tube ends with an end face and has a rectangular support platform for connection with the handle, while the handle is made of stainless steel and has the shape truncated truncated cone, in addition, in the narrow part of the handle along its axis a rounded channel with smooth walls for the end end of the tube is made, also in the same part of the handle there is a rounded, transverse hole with an internal thread, which is intended for the screw, which is intended for installation designed to fix the working part in the handle, while the set screw is made of stainless steel, the shape of the head is wing, that is, its head has two protrusions in the form of petals, with that the rod of the screw thread is completely covered and has a flat end.

The utility model is illustrated by the figures:

FIG. 1. The guide is assembled.

1 - the handle of the guide;

2 - installation wing screw;

3 - guide tube (working part);

4 - oval holes.

FIG. 2. Guide tube (working part). A is a general view of the tube; B-end of the tube with a rectangular support pad; In - the sealed end of the tube, made in the form of a cone with two oval holes:

4 - oval holes;

5 - a rectangular reference platform.

FIG. 3. Guide handle:

2 - set wing screw

6 - handle channel.

The device consists of a working part represented by a rounded hollow curved (arc radius is 572.5 mm) stainless steel tube (3) (Fig. 1, 2). One end of the tube is sealed and made in the form of a cone (Fig. 2 A, 2 B), and has two oval holes (4), which are located on opposite walls of the tube. The opposite end of the tube ends with an end face and has a rectangular supporting platform (5) (Fig. 2 A, 2 B). The specified platform is necessary for connecting the tube to the handle with a thumb screw (2) (Fig. 1, 3). The handle (1) is made of stainless steel and has the shape of a circular truncated cone (Fig. 1, 3). At the narrow end of the handle, a rounded channel (6) with smooth walls is made along its axis. In the area of the narrow part of the handle there is a rounded, transverse hole with an internal thread. This hole is intended for the screw (2), which is the intended installation, designed to secure the working part in the handle (Fig. 1, 3). The set screw is made of stainless steel, the shape of the head is wing, that is, its head has two tabs in the form of petals, while the screw shaft is completely coated with thread and has a flat end.

The device operates as follows:

The guide tube (3) with its end end is inserted into the channel (6) of the handle (1) until it stops, and then it is clamped with a thumb screw (2), which, when twisted, presses the flat end of its rod against the rectangular support platform (5) of the tube. Spokes for osteosynthesis are inserted into the oval holes (4) of the cone-shaped end of the guide tube and then inserted into the channel of the tube.

Clinical example No. 1.

Patient P., 70 years old, clinical diagnosis: closed uncomplicated comminuted fracture of the proximal left humerus with displacement of fragments. Under general anesthesia and under fluoroscopic control, a skin incision of 30 mm in length (distal wound) is performed in the projection of the outer surface of the upper third shoulder, soft tissues are separated by a dissector along the muscle fibers. The guide tube is inserted into the handle channel and secured to it using the set wing screw. The sealed end of the tube, made in the form of a cone, is inserted through the wound and is advanced under the muscular-fascial layer of the shoulder to the cortical layer of the humerus. Then, the guide is advanced along the diaphysis of the humerus to the proximal metaepiphysis. Here, in the projection of the apex of the large tubercle of the head of the humerus, having performed an additional skin incision 20 mm long (proximal wound), the end of the guide, made in the form of a cone, is brought out. Knitting needles for osteosynthesis are inserted into the oval holes of the guide tube and then inserted into its channel. Then the guide along with the spokes is retrograde removed until the ends of the spokes inserted into the tube channel are in the projection of the distal wound. After that, the guide is removed from the wound, and the spokes are located exactly at the level of the “input” wound and can be visualized. The knitting needles are fixed to the bone with screws and washers. On fluoroscopic control it is determined that the spokes are located exactly on the cortical layer of the outer surface of the humerus. The wounds are sutured in layers, an aseptic dressing is applied.

Clinical example No. 2.

Patient B., 56 years old, clinical diagnosis: closed uncomplicated comminuted fracture of the proximal right humerus with displacement of fragments. Under general anesthesia and under fluoroscopic control, a skin incision of 30 mm in length (distal wound) is performed in the projection of the outer surface of the upper third shoulder, soft tissues are separated by a dissector along the muscle fibers. The guide tube is inserted into the handle channel and secured to it using the set wing screw. The sealed end of the tube, made in the form of a cone, is inserted through the wound and is advanced under the muscular-fascial layer of the shoulder to the cortical layer of the humerus. Then, the guide is advanced along the diaphysis of the humerus to the proximal metaepiphysis. Here, in the projection of the apex of the large tubercle of the head of the humerus, having performed an additional skin incision 20 mm long (proximal wound), the end of the guide, made in the form of a cone, is brought out. Knitting needles for osteosynthesis are inserted into the oval holes of the guide tube and then inserted into its channel. Then the guide along with the spokes is retrograde removed until the ends of the spokes inserted into the tube channel are in the projection of the distal wound. After that, the guide is removed from the wound, and the spokes are located exactly at the level of the “input” wound and can be visualized. The knitting needles are fixed to the bone with screws and washers. On fluoroscopic control it is determined that the spokes are located exactly on the cortical layer of the outer surface of the humerus. The wounds are sutured in layers, an aseptic dressing is applied.

Thus, the use of the proposed device helps to hold the spoke implant under the muscle-fascial layer of the limb segment and arrange it periostally, while avoiding compression and damage to the periapical soft tissue structures, including vessels and nerves.

The proposed device is easy to use, provides accurate, less traumatic axillary-subfascial insertion and bone positioning of the spokes for osteosynthesis in the fracture zone, suitable for osteosynthesis of fractures of the proximal humerus using spoke retainers.

Claims (1)

A guide for minimally invasive implantation of spoke fixators of metaphysical fractures of the proximal humerus, consisting of a working part, a handle, a screw for fixing the working part to the handle, characterized in that the working part is represented by a rounded curved tube for accommodating stainless steel spokes, one end of which is sealed and It is made in the form of a cone and has two oval holes for inserting spokes located on opposite walls of the tube, and the opposite end of the tube ends with an end and has a rectangular a basic support platform for connecting to the handle, the handle is made of stainless steel and has the shape of a circular truncated cone, in addition, in the narrow part of the handle along its axis a rounded channel with smooth walls for the end end of the tube is made, also in the same part of the handle rounded, transversely located hole with an internal thread, which is intended for the screw, which is the installation screw for the purpose, designed to fix the working part in the handle, while the installation screw is made of not rusting steel, in the shape of the head is winged, that is, its head has two tabs in the form of petals, while the screw shaft is completely coated with thread and has a flat end.

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