KR100972397B1 - Intervertebral implant - Google Patents

Abstract

PURPOSE: An inter-vertebral implant is provided, which can minimize debit of the peripheral operation in transplant. CONSTITUTION: An inter-vertebral implant comprises: an edge(110) in which a plurality of penetration holes are formed and which are inserted between adjacent two backbone joint of bones and have constant thickness in order to maintain constant space between backbones; and a partitioning section(120) which divides a penetration hole of the edge and is formed thicker than the thickness of the edge. One side of the edge in which a plurality of penetration holes are formed is swollen and the other side is concave.

Description

Intervertebral Implants {INTERVERTEBRAL IMPLANT}

The present invention relates to intervertebral implants for insertion between vertebral bones.

In general, the intervertebral disc (椎間 板) absorbs the load and impact of the body between each vertebrae and bones except for a part of the cervical spine, and acts as a buffer to distribute the impact like a spring. At this time, the intervertebral disc grasps the vertebral bones so as not to escape, separates the two vertebral bones so that the spinal nerves are not compressed to smooth the range of the spinal joint hole, and serves to smooth the movement of each vertebral bone.

As such, the intervertebral disc of humans is usually composed of the structure of the annulus and the nucleus pulposus, which is responsible for the movement of the spinal fragments, and the nucleus pulposus is composed of 70-80% moisture. It cushions or transmits the load and impact applied in the vertical direction. In degenerative disc disease, the annulus impairs the ability to move or nucleate the nucleus, and reduces the water content. Therefore, these complex results result in diseases such as spinal stenosis, osteophyte formation, disc prolapse and nerve root compression.

As a method of treating the disease accompanying the intervertebral disc, after removing the nucleus of the intervertebral disc or intervertebral disc of the damaged human body, the space between two adjacent spinal bodies is replaced with an implant or prosthesis. That is, the implant is implanted to make it as natural as possible, so that the original distance between two adjacent vertebral bodies, the original height of the intervertebral disc, is restored. In addition, the movement between adjacent interconnected vertebral bodies is prevented from interfering with the natural behavior of the spine.

As a technique for this, Korean Patent Laid-Open Publication No. 2008-0010406 (Spine implant) is provided with a biobore absorbent spinal implant for insertion between vertebral bones to provide bone growth between two vertebral bones. To help tolerate, a technique having a surface convexly curved from one side to the other has been proposed such that the thickness of the implant is largest in the middle region.

The central bore has a shape including a plurality of peaks and valleys along the circumference of the central bore, and has a pair of vertical channels for engaging the insertion tool in the front of the implant. It is difficult to obtain a position easily accessible to the implantation site when the implantation tool is mounted.

As another technique, Korean Patent Publication No. 0888478 (Bone implant for intervertebral implant) provides a technology manufactured in the form of an annular hollow body composed of a radiopaque material, and has a surface roughness of at least 2 μm on the surface of the implant. Techniques have been introduced that allow the newly growing bone to be well bonded to the implant.

In this case, perforations are formed in the partition plate and the side of the implant to fix the newly growing bone tissue and to be in place. When divided by the two partition plates, two partition plates are reinforced by the transverse brace. Is used.

Therefore, there is a need for a implant that is implanted between adjacent vertebrae to perform a function, but with a simpler and more optimized design.

The present invention is to solve the above problems, it is possible to obtain a position that is easy to implant by inserting the insertion tool, to provide an intervertebral implant having a more optimized configuration in the human body in a simple yet inserted between the vertebral bones The purpose is.

In order to achieve the above object, the intervertebral implant has a plurality of through holes formed therein, and is inserted between two adjacent vertebral bone nodes and has a predetermined thickness for maintaining a predetermined space between the vertebral bones; And a partition that partitions the through hole of the outer portion and is formed thicker than the thickness of the outer portion. And one side of the outer portion having the plurality of through holes formed therein is convex and the other side has a concave shape, and at least one mounting hole for mounting an external device to assist insertion into the body is formed on a surface constituting the thickness of the outer portion. Any one of the one or more mounting holes is located in the front side of the convex one side (where the front is defined in the direction toward the center of the convex one side, the side front is defined in the direction of the oblique line to the front) It is characterized by.

And any one of the one or more mounting holes is characterized in that located in the center of one side convex.

In addition, any one of the one or more mounting holes is characterized in that located on the side of one side convex.

As described above, the present invention has the following effects.

First, when the intervertebral implant is protruded greatly from the center by the compartment, it is suitable for the anatomical structure of the human body, and thus the fixation force may be increased until bone fusion.

Second, there is an effect that can be used by minimizing the trauma of the surrounding tissue during implantation is provided at the optimum position for mounting the insertion tool for insertion.

Third, while the through hole formed by the outer portion has a size sufficient to help the bone growth, the partition can increase the contact surface with the adjacent vertebral bones, thereby dispersing and stably fixing the pressure on the surface. There is.

Fourth, the upper and lower surfaces are symmetrical and easy to produce by injection molding, etc., and have a simple configuration, thereby reducing the production cost.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

Intervertebral implant 100 of the present invention is a structure for insertion between the vertebral bone, to restore the height of the intervertebral disc removed, and is configured to support the load of the body, as shown in Figures 1 to 4 In the embodiment of the present invention, the outer portion 110 and the partition portion 120 are configured to be included.

The outer portion 110 is inserted between two adjacent vertebral bone nodes and is configured to have a thickness for maintaining a predetermined space between the vertebral bones, and a through hole H is formed to allow bone growth. In addition, as shown in Figures 1 and 3, one side is convex and the other side has a concave shape, which is configured to have a shape similar to the shape of the intervertebral discs of the human body.

On the other hand, the side facing the abdomen of the patient in the state in which the implant is inserted in order to help the understanding of the present invention will be described as the front (F), the side facing the back of the patient (B).

At this time, the intervertebral implant 100, which is an embodiment of the present invention, has a configuration that is easy to be implanted from the abdomen side, which is one of the surgical approaches. This approach approach from the front (F) may cause problems such as bleeding, blood vessel damage, etc., by configuring the mounting holes (111-a, 111-b, 111-c) for insertion to minimize the incision It is desirable to enable transplantation alone.

In addition, in the embodiment of the present invention, the back B of the intervertebral implant 100 is configured to have a concave shape, as shown in FIG. 3, so as to avoid the intravertebral foremen constituting the spine. It plays a role.

Here, the intervertebral cavity is a space for accommodating spinal cord nerve roots, and the like, where the intervertebral disc escapes and compresses the spinal nerve root. Can be.

On the other hand, the through hole (H) formed by the outer portion 110 is partitioned by the partition portion 120, by configuring the partitioned through hole (H) to have a sufficient size, a material for helping bone growth It is possible to make bone fusion easier.

At this time, the through hole (H) is configured in the interior of the outer portion 110, as shown in Figure 3, is partitioned by the partition portion 120 is configured to have two spaces separated. In addition, the outer portion 110 may be configured to have an appropriate width within the range not impairing the strength for enduring the load of the adjacent spine so as to secure the space of the through hole H to the maximum.

In addition, since the space in which the intervertebral disc is formed between adjacent vertebral bones is generally not parallel, the implant (F) of the implant is made thicker than the thickness of the posterior (B) within the range closest to the anatomy of the human body. It is desirable to have a configuration that is most suitable for the human body.

On the other hand, the side constituting the thickness of the outer portion 110 is provided with one or more mounting holes (111-a, 111-b, 111-c) for mounting the insertion tool to assist in the body insertion, which is an intervertebral implant The insertion of the 100 is facilitated. At this time, any one of the one or more mounting holes, the first mounting hole (111-a) is configured to be located in the front side of one side convex. Here, the front is defined as the direction toward the center of one side of the convex, the front side is to be defined in the direction of the diagonal to the front.

In other words, as shown in FIG. 3, the first mounting holes 111-a are preferably positioned within the range of θ with respect to the X axis, where θ is (β-α), and α and β Is preferably configured to have an angle of about 20 ° and β about 70 ° based on the X axis.

In this case, the first mounting holes 111-a may be provided at positions symmetrical with respect to the Y axis, and as shown in FIG. 3, the third mounting holes 111-c are positioned on the X axis, and Y It is possible to comprise so that the 2nd mounting opening 111-b may be located on an axis | shaft.

That is, in the embodiment of the present invention, the third mounting hole 111-c, which is easy to be inserted from the side, on the side of the partition 120, is easy to be inserted at an angle to the other side. The first mounting hole 111-a is provided, and the second mounting hole 111-b is formed in the middle portion so as to be easily inserted from the front side F, and the other easy to insert. A mounting opening may be provided at the position. At this time, the front (F) as shown in Figure 3, the imaginary line (Y axis) extending in the longitudinal direction of the partition portion 120 and the convex outer portion 110 of the intervertebral implant 100 of the present invention. Is a direction facing the side, and as shown in FIG. And the front side means between the front (F) and the side defined above.

Therefore, the upper and lower surfaces of the intervertebral implant 100 according to the present invention are symmetrical with reference to A-A 'of FIG. It is possible to use preferably, thereby minimizing the trauma associated with insertion.

For example, referring to the bar shown in FIG. 2, it is possible to secure a position that can be inserted between the front side and the side side by using the first mounting holes 111-a. Two insertion directions can be secured from the edge.

In addition, it is possible to secure a position that can be inserted only from the side through the third mounting hole (111-c), and like the first mounting hole (111-a), the two upper and lower sides can be inserted from the left and right sides Branch insertion direction is further secured.

In addition, the three mounting holes 111-a, 111-b, and 111-c are easily configured by securing the direction to be inserted only in the front F through the second mounting holes 111-b located at the center. It is possible to secure a position that can be easily inserted in five directions.

At this time, it is possible to use a cage holder or the like as an external device for assisting the insertion of the body, which is mounted and coupled to the mounting holes 111-a, 111-b, and 111-c of the implant. When the implant is inserted into the site to be implanted, the implant is left at that site and the cage holder is removed.

On the other hand, the mounting holes (111-a, 111-b, 111-c) of the present invention can be made to have a configuration that is easy to be combined with other tools by a method using a screw form or a projection.

The partition portion 120 partitions the through hole H formed in the outer portion 110 and is configured to protrude larger than the thickness of the outer portion 110. As shown in (a), (b), and (c) of FIG. 4, it is possible to confirm the protruding state of the partition 120, and as shown in FIG. It can be seen that this is composed of the most protruding shape.

At this time, the protruding portion 120 is in contact with the adjacent vertebral bones and the fixing force is increased, it is possible to be more firmly fixed by allowing the growth of the bone is made through the through holes (H) on both sides of the partition portion 120. Do.

In addition, it is possible to distribute the pressure by increasing the contact surface by configuring the partition 120 to the load and pressure of the adjacent vertebral bone applied to the outer portion (110).

In addition, the partition portion 120 is inserted between the vertebral bones while ensuring the space of the through-hole (H) to the maximum in the configuration connected to the outer portion 110 to serve to reinforce the strength of the intervertebral implant (100). do.

On the other hand, the surface of the upper and lower surfaces of the intervertebral implant 100 in contact with the adjacent vertebral bone is configured to have a surface more than a predetermined roughness to prevent the departure and minimize the risk of slipping in the state implanted between the adjacent vertebral bone. It is desirable to.

For example, a plurality of protrusions covering the surface may be formed, or a sawtooth, a wave shape, or the like may be formed on the surface so that the friction force may be easily generated.

At this time, the upper surface and the lower surface of the intervertebral implant 100 is configured to have a rough surface, but the side constituting the thickness of the outer portion 110 is advantageous surface to minimize the trauma with the surrounding tissue during the insertion process It is preferable to comprise so that it may have.

On the other hand, the intervertebral implant 100 of the present invention can be made of a material such as titanium, titanium, shape memory alloy, stainless steel and plastic, which can be easily used as the intervertebral implant 100 of the present invention Any material can be used as long as it is a material.

In addition, in consideration of the thickness of the front (F) and the rear (B) and various convexities, it is desirable to provide a more suitable for the human body structure to the patient to be transplanted, and through injection molding, hot molding and hot pressing It is possible to produce easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

1 is a perspective view of an intervertebral implant that is an embodiment of the invention.

Figure 2 shows the back of the intervertebral implant, which is an embodiment of the present invention.

Figure 3 shows a plan view of an intervertebral implant that is an embodiment of the present invention.

Figure 4 shows a state in which the partition is projected in an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: Intervertebral Implant

110: outskirts

111-a, 111-b, 111-c: mounting holes

120: compartment

H: through hole

Claims (3)

An outer portion having a plurality of through holes formed therebetween and inserted between two adjacent vertebral bone nodes and having a predetermined thickness to maintain a predetermined space between the vertebral bones; And A partition that partitions the through-hole of the outer portion and is formed thicker than the thickness of the outer portion; Including, One side of the outer portion in which the plurality of through holes is formed is convex, and the other side has a concave shape, The surface having a thickness of the outer portion is formed with a plurality of mounting holes for mounting the external device to assist in the insertion of the body, One of the plurality of mounting holes is formed at a position where a first virtual line (the first virtual line is a virtual line extending in the longitudinal direction) meets a surface having a thickness of the outer portion, The other one of the plurality of mounting holes is formed at a position where a second virtual line (the second virtual line is an imaginary oblique line with respect to the first virtual line) and the surface having a thickness having the outer portion Intervertebral Implants. The method of claim 1, The thickness of the partition is characterized in that at least one point is formed thicker than the other points of the partition Intervertebral Implants. The method of claim 1, Another one of the plurality of mounting holes is formed at a position where a third virtual line (the third virtual line is an imaginary oblique line with respect to the first virtual line) and the surface having a thickness having the outer portion doing Intervertebral Implants.

Images