KR102141421B1 - suture cross through type sleeve anchor - Google Patents

Abstract

The present invention relates to suture cross-through sleeve anchors.
The suture cross-through sleeve anchor of the present invention is a flat type anchor body 10 made of fiber, a suture 20 fastened to the anchor body 10, and a certain distance from one end of the anchor body 10 It is formed on the inside, the suture 20 is inserted into the anchor body 10, the insertion hole 30, and is formed inside a certain distance from the other end of the anchor body 10, the inlet hole 30 Between the withdrawal hole 40 through which the inserted suture 20 is drawn out, and a plurality of gaps are formed between the inlet hole 30 and the withdrawal hole 40, the suture 20 is sewn into the anchor body 10 It is configured to include a tension ball (50) that allows the anchor body 10 to be deformed when pulling both ends of the suture 20 as it is allowed to pass through sequentially, so as to soft tissue to the bone (bone) In the sleeve anchor that is deformed and fixed after being inserted into the perforated bone to fix, the suture 20 is composed of a plurality, and the inlet hole 30 and the outlet hole 40 are each made of one and a plurality of sutures ( 20) through one of the inlet hole 30 and the withdrawal hole 40, the tension holes 50 and the outside of the inlet hole 30 and the withdrawal hole 40 and the outer tension hole 51 located continuously , Consisting of an inner tension hole 52 located between the outer tension holes 51, the outer tension hole 51 is in the number of the suture 20 in the direction orthogonal to the longitudinal direction of the anchor body 10 The corresponding numbers are formed spaced apart from each other, and the inner tension balls 52 are formed with a number less than the number of the outer tension balls 51 in a direction orthogonal to the longitudinal direction of the anchor body 10, each The plurality of sutures 20 that have penetrated the outer tension hole 51 alone penetrates the inner tension hole 52 so that the sutures 20 cross each other between the outer tension holes 51 on both sides. It is characterized by.
According to the present invention, while the suture is composed of a plurality, the inlet hole and the outlet hole are constituted one by one, and the number of tension balls in each row continuously positioned therebetween is formed differently, so that the anchor body is held in the tension ball as much as possible. The anchoring force can be improved when the anchor is fixed to the bone by minimizing the dispersion of the force by bringing the force held by the ball together in the inlet and outlet holes.

Description

Suture cross through type sleeve anchor

The present invention relates to a sleeve anchor that undergoes shape deformation after being drawn into the bone to fix soft tissues such as tendons, ligaments, and muscles to the bone, and takes a cross-penetration form when the suture thread penetrates a fibrous anchor body having flexibility. It relates to a suture cross-through sleeve anchor, so that when the suture can be prevented from breaking.

In general, when damage (rupture) occurs to soft tissues such as tendons, ligaments, and muscles, or when soft tissues are broken, surgical methods are used to treat soft tissues in the damaged areas by attaching and fixing them to bones.

For example, if the surgery is diagnosed as a rotator cuff rupture due to an increase in sports or leisure population, the damaged rotator cuff is fixed to the bone and treated after removing the damaged area.

At this time, to fix the soft tissue, such as a rotator cuff, to the bone, a hole is drilled in the bone, the anchor is attached, and the suture connected to the anchor is tied to the soft tissue, so that the soft tissue can be attached and fixed to the bone.

For example, conventionally, as introduced in Korean Patent Publication No. 2015-0136707 and Korean Patent Publication No. 2015-0126855, a method of bolt-joining a bolt-shaped anchor formed with a thread to a bone was used.

Therefore, due to differences in bone density and the like, the threads formed on the bone and the threads formed on the anchor do not exactly match, so the anchor becomes loose over time, and the suture also becomes loose, causing a problem that the soft tissue cannot be firmly held.

In addition, it is difficult to form a screw hole in the bone using a surgical drill, the doctor feels a rejection while bolting the anchor with a surgical screwdriver, and the patient also feels a heterogeneity caused by inserting a metal anchor. have.

In this regard, in'Omega Note-type Sleeve Anchor' (Korean Registered Patent Publication No. 10-1634796, patent document 1), a suture is fastened to pass through a through hole formed at both ends of the anchor body, the anchor body is drawn into the bone and the suture is caught. It has been made to anchor by pulling shape deformation.

However, such a configuration has a problem in that if it is not possible to form a complete omega shape, the anchoring action for a long time in the bone or pulling the suture with a force of a predetermined size or more may deviate.

As a technique for solving this problem, the "flat type sleeve anchor" (Korean Patent Publication No. 10-1849682, Patent Document 2) has a constant shape of the anchor because the fibrous anchor body penetrates the suture several times. Was made possible.

The patent document 2 seems to have solved the problem occurring in patent document 1 to some extent.

However, the structure in which the suture thread penetrates between the tension holes between the inlet and the outgoing holes has a problem in that the force held by the tension balls is distributed around the inlet and outgoing holes, and thus the anchoring force is not high. .

Due to this, the suture is strongly pulled during the procedure, which causes the suture to break.

KR 10-1634796 (2016.06.23) KR 10-1849682 (2018.04.11)

The suture cross-through sleeve anchor of the present invention is intended to solve the problems occurring in the prior art as described above, while the suture consists of a plurality of inlet holes and outlet holes, each of which is continuously positioned between them. By forming the number of tension balls differently, the anchor body is held as much as possible in the tension ball, and the force held by the tension ball is brought together in the inlet and outlet holes, minimizing the dispersion of force. It is to make it possible to improve.

In addition, between the tension balls, the sutures take the cross shape of the "X" shape, fix the anchor to the bone, and then increase the strength and distribution of the overall force applied to the body when pulling the suture, fix the anchor, and weave the suture. This pulled force comes out as one inlet and withdrawal hole when pulling in order to pull it out. At this time, the high distribution force applied to the anchor body holds the anchor body firmly. Will do.

In addition, the anchor body is broken by a force applied to the anchor body in a direction orthogonal to the longitudinal direction as the crossed sutures are pulled by forming a reinforcement thicker than the other parts between the holes where the suture does not pass. It is to be able to suppress.

In order to solve the above problems, the suture cross-through sleeve anchor of the present invention has a flat type anchor body 10 made of fiber, a suture 20 fastened to the anchor body 10, and the anchor body ( It is formed inside a certain distance from one end of 10), the suture 20 is inserted into the anchor body 10, the insertion hole 30, and is formed inside a certain distance from the other end of the anchor body 10 , A plurality of spaced apart between the lead-out 40 and the lead-out hole 30 and the lead-out hole 40, the suture 20 sandwiched between the lead-in hole 30, the suture 20 is the It is configured to include a tension ball (50) that allows the anchor body (10) to be deformed when pulling both ends of the suture (20) as it is allowed to pass sequentially in a lock-stitch manner to the anchor body (10). , In the sleeve anchor that is transformed and fixed in shape after being drawn into the perforated bone to fix the soft tissue to the bone, the suture 20 is composed of a plurality, and the inlet hole 30 and the withdrawal hole 40 are Consisting of one each, a plurality of sutures 20 penetrate one inlet hole 30 and outlet hole 40, and the tension holes 50 are continuous with the inlet hole 30 and outlet hole 40 It is composed of an outer tension hole (51) located, and an inner tension hole (52) located between the outer tension holes (51), the outer tension hole (51) in the direction perpendicular to the longitudinal direction of the anchor body (10) The number corresponding to the number of the suture 20 is formed spaced apart from each other, and the inner tension ball 52 is greater than the number of the outer tension balls 51 in a direction orthogonal to the longitudinal direction of the anchor body 10. It is formed of a small number, the plurality of sutures 20 through each outer tension hole 51 alone penetrates the inner tension ball 52, so that the sutures 20 are between the outer tension holes 51 on both sides. It is characterized by forming a shape that intersects each other.

In the above configuration, the outer tension hole 51 is spaced apart in the longitudinal direction of the anchor body 10, a plurality of first outer tension holes 51a and a plurality of second outer tension holes 51b. It is composed of, between the first outer tension hole (51a) and the second outer tension hole (51b) is characterized in that the suture 20 crosses through.

In addition, the suture 20 is made of three or more, the first outer tension hole (51a) is composed of the same number of suture 20, the second outer tension hole (51b) is the first It is composed of a smaller number than the number of outer tension holes (51b), it characterized in that the plurality of sutures (20) through any one of the plurality of second outer tension holes (51b).

In addition, the inner tension hole 52 is a first inner tension hole 52a through which a plurality of sutures 20 are all penetrated, and the first inner tension hole 52a is continuously positioned and has a first inner tension. Characterized in that it consists of one second inner tension ball (52b) through which all sutures (20) penetrating the ball (52a).

In addition, the anchor body 10 is between the inlet hole 30 from the one end of the anchor body 10, the inlet hole 30 and the first outer tension hole (51a), the first outer tension hole (51a) and the 2 Between the outer tension hole (51b), the second outer tension hole (51b) and the first inner tension hole (52a), between the lead-out hole (40) and the other end of the anchor body (10) suture (20) ) Is formed in a rectangle along the longitudinal direction in the portion that does not pass, it is characterized in that the reinforcement portion 60 is further protruded back and forth.

According to the present invention, while the suture consists of a plurality, the inlet hole and the outlet hole are constituted by one, and the number of tension balls in each row continuously positioned between them is formed differently, so that the tension balls hold the anchor body as much as possible. The anchoring force can be improved when the anchor is fixed to the bone by minimizing the dispersion of the force by bringing the force held by the ball together in the inlet and outlet holes.

In addition, between the tension balls, the sutures take the cross shape of the "X" shape, fix the anchor to the bone, and then increase the strength and distribution of the overall force applied to the body when pulling the suture, fix the anchor, and weave the suture. This pulled force comes out as one inlet and withdrawal hole when pulling in order to pull it out. At this time, the high distribution force applied to the anchor body holds the anchor body firmly. do.

In addition, the anchor body is broken by a force applied to the anchor body in a direction orthogonal to the longitudinal direction as the crossed sutures are pulled by forming a reinforcement thicker than the other parts between the holes where the suture does not pass. Can be suppressed.

1 is a front view showing an example of use of the suture cross-through sleeve anchor of the present invention.
Figure 2 is a view showing the front and rear states of the sleeve anchor of Figure 1;
Figure 3 is a front view showing another example of the suture cross-through sleeve anchor of the present invention.
4 is a view showing the front and rear states of the sleeve anchor of FIG. 3;
Figure 5 is a front view showing another example of the suture cross-through sleeve anchor of the present invention.
6 is a view showing the front and rear states of the sleeve anchor of FIG. 5;

Hereinafter, the suture cross-through sleeve anchor of the present invention will be described in detail through the accompanying drawings.

The basic configuration of the present invention is a flat type anchor body 10 made of fiber, as shown in FIG. 1 and the like, a suture 20 fastened to the anchor body 10, and one end of the anchor body 10 It is formed inside a certain distance from, the suture 20 is inserted into the anchor body 10, the insertion hole 30, and is formed inside the predetermined distance from the other end of the anchor body 10, the insertion hole ( 30) a plurality of spaced apart between the withdrawal hole 40 and the withdrawal hole 30 and the withdrawal hole 40, through which the suture 20 is inserted, the suture 20 is the anchor body 10 It comprises a tension ball (50) that allows the anchor body (10) to be deformed when pulling both ends of the suture (20) in order to pass through sequentially in a lock-stitch method, bone (soft tissue) It is configured to be deformed and fixed after being drawn into the perforated bone to fix to the bone.

Here, the anchor body 10 is made of a fibrous material, so that it is deformed after being inserted into the perforated bone during surgery to fix soft tissue (eg, tendons, ligaments, and muscles) to the bone, and the deformation of the anchor body ( 10) is progressed by pulling the suture 20 fastened to.

The inlet hole 30, the outlet hole 40 and the tension hole 50 are configured to allow the suture 20 to be fastened to the anchor body 10, of which the inlet hole 3 is the anchor body 10 Is provided at one end of the, the withdrawal hole 40 is provided at the other end of the opposite side, the tension hole 50 is provided with a plurality between the inlet hole 30 and the withdrawal hole (40).

According to this configuration, the anchor body 10 is folded in half so as to be approximately'U' shaped and inserted into the bone, and when the suture 20 is pulled in the state, the shape of the anchor body 10 is deformed and inserted into the bone The volume (or cross-sectional area) becomes larger than the hole.

Therefore, the anchor body 10 is fixed (i.e., anchored) inside the bone, and the soft tissue, such as damaged tendons, ligaments and muscles, is fixed by tying and fixing the soft tissue with the suture 20 fixed to the bone through the anchor body 10. Let the treatment take place.

The anchor body 10 is made of a fibrous material, so that it is easy to insert into the bone, and the shape is deformed to be folded or bent to facilitate anchoring.

As the bending is possible, the anchor body 10 can be folded into an'U' shape and inserted into the bone, and after insertion, is shaped into a larger volume than the opening of the insertion hole drilled into the bone by the pulling action of the suture 20 The transformation is made.

The material of the anchor body 10 is made of various high-molecular weight PE (UHMWPE), such as various polyethylene (PE), and fiber yarn materials such as PET (polyethylene terephthalate), nylon (Nylon), and polypropylene (PP). Can.

Suture (20: suture) is to be fastened to the anchor body 10 by sequentially passing through the inlet hole 30, the tension hole 50 and the outlet hole 40 formed in the anchor body 10, the both ends of each It maintains a long drawn out state to the left and right outer portions of the anchor body (10).

Hereinafter, the main configuration of the present invention will be described.

The feature of the present invention is that the suture 20 is made of a plurality of, the inlet hole 30 and the withdrawal hole 40 is made of one each, a plurality of suture 20 is a single inlet hole 30 and the withdrawal hole ( 40).

In addition, the tension balls 50 are the outer tension balls 51 and the inner tension balls 52 positioned between the outer tension balls 51, which are positioned to be continuous with the inlet holes 30 and the extraction holes 40. Consists of, and the outer tension hole 51 is formed to be spaced apart from each other the number corresponding to the number of the suture 20 in the direction perpendicular to the longitudinal direction of the anchor body (10).

In addition, the inner tension hole 52 is formed in a number less than the number of the outer tension hole 51 in a direction orthogonal to the longitudinal direction of the anchor body (10).

A plurality of sutures 20 penetrating each outer tension hole 51 alone penetrates the inner tension hole 52 to form a form in which the sutures 20 intersect between the outer tension holes 51 on both sides. It is characterized by.

1 and 2 illustrate one embodiment of this invention.

1 is a view showing a state in which the sleeve of the present invention is folded in half by an anchor body 10 using a surgical tool (T), and FIG. 2 is a view showing a state in which the sleeve of FIG. 1 is unfolded (A) Denotes one side, and (B) the other side.

In the embodiment of Figures 1 and 2, the suture 20 is composed of two of the first suture 21 and the second suture 22.

In addition, the inlet hole 30 and the outlet hole 40 is made of one each, two suture 20 is configured to penetrate one inlet hole 30 and the outlet hole 40, whereas the inlet hole 30 and There are two outer tension holes 50 adjacent to the withdrawal holes 40, and each suture 20 is made to penetrate each outer tension hole 50.

At this time, in the drawing, the outer tension hole 51 is composed of two first outer tension holes 51a and two second outer tension holes 51b continuously spaced apart in the longitudinal direction of the anchor body 10, wherein Between the first outer tension hole 51a and the second outer tension hole 51b, the suture 20 is configured to cross and penetrate in an “X” shape.

That is, as can be seen by looking at the state of Figure 1 in the state installed on the surgical tool (T), each one of the inlet hole 30 and the withdrawal hole 40 as a starting point, each branched to the first outer tension hole (51a) Thereafter, when reaching the second outer tension ball 51b, it can be seen that it crosses in the shape of an "X" and then passes, and the inner tension ball 52 is merged into one again.

In the embodiment of FIGS. 3 and 4, the suture 20 is composed of three first sutures 21, second sutures 22, and third sutures 23.

In the drawing, the inlet hole 30 and the outlet hole 40 are made of one each, and three sutures 20 are configured to penetrate one inlet hole 30 and the outlet hole 40, whereas the inlet hole 30 and Outer tension holes 40 and adjacent outer tension holes 50 are made up of three, so that each suture 20 penetrates each outer tension hole 50.

At this time, in the drawing, the outer tension hole 51 is composed of three first outer tension holes 51a and two second outer tension holes 51b continuously spaced apart in the longitudinal direction of the anchor body 10, wherein Between the first outer tension hole 51a and the second outer tension hole 51b, the suture 20 is configured to cross and penetrate in an “X” shape.

Accordingly, the first suture 21 and the third suture 23 penetrate one of the two second outer tension holes 51b, and the second suture 22 penetrates the other.

That is, as can be seen by looking at the state of Figure 3 in the state installed on the surgical tool (T), each one of the inlet hole 30 and the withdrawal hole 40 as a starting point, each branched to the first outer tension hole (51a) Thereafter, when reaching the second outer tension hole 51b, the first suture 21 and the third suture 23 cross the second suture 22 in the form of an “X”, and then pass, and the inner tension passes. It can be seen that the ball 52 is merged into one again.

That is, in the embodiment of FIGS. 3 and 4, the suture 20 is made of three or more, and the first outer tension hole 51a is composed of the same number as the number of the suture 20, and the second outer tension ball (51b) is composed of a number less than the number of the first outer tension hole (51b), in this case, any one of the plurality of second outer tension holes (51b), a plurality of sutures (20) will penetrate.

On the other hand, in the embodiment of Figures 1 to 4, the inner tension hole 52 is a plurality of sutures 20, one first inner tension hole (52a) through which all, and the first inner tension hole (52a) and Consisting continuously and consists of one second inner tension hole 52b through which all sutures 20 penetrating the first inner tension ball 52a are penetrated, which is the suture 20 at the portion where the anchor body 10 is folded. They take the form of a straight line with each other in close contact.

In addition, FIGS. 5 and 6 show a configuration in which the reinforcement part 60 is formed on the anchor body 10.

Specifically, from the one end of the anchor body 10 between the inlet hole 30, the inlet hole 30 and the first outer tension hole (51a), the first outer tension hole (51a) and the second outer tension hole (51b) ), between the second outer tension hole (51b) and the first inner tension hole (52a), between the lead-out hole (40) and the other end of the anchor body (10), and the rear portion of the suture (20) unpassed In the longitudinal direction, the reinforcement part 60 is formed.

In the drawing, the reinforcing part 60 forms a rectangle, and is formed to protrude more forward or backward than other surfaces of the anchor body 10.

This configuration, when installed and used as a surgical tool (T) as shown in Figure 5 is located on the opposite surface of the suture 20 passes to serve to reinforce the anchor body (10).

Since the suture 20 passes through the tension balls 50 in the form of crossing in the present invention, when the suture 20 is pulled, the sutures 20 penetrated in a cross shape are attempted to move in a straight line, and thus the anchor body 10 ) Can suppress the phenomenon of tearing.

In addition, FIG. 6 shows an example in which the barb 70 is formed on the anchor body 10.

When the barb 70 is formed on the anchor body 10, it is possible to effectively suppress the anchor body 10 from escaping to the outside while being inserted into the bone.

At this time, although not shown, the suture 20 may be formed of a super high-strength yarn (UPE), and a barb made of PDO, which is a biodegradable resin, may also be formed on the suture 20 using a mold.

In this case, a barb made of a biodegradable resin component is formed on the suture 20, so that the bonding force with the soft tissue becomes excellent, and after a certain period of time, it decomposes naturally, so that separation is facilitated when separated after a period that requires fixing. .

The above configuration is different from the one configured in the patent document 2 such that the inlet hole, the tension ball, and the outlet hole form a straight line, and the suture is configured to pass through the upper holes in a straight line.

When the holes form a straight line as in Patent Document 2, there is a problem in that the force held by the tension ball is dissipated as it exits into the inlet hole and the outlet hole, whereas in the case of the above-described configuration, the force held by the tension ball 50 is one. Since it is collected by the inlet hole 30 and the outlet hole 40, it is possible to improve the fixing force of the anchor body 10 when the anchor is fixed to the bone.

Moreover, as shown in FIGS. 1, 3, and 5, the sutures are intersected in an “X” shape with each other between the continuous first outer tension hole 51a and the second outer tension hole 51b. This structure can increase the strength and distribution of the force applied to the anchor body (10).

Due to this, a high tension is applied only to the suture and it is possible to suppress the phenomenon that the suture is attempting to break.

The present invention will be applied to the operation of attaching and fixing the soft tissue of the damaged part to the bone in the event of damage to the soft tissue such as tendons, ligaments and muscles, drilling holes in the bone during treatment and tying the suture connected to the anchor to the soft tissue.

10: anchor body 20: suture
21: first suture 22: second suture
23: third suture 30: incoming hole
40: withdrawal hole 50: tension ball
51: outer tension ball 51a: first outer tension ball
51b: second outer tension ball 52: inner tension ball
52a: first inner tension ball 52b: second inner tension ball
60: reinforcement 70: barb
T: surgical instruments

Claims (5)

A flat type anchor body 10 made of fiber, a suture 20 fastened to the anchor body 10, and formed inside a certain distance from one end of the anchor body 10, the suture 20 An insertion hole 30 fitted into the anchor body 10 and an extraction hole formed inside a certain distance from the other end of the anchor body 10 and through which the suture 20 inserted into the insertion hole 30 is drawn out ( 40), a plurality of spaced apart between the inlet hole 30 and the withdrawal hole 40, the suture 20 as the suture 20 is sequentially passed through the anchor body 10 in a lock-stitch manner It consists of a tension ball (50) that allows the anchor body (10) to be deformed when both ends of the (20) are pulled, and the shape is deformed after being drawn into the perforated bone to fix the soft tissue to the bone. And a fixed sleeve anchor,
The suture 20 is made of a plurality,
The lead-in hole 30 and the lead-out hole 40 are made of one each, and a plurality of sutures 20 penetrate one lead-in hole 30 and the lead-out hole 40,
The tension holes 50 are composed of an outer tension hole 51 positioned to be continuous with the inlet hole 30 and the extraction hole 40, and an inner tension hole 52 positioned between the outer tension holes 51. Become,
The outer tension holes 51 are formed to be spaced apart from each other, corresponding to the number of sutures 20 in a direction orthogonal to the longitudinal direction of the anchor body 10,
The inner tension ball 52 is formed in a number less than the number of the outer tension hole 51 in a direction orthogonal to the longitudinal direction of the anchor body 10,
A plurality of sutures 20 penetrating each outer tension hole 51 alone penetrates the inner tension hole 52 to form a form in which the sutures 20 intersect between the outer tension holes 51 on both sides. Characterized by,
Suture cross-through sleeve anchor.
According to claim 1,
The outer tension hole 51 is composed of a first outer tension hole (51a) and a second outer tension hole (51b) continuously spaced apart in the longitudinal direction of the anchor body (10),
Between the first outer tension hole (51a) and the second outer tension hole (51b), characterized in that the suture 20 crosses through,
Suture cross-through sleeve anchor.
According to claim 2,
The suture 20 is made of three or more,
The first outer tension hole (51a) is composed of the same number of sutures (20),
The second outer tension hole 51b is composed of a smaller number than the number of the first outer tension hole 51a,
Characterized in that a plurality of sutures (20) penetrate through any one of the plurality of second outer tension holes (51b),
Suture cross-through sleeve anchor.
The method according to any one of claims 2 to 3,
The inner tension hole 52 is a first inner tension hole (52a) through which a plurality of sutures (20) all penetrate, and the first inner tension hole (52a) is continuously located and the first inner tension hole ( Characterized in that it consists of one second inner tension hole (52b) through which all sutures (20) penetrating (52a) are penetrated,
Suture cross-through sleeve anchor.
The method of claim 4,
The anchor body 10 is
Between the inlet hole 30 from one end of the anchor body 10, the inlet hole 30 and the first outer tension hole 51a, the first outer tension hole 51a and the second outer tension hole 51b, the first 2 Between the outer tension hole (51b) and the first inner tension hole (52a), between the lead-out hole (40) and the other end of the anchor body (10) in the longitudinal direction to the portion of the suture (20) that does not pass through It forms a rectangle along, characterized in that the reinforcement 60 is further protruded back and forth,
Suture cross-through sleeve anchor.

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