RU2723532C1 - Method of minimally invasive osteosynthesis of hand, foot and forearm bones fractures - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to traumatology, and can be used for treating fractures of metacarpal, metatarsal bones and forearm bones. Method involves using a wire inserted through bone fragments, wherein the wire is made hollow inside, a hole made in the middle of the wire, and the lumen of the wire are interconnected by a bending transition. Wire is installed so that the outlet hole of the canal is found in the projection of the diaphysis of the broken bone. Then, under X-ray, the wire is turned so that the outlet hole is turned to the bone diaphysis surface turned towards the skin. Thereafter, the internal rod of the wire, made in the form of a flexible rod or mandrel-type rod, is inserted in it to the middle hole of the wire and, through bone tissue, is brought out onto the skin surface. Then, the rod is fixed by means of collet clamps on the skin surface on both sides of the rod.EFFECT: method provides durability and reliability of fixation due to use of a hollow wire and a flexible rod passing through it.1 cl, 1 dwg

Description

The invention relates to medicine, namely to traumatology, and is intended for the treatment of fractures of the metacarpal, metatarsal and forearm bones, while ensuring strength and predicting the reliability of fixing properties.

A known method of minimally invasive osteosynthesis of diaphyseal fractures of the bones of the hand and foot using Kirschner spokes. Closed manual reposition is performed to eliminate displacement and interposition of soft tissues. Kirschner spokes are inserted through entire sections of bones or inserted through the bone marrow canal at angles, which prevents coarse displacement of fragments. Then the fragments are fixed additionally with plaster bandages or plastic.

In this case, the spokes do not provide good fixation of the fragments, since gradually under the action of the muscles of the limb some displacement of bone fragments occurs (S. N. Izmalkov, OM Semenkin "Surgical treatment of patients with unstable fractures of the radius in a" typical place. "Samara - 2005).

There is also a known method of osteosynthesis with plates and screws, but this method requires surgical intervention, that is, it is more invasive, you have to make a large incision, and then remove the plate one year after the operation. (OSTEOKEEN.RU website dated January 27, 2018: "Varieties of plates for osteosynthesis").

The disadvantages of this method is that it requires a relatively long time, it is characterized by a rather high invasiveness of the operation. A contraindication to the use of this method is osteoporosis, pregnancy, etc.

The basis of the invention is the creation of a method of minimally invasive osteosynthesis of fractures of the bones of the hand, foot and forearm, which provides an improvement in the quality of treatment of patients by using fixatives with minimally invasive properties in the synthesis to prevent complications in surgical treatment of patients with fractures of the bones of the hand, foot and forearm.

The solution to this problem is provided by the fact that in the method of minimally invasive osteosynthesis of fractures of the bones of the hand, foot and forearm, including the use of a spoke, the needle is inserted through bone fragments, while the spoke is hollow inside, the hole made in the middle of the spoke and the lumen of the needle are connected to one another by a shallow bending along the radius of the transition; the needle is set so that the outlet of the channel is in the projection of the diaphysis of the broken bone; then, under the x-ray, the needle is deployed so that the outlet is deployed to the surface of the diaphysis of the bone, deployed to the side of the skin, after which the inner core of the spoke, made in the form of a flexible rod or rod like mandreins, is inserted into it to the middle opening of the spoke and, passing through the bone tissue brought to the surface of the skin; then fix the rod with collet clamps on the skin surface on both sides of the rod.

Fixation of bone fragments in one position is due to the fact that the inner core, passing through the wall of the bone and soft tissue to the surface of the skin, fixes the bone in the position in which it was brought at the time of reposition. This ensures the stability of osteosynthesis.

The invention is illustrated in FIG. 1, which shows a transverse section of a bone with a metal structure.

The invention is as follows.

The spoke 1 is inserted through bone fragments 2, while the spoke 1 is hollow inside to its middle. A hole is made in the middle of the spoke 1, which is connected to the lumen of the spoke 1 by a gentle transition bending along the radius. The spoke 1 is set so that the outlet of the channel is in the projection of the diaphysis of the broken bone 2. Under the x-ray, the spoke 1 is turned so that the outlet is deployed to the surface of the diaphysis of the bone 2, turned towards the skin. Then, the inner shaft 3 of the knitting needles 1, made in the form of a flexible shaft or a mandrel-type shaft, is inserted into it to the middle opening of the knitting needles and, passing through the bone tissue 2, is brought to the skin surface. After that, the rod 3 is fixed with collet clamps on the skin surface on both sides of the rod 3.

Claims (1)

A method of minimally invasive osteosynthesis of fractures of bones of the hand, foot and forearm, including the use of a spoke, characterized in that the spoke is inserted through bone fragments, while the spoke is hollow inside to its middle, the hole made in the middle of the spoke and the clearance of the spoke are connected by a bending transition ; the needle is set so that the outlet of the channel is in the projection of the diaphysis of the broken bone; then, under the x-ray, the needle is deployed so that the outlet is deployed to the surface of the diaphysis of the bone, deployed to the side of the skin, after which the inner core of the spoke, made in the form of a flexible rod or rod like mandreins, is inserted into it to the middle opening of the spoke and, passing through the bone tissue brought to the surface of the skin; then fix the rod with collet clamps on the skin surface on both sides of the rod.

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