KR101672376B1 - Length adjustable osteosynthesis wire for bone fracture - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a length-adjustable bone-bonding wire, and more particularly, to a length-adjustable bone-bonding wire capable of correcting displaced bone fragments during bone fracture surgery, .

Description

[0001] The present invention relates to a length adjustable osteosynthesis wire for bone fracture,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a length-adjustable bone-bonding wire, and more particularly, to a length-adjustable bone-bonding wire capable of correcting displaced bone fragments during bone fracture surgery, .

In general, when a fracture occurs in a bone part constituting the body such as a long bone or a tubular bone, a surgical operation is performed in which the bone fragments displaced (displaced from the original position) are restored to their original shape.

At this time, for joining the bones, it is necessary to maintain a state of bonding firmly for 4 to 12 weeks so that there is no gap on the fracture surface due to generation of bone bones after matching the displaced bone fragments.

Therefore, it is important to fix the bone fragments so that they do not move for a certain period of time. Therefore, a metal wire called K-wire (Kirschner's wire) is typically used to fix the bone fragments in the original state.

On the other hand, in Korean Patent Laid-Open Publication No. 2013-0042753 (K-wire for fracture treatment), a new type of K-steel wire (see FIG. 1) is used because of the problem that the existing K- ).

As shown in FIG. 1, a new type of K-wire for fracture treatment includes a body part 100 at a front part and a head part 200 at a rear part for joining bone pieces to each other. ) Has two threads 121 spaced forward and backward.

The first thread piece and the second thread piece are respectively fixed to the two threads 121. The screw thread pitches of the two threads 121 are different from each other so that the forward force is different, .

However, since the length of the body part 100 to be inserted and fixed in the bone is predetermined, the conventional K-steel wire as described above has a problem in that the bone piece is bonded in an optimal state adaptively according to the type and size of the bone, It is difficult to make.

In addition, the K-wire is inserted into the inside of the bone where the bone pieces are intact while the bone pieces are in the original state. In this case, since the potential is generated again in the process of inserting the K-wire,

In addition, although bone fragments and bone fragments should maintain optimal spacing around the fracture plane, it is impossible to control the fixation interval between fragments and thus it is not possible to provide optimal surgical results, and bone fusion rate and recovery rate are also slow There was a problem.

Korea Patent Publication No. 2013-0042753 'K-wire for fracture treatment' Korean Patent Publication No. 2013-0069578 " Bone fixation system including K-wire compression "

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in an effort to solve the above problems, and it is an object of the present invention to provide a bone-length-regulating bone bonding wire capable of correcting displaced bone fragments during bone fracture surgery, .

The present invention provides a bone-length-adjustable bone bonding wire capable of adjusting a bonding distance of a fractured bone during bone fracture surgery, the bone-bonding wire comprising: a first threaded portion provided at a front end thereof and fixedly inserted into a first bone; A first body portion continuously provided behind the first thread portion; A second thread portion which is provided continuously to the rear of the first body portion and is inserted into a second bone fragment joined to the first bone fragment and has an adjusting thread formed on an outer circumferential surface thereof; An adjusting nut screwed into the second threaded portion and being adjusted in such a manner that it is moved forward or backward along the second threaded portion; And a second body portion provided continuously to the rear of the second thread portion to adjust the position of the adjusting nut in a state where the first thread portion is fixed to the first bone fragment to press the second bone fragment, And the interval between the first bone fragment and the second bone fragment is adjusted.

At this time, a fixing thread is formed on the outer circumferential surface of the first thread portion, and it is preferable that the first thread portion is fixed to the first fragment by a screw fastening method.

Further, it is preferable that the second body portion has a polygonal cross-section.

In the present invention as described above, the first thread part is fixed to the first thread piece, and the second thread piece is pressed by the adjusting nut whose position is adjusted along the second thread part, thereby adjusting the gap between the first and second thread pieces.

Therefore, according to the present invention, it is possible to perform the operation while adjusting the length of the bone connecting wire by adjusting the position of the adjusting nut, and to adjust the interval between the bone fragments to be optimal, do.

1 is a perspective view showing a K-wire for fracture treatment according to the prior art.
2 is a perspective view of a length-adjustable bone-bonding wire according to the present invention.
3 is a perspective view showing the adjustment nut of FIG.
FIG. 4 is a view showing a surgical instrument (driver) for tightening the apparatus of FIG. 2; FIG.
FIG. 5 is a view showing a bone bonding state using a length-adjustable bone bonding wire according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: FIG.

As shown in FIG. 2, the length-adjustable bone-bonding wire 20 according to the present invention is for adjusting the joint distance of fractured bone during a fracture operation, and includes a first thread portion 21, a first body portion 22, A second threaded portion 23, an adjusting nut 24, and a second body portion 25.

The present invention is used in a surgical operation in which bone fragments displaced (displaced from the original position) are intact when bone fracture occurs, and the splinters of a bone are matched with each other around the fracture surface F .

Fractures applicable to the present invention include osteo-porous fractures and osteoporotic fractures, as well as osteoarthritis events such as osteonecrosis, as well as traumatic events.

At this time, the second thread piece sb2 is fixed to the first thread piece sb1 by the adjustment nut 24 whose position is adjusted by moving back and forth along the second thread part 23 while fixing the first thread part 21 to the first thread piece sb1. So that the gap between the first and second bone fragments sb1 and sb2 is adjusted.

Therefore, according to the present invention, it is possible to perform the operation while adjusting the length of the bone fusion wire through the change of the position of the adjustment nut 24, and to adjust the interval between the bone fragments to be optimal, Speed up recovery.

To this end, the first thread portion 21 is inserted and fixed to the first bone fragment (refer to 'sb1' in FIG. 5) of two bone fragments displaced with respect to the fracture plane F at the time of fracture, and is provided at the front end .

The first bone fragment sb1 means a bone fragment distant from the direction in which the wire 20 of the present invention is inserted at the time of surgery. The front end portion of the bone fragment sb1 has a front side in the direction in which the wire 20 of the present invention enters, it means.

The first thread portion 21 is inserted and fixed in the first bone fragment sb1 and is fixed to the first bone fragment sb1 by various methods such as an anchor (not shown) if the bone can be removed after the bones are completely formed, Type thread can be used.

However, it is preferable to use a 'fixation thread' having a threaded structure as a thread that can fix the first bone fragments sb1 during joint surgery and can be removed after the bony bone formation time.

That is, it is preferable that the fixing thread is formed on the outer circumferential surface of the first thread portion 21 and has a length and a thread pitch set by a thread, and is fixed to the first bone fragment sb1 by a screw fastening method.

The first thread portion 21 and the second thread portion 23 are connected to the first thread portion 21 in a continuous manner To secure a gap therebetween.

The first body portion 22 may be made of a metal wire as in the other portions, and the length is determined by the distance between the first thread portion 21 and the second thread portion 23. The outer diameter (or cross section) is designed to withstand a sufficient force.

The second threaded portion 23 is provided continuously to the rear of the first body portion 22 and is inserted into the second bone fragment sb2 which is joined to the first bone fragment sb1 during surgery, Thread 'is formed.

Since the adjusting thread of the second thread portion 23 is screwed and moved back and forth as described later, the length of the second thread portion 23 varies in accordance with the moving distance of the adjusting nut 24 .

It is preferable that the adjusting thread of the second thread portion 23 has a smaller thread pitch than the fixing thread of the first thread portion 21. The main purpose of the second thread portion 23 is to adjust the adjusting nut 24 The screw pitch is made as small as possible so that the adjustment nut 24 can be finely adjusted.

The adjusting nut (24) is screwed into the second threaded portion (23). And more precisely screwed into the adjustment thread constituting the second thread portion 23. [ Thus, the adjustment nut 24 is positionally adjusted in such a manner that it is moved forward or backward along the second threaded portion 23.

Further, the adjusting nut 24 moves forward along the second threaded portion 23 to press the second bone fragment sb2. The second bone fragment sb2 is bonded to the first bone fragment sb1 by the force pressing the second bone fragment sb2 and the gap between the first bone fragment sb1 and the second bone fragment sb2 is optimized .

As shown in FIG. 3, the adjusting nut 24 may include a nut body portion 24a and a washer portion 24b, for example. The nut body portion 24a is formed with a screw hole at the inner center and has an outer peripheral surface of a polygonal shape. The washer portion 24b is formed in a plate shape extending outward from the front side edge portion of the nut body portion 24a.

4, when the adjusting nut 24 is tightened by a surgical instrument (for example, a screwdriver or a wrench type) 30 engaged with the polygonal outer circumferential surface of the nut body portion 24a, the washer portion 24b, Comes into contact with the second bone fragments sb2 to apply a force, and prevents the loosening by the washer portion 24b.

Next, the second body portion 25 is provided continuously to the rear of the second thread portion 23. The second body part 25 is provided for helping a driller or a surgeon to hold it by hand, and no separate thread is formed.

However, if the second body 25 has a polygonal shape, the second body 25 may have a cross-sectional shape such as a polygonal shape. Alternatively, if the second body 25 is hand- It is convenient to hold and turn.

According to the present invention configured as described above, the position of the adjustment nut 24 is adjusted while the first thread portion 21 is fixed to the first bone fragment sb1 to press the second bone fragment sb2, it is possible to adjust the gap between the second bone fragments sb1 and sb2.

Therefore, it is possible to perform the operation while adjusting the length of the bone connecting wire through the adjustment of the position of the adjusting nut 24, and to adjust the interval between the bone fragments to be optimal, thereby providing the best surgical result, Do it fast.

That is, when the first and second bone fragments sb1 and sb2 are bonded to each other on the basis of the fracture surface F, bone fractures must be generated to provide an optimum gap suitable for complete hardening. Therefore, So that the gap can be adjusted to an optimum state.

On the other hand, the outer diameter of the first thread portion 21 has a predetermined size, and the outer diameter of the first thread portion 21 is equal to or larger than the outer diameter of the second thread portion 23 2 threads) are preferably designed.

As shown in FIG. 5, the first bone fragment sb1 and the second bone fragment sb2 are penetrated by the rotational force of the drill while the second body portion 25 is held by the drill bit during the surgical operation, Insertion (insertion is possible after forming a drill hole in another dictionary).

At this time, when the outer diameter of the second threaded portion 23 is the same as that of the first threaded portion 21, the adjustment thread of the second threaded portion 23 is screwed to the second fragmented sb2, And the second skeleton sb2 is fixed.

On the other hand, when the outer diameter of the second thread portion 23 is smaller than that of the first thread portion 21, the second skeleton sb2 is fixed only by the pressing of the adjusting nut 24, The adjusting threads are only used for adjusting the position of the adjusting nut 24 (adjusting the length of the connecting wire).

FIG. 5 shows a surgical state of the length-adjustable bone-bonding wire according to the present invention. As shown in the drawing, the wire 20 of the present invention is inserted into the first bone fragment sb1 and the second bone fragment sb2 in a linear direction while being inserted into a drill bit (not shown).

The bone-bonding wire 20 of the present invention has various sizes, for example, depending on the type and size of the bone, the fracture surface F, and the like. Therefore, any one of them may be selected to perform surgery, The length is selected.

The first thread portion 21 is engaged with and fixed to the first bone fragment sb1 in the first bone fragment sb1 and the adjustment nut 24 provided on the second thread portion 23 is tightened By pressing the second fragments sb2, the first fragments sb1 and the second fragments sb2 are bonded at optimum intervals.

After the first and second bone fragments sb1 and sb2 are bonded as described above, cutting is performed at a specific position between the unnecessary portion, that is, between the adjustment nut 24 of the adjusted position and the second body portion 25 By removing the remaining portion, the bone joining is completed.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

21: First thread part
22: first body part
23: second thread portion
24: Adjusting nut
24a: nut body portion
24b:
25: second body part
F: Fracture surface
sb1: the first fragment
sb2: second fragment
30: Surgical tool (driver)

Claims (3)

A length-adjustable bone-bonding wire capable of adjusting a bonding distance of a fractured bone during a bone-fracture operation,
A first thread portion 21 provided at the front end and inserted and fixed to the first bone fragment sb1;
A first body portion 22 provided continuously to the rear of the first thread portion 21;
A second thread portion 23 which is continuous to the rear of the first body portion 22 and is inserted into a second bone fragment sb2 to be joined to the first bone fragment sb1 and has an adjustment thread on the outer circumferential surface thereof, )Wow;
An adjustment nut (24) screwed into the second threaded portion (23) and adjusted in position in such a manner as to be moved forward or backward along the second threaded portion (23); And
And a second body part (25) provided continuously to the rear of the second thread part (23)
The second thread piece sb2 is pressed by adjusting the position of the adjusting nut 24 in a state where the first thread part 21 is fixed to the first thread piece sb1, The spacing of the fragments (sb2) is controlled,
Wherein the second body part (25) has a polygonal cross-section. The method according to claim 1,
Wherein the fixing thread is formed on an outer circumferential surface of the first thread portion and is fixed to the first bone fragment sb1 by a screw fastening method. delete

Images