KR20210052991A - Bone Reduction Maintenance Device for Minimally Invasive Osteosynthesis - Google Patents

Abstract

The present invention provides a minimally invasive fracture reduction retainer. The minimally invasive fracture reduction retainer comprises: a main body in which a horizontal bar and a vertical bar are connected orthogonally to each other; and a support bar in which one end is coupled to the vertical bar of the main body, and which is provided to be parallel to the horizontal bar at a predetermined distance from the horizontal bar. The end of each of the horizontal bar and the support bar of the main body enters the inside of the living body where a bone is fractured. By pressing the vertical bar of the main body in one direction, it is possible to subdue the fractured bone by the lever principles. Fracture reduction with minimal invasion of the affected area is possible, so no incision is required. It is possible to reduce fine fractures while minimizing damage to the surrounding muscles. Among the fractured bones, the transverse bar and support bar, which are inserted near the fracture site, are used to subdue the fractured bone fragments using the principle of lever. Fractured bone fragments can be conquered with little force. Since the present invention applies the force necessary to reduce the fracture from outside the living body, this separated bone fragment can prevent the metastasis of a fracture fragment due to the surrounding muscles during the fracture reduction process.

Description

Bone Reduction Maintenance Device for Minimally Invasive Osteosynthesis}

The present invention relates to a fracture reduction maintenance device, and more particularly, a bone is located on one side of the fractured upper limb (arm) or lower limb (leg), and a horizontal bar and a support bar are located near the fracture site first bone and the second bone. After entering, the handle of the vertical bar is manipulated in the direction supported by the horizontal bar and the support bar, and the first bone and the first bone at the fracture site are pressed using a lever principle to conquer and maintain the fractured bones. It relates to a holding device.

In general, fracture reduction refers to a procedure in which a broken bone fragment is restored to its original state, and a closed reduction technique in which the skin is not cut and the bone fragment is aligned with external force, and the skin is incised and the broken bone fragment is exposed to the eye. It is divided into open reduction, which is matched by looking at it.

Among these open or non-invasive reductions, forceps or clamps, which are tools for grasping and subduing broken bone fragments, are widely used in the procedure of open reduction, which is a surgical fracture reduction.

These forceps are tools widely used in surgery or treatment in the surgical field, and have the shape of scissors as a whole.

That is, the forceps are made of first and second pressing pieces whose one end is pressing the bone piece up/down, and the first and second pressing pieces are rotatably coupled to each other by crossing, and the first and second pressing pieces are rotatably coupled to each other. A handle for rotating the pressing piece is formed.

According to the fracture reduction procedure using such forceps, in the fracture reduction procedure, the skin is first incised and the broken bone fragment is subdued.

Then, after installing the bone plate to reinforce the bone fragment on the upper side of the conquered bone fragment, the first and second pressing pieces of the forceps are rotated to hold the bone plate and the bone fragment while pressing it up/down to maintain the conquered state.

Thereafter, in order to insert a screw for firmly fixing the conquered bone fragments to each other, a drill guide provided separately is coupled to the fastening hole formed in the bone plate and fixed, and then a screw hole is drilled in the bone fragment through a drilling operation.

Finally, the bone fragment is connected by inserting a screw into the screw hole drilled into the bone fragment, and the fracture reduction procedure is terminated by separating the reduced bone fragment and the forceps that held the bone plate.

However, according to the procedure of fracture reduction through forceps according to the prior art as described above, drilling work and insertion of screws are performed from the outside where the first and second pressing pieces of the forceps are gripped, and the first and second pressing pieces are The forceps must be separated in order to puncture the gripping part.

Accordingly, a dislocation is generated in the conquered bone fragment, so that the bone fragment reduction cannot be accurately performed. In order to prevent this, a plurality of manpower must be applied, and an excessive amount of time is required for the procedure.

In addition, since the bone plate and the fastening hole are covered by the cut surrounding tissue or blood, it is difficult to secure the field of view, and thus, it is very difficult to fix the drill guide or insert the screw to the fastening hole of the bone plate.

In particular, a separate drill guider fastened to the bone plate is fixed only vertically with the bone plate, and the screw hole to be drilled cannot be drilled obliquely, and thus the inserted screw also has a disadvantage that it cannot be inserted obliquely. .

These shortcomings appear to be the inability to flexibly cope with fractures that occur in various forms.

Accordingly, when a fracture reduction procedure is performed, a fracture reduction device is required to reduce the number of personnel to be used for the procedure, and to reduce the procedure time.

As a conventional technique, reference may be made to Korean Patent Publication No. 10-2002-0084790 (November 11, 2002).

The present invention enables reduction of the affected area with minimal invasion, so that incision of the affected area is not required, and it is possible to reduce microscopic fractures while minimizing damage to the surrounding muscles. The principle is to conquer the fractured fragments, so it is possible to conquer the fractured fragments with little force, and because the force required for fracture reduction is applied from the outside of the body, the separated fragments are transferred to the surrounding muscles during the fracture reduction process. It is an object of the present invention to provide a minimally invasive fracture reduction maintenance device capable of preventing the disease.

The minimally invasive fracture reduction maintenance apparatus according to the present invention is a main body comprising a horizontal bar supporting the first bone and a vertical bar orthogonally connected to the horizontal bar, which conquers the fractured first and second bones, And a support bar that is formed to be spaced apart from the horizontal bar and supports the second bone while one end is coupled to the vertical bar of the main body, so that each end of the horizontal bar and the support bar of the main body is adjacent to the fractured bone. After entering, the vertical bar of the main body is pressed in one direction to subdue the fractured bone using the lever principle.

At this time, it is preferable that a guide part is formed on the vertical bar of the main body according to the present invention, and one end of the support bar coupled to the vertical bar is movably coupled along the guide part of the vertical bar.

Here, it is preferable that one end of the support bar according to the present invention further includes a fixing means for restraining one end of the support bar to any one of the guide portions of the vertical bar.

And it is preferable that the body and the support bar according to the present invention are made of a radiolucent material (synthetic resin, etc.) that does not appear in an X-ray image.

The effects exhibited by the minimally invasive fracture reduction maintenance device according to the present invention are as follows.

Reduction of the affected area with minimal invasion is possible, so incision of the affected area is not required, and it is possible to reduce microscopic fractures while minimizing damage to the surrounding muscles, and the horizontal bar and support bar that have entered the fracture area among the fractured bones are fractured using the principle of a lever. Since it conquers the fractured fragments, it is possible to conquer the fractured fragments with little force, and because the force necessary for fracture reduction is applied from the outside of the body, the effect of preventing the metastasis of the fractured fragments due to the surrounding muscles during the fracture reduction process of this separated fragment. Have.

1 is an exemplary view showing a state of use of a minimally invasive fracture reduction maintenance device according to an embodiment of the present invention.
2 is an exemplary view showing an exploded state of the minimally invasive fracture reduction maintenance device according to an embodiment of the present invention.
3 is an exemplary view showing an apparatus for maintaining minimally invasive fracture reduction according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention. It should be understood that there may be variations.

In the present invention, the bone is located on one side of the fractured upper limb (arm) or lower limb (leg), and after entering the horizontal bar and the support bar into the vicinity of the first and second bones at the fracture site, the handle of the vertical bar It relates to a minimally invasive fracture reduction maintenance device that is operated in the direction supported by the support bar and pressurizes the first bone and the first bone at the fracture site using a lever principle to conquer and maintain the fractured bones. Is the same as

The minimally invasive fracture reduction maintenance apparatus according to an embodiment of the present invention with reference to FIGS. 1 to 3 is for subduing the fractured first and second bones, and includes a main body 100 and a support bar 200. , In the main body 100, the horizontal bar 110 and the vertical bar 120 are connected orthogonally to each other to form a'a' shape.

At this time, the horizontal bar 110 supports the first bone at the fracture site, and is provided with a conical guide member 111 at the end of the horizontal bar 110 to facilitate entry into the vicinity of the fracture site through the living body. In addition, it is preferable to form a handle 121 that the user can grasp at the end of the vertical bar 120, which is connected to the horizontal bar 110 in an orthogonal manner, and at the end of the opposite portion.

The conical guide member 111 is preferably screwed and mounted to the end of the horizontal bar 110, and the handle 121 is formed to extend outwardly from the end of the vertical bar 120 desirable.

In addition, the support bar 200 supports the second bone of the fracture site, and one end of the support bar 200 is coupled to any one of the vertical bars 120 of the main body 100, wherein the support bar 200 is It is provided so as to be parallel to the horizontal bar 110 with a predetermined distance from the horizontal bar 110.

At this time, the support bar 200 may also be provided with a conical guide member 201 at the end of the support bar 200 so that it is easy to enter the fracture site through the living body, and the conical guide member 111 ) Is preferably screwed to the end of the support bar 200 to be mounted.

Therefore, the minimum invasive fracture reduction maintenance device according to an embodiment of the present invention preferably has an overall shape of'F' by the combination of the main body 100 and the support bar 200, and the main body 100 The horizontal bar 110 and the support bar 200 are inserted into the body near the fracture site where the bone is fractured to support the bones of the fracture site, respectively, and then the vertical bar 120 of the main body 100 ) Of the handle 121 in one direction to support the fractured bones, while the horizontal bar 110 and the support bar 200 support the first bone and the second bone, The bones supported by the force generated by the operation of 121) are pressed with the principle of a lever to conquer the fractured bones, and the operation state of the handle 121 is maintained, so that the conquest of the bone is maintained.

Here, the horizontal bar 110 and the vertical bar 120 and the support bar 200 of the main body 100 are made of a radiolucent material (synthetic resin, etc.) that does not appear in the X-ray image, Therefore, it is desirable to prevent the occurrence of radioactive shadows on the fracture site.

In addition, it is preferable that the support bar 200 of the apparatus for maintaining minimally invasive fracture reduction according to an embodiment of the present invention is configured to be movable along the length of the vertical bar 120 of the main body 100.

The distance from the horizontal bar 110 of the main body 100 can be adjusted. In this case, a guide 122 is formed along the length of the vertical bar 120 of the main body 100, and the guide 122 has the One end of the support bar 200 is connected.

For example, the guide 122 may form a flat portion that is flatly divided in a part of the length of the vertical bar 120, and the flat portion may be formed as a long hole penetrating from top to bottom along the length.

At this time, the long hole is screwed to one end of the support bar 200 while passing through the bolt, which is the fixing means 210 from the bottom of the long hole, so that the support bar 200 is fixed to the long hole.

Here, depending on the degree of tightening (fastening) of the bolt, which is the fixing means 210, the support bar 200 is constrained and released. When the bolt, which is the fixing means 210, is rotated clockwise, the tightening of the bolt is Increasingly, the support bar 200 is constrained by the guide 122 of the vertical bar 120 to maintain its fixed position, and when the bolt, which is the fixing means 210, is rotated counterclockwise, the bolt The tightening of the support bar 200 is reduced so that the support bar 200 can move along the guide 122 of the vertical bar 120 together with the release of the restraint of the support bar 200.

In the present invention, the guide 122 is limited to a long hole, but is not limited thereto, and a means and a structural surface capable of guiding the support bar 200 such as a rail, a groove, etc. in the longitudinal direction of the vertical bar 120 Any one can be applied.

And in the present invention, the fixing means 210 is limited to bolts, but is not limited thereto, and a means and a structural surface capable of selectively constraining the support bar 200 to any one of the lengths of the vertical bar 120 Any one can be applied.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: main body
110: horizontal bar
111, 201: guide member
120: vertical bar
121: handle
122: guide
200: support bar
210: fixing means

Claims (4)

In the minimally invasive fracture reduction maintenance device for subduing the fractured first bone and the second bone,
A main body including a horizontal bar supporting the first bone and a vertical bar connected to the horizontal bar in an orthogonal shape; And
While one end is coupled to the vertical bar of the main body, formed to be spaced apart from the horizontal bar, the minimum invasive fracture reduction maintenance device comprising a support bar for supporting the second bone.
The method according to claim 1,
On the vertical bar of the main body
Forming a guide portion along the longitudinal direction,
One end of the support bar coupled to the vertical bar is a minimally invasive fracture reduction maintenance device that is movably coupled along the guide portion of the vertical bar.
The method according to claim 2,
At one end of the support bar
Minimum invasive fracture reduction maintenance device further comprising a fixing means for restraining one end of the support bar at any one point of the guide portion of the vertical bar.
The method according to claim 1,
The main body and support bar
Minimally invasive fracture reduction maintenance device made of radiolucent materials (synthetic resin, etc.) that do not appear in X-ray images.

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