RU31951U1 - Self-propelling screw - Google Patents

Description

SELF-COMPRESSING

The utility model relates to medical equipment, in particular, to instruments intended for osteosynthesis in orthopedics and traumatology, and can be used in equipment where self-locking screws are required.

Known screws and screws for osteosynthesis with screw threads and screws 11, 23, however, with prolonged contact of the surfaces of screws and screws with biological tissue, the latter changes its structure - loosens, tearing away a foreign body. Thereby, the force of preloading, for example, of the plate to the bone, is reduced, which leads to repeated measures to increase the efforts of pressing the plate to the bone, which requires additional time for repeated surgical intervention for osteosynthesis.

A compression screw is also known, comprising a rod with a threaded end and a sleeve with an external thread mounted on it and a screw connecting the sides thereof. The rod and the sleeve are made with multidirectional threads of the same type and are connected by means of a keyway 33. The disadvantage of this compression screw is the design complexity and, consequently, the long time for its installation during osteosynthesis.

The task the utility model aims to solve is to reduce the time for osteosynthesis surgery and a one-time intervention to ensure constant compression or tension of bone fragments, as well as fixing parts in the technique.

The stated problem is solved in that for a self-compressing screw containing a head with a head restraint and a screw body, bj & 1, the screw body is a spring, the outer surface of the winding of which is the surface of the threaded connection, the proximal end of the spring is fixed to the protrusion of the head from the head of the head, while the step coil spring

A61B 17/58

executed by variable.

Provided that the surface. the threaded connection is made of pre-deformed, with the formation of an acute angle, wire or tape 1, at the distal end the winding of the spring is made with a gradually decreasing p 1 radius, i.e. with the formation of a conical surface,. at the same time, a tip with a single-thread self-tapping thread can be fixed at the distal end.

In FIG. 1 depicts the described self-compression screw; FIG. S, 3 shows options for winding a spring from a pre-deformed wire or tape, respectively.

The screw consists of a head 1 with a head restraint 2 and the body of the screw 3 in the form of a spring, the outer surface of the winding of which is the surface of the threaded connection, the proximal end of the spring is fixed to the protrusion of the head 4.

The spring is made of pre-deformed}, with the formation of an acute angle, wire 5 or tape 6. At the distal end is fixed tip 7 with a single-thread self-cutting thread.

Descriptive self-compression screw is made as follows.

Select the required wire diameter or tape dimensions and their length. After this, the wire or tape is annealed, the wire or tape is deformed to form an acute angle, FIG. S, 3. A wire or tape is wound on a mandrel of a given diameter with a variable pitch of the winding so that the resulting sharp angle is directed away from the axis of the winding.

The resulting spring is secured with a HEI protrusion of the head under the head restraint, after which heat treatment is carried out to the required hardness.

Use a compression screw in the following manner.

After cutting a hole in the bone with a screw different from the screw pitch, the screw is inserted into the hole in the bone and screwed into the bone with a key. In this case, the spring begins to create a force on the wall of the thread turns along the axis of the hole in the bone.

After the screw is fixed in the hole, the surface of the screw threaded joint begins to interact with the bone tissue, which changes its state over time, i.e. rejects a foreign body.

However, the emphasis on the surface of the threaded connection of the screw in the hole in the bone will not weaken, because the pitch of the screw winding and the thread pitch in the bone hole are different. This condition will be maintained during the entire time the screw is in the bone.

If the distal end of the screw is equipped with a self-cutting tip, then a similar state can be achieved without first cutting the holes in the bone tissue.

Thus, the proposed design of a self-compressing screw can provide constant bonding of bone fragments and constant compression of the plate to the bone during osteosynthesis. which is especially true for vibrations.

Sources of information

1. Catalog Tools for osteosynthesis with screws and plaster H 1mi manufactured by ChM (Poland).

2. OSTEMED Tools. KsiTaJior 197-198 Implant staff and tools for osteosynthesis - 1999, section Screws.

Claims (4)

1. A self-compression screw comprising a head with a head restraint and a screw body, characterized in that the screw body is a spring, the outer surface of the winding of which is the surface of the threaded connection, the proximal end of the spring is fixed to the protrusion of the head from the head of the head, while the spring winding step is made variable . 2. The self-compression screw according to claim 1, characterized in that the surface of the threaded connection is made of pre-deformed with the formation of an acute angle of the wire or tape. 3. The self-compression screw according to claims 1 and 2, characterized in that at its distal end the winding of the spring is made with a gradually decreasing radius, i.e. with the formation of a conical surface. 4. Self-compression screw according to claims 1 to 3, characterized in that a tip with a single-thread self-tapping thread is fixed at its distal end.