KR101009937B1 - Intervertebral implant - Google Patents

Abstract

PURPOSE: An inter-vertebral implant is provided, which can secure enough space by inserting fillers capable of improving transplant efficiency and provides fixing force to the front. CONSTITUTION: An inter-vertebral implant comprises: a body(110) which is inserted between adjacent two backbone joints and in which a constant space between backbones are maintained; and an insert(120) which is inserted between two backbone joints which are adjacent to the body and is inserted into an insertion hole of the body. The body includes: an outer portion(111) having constant thickness; and a partition section(113) which is formed thicker than the outer portion.

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 the Republic of Korea Patent Publication No. 10-0900991 (Cage for spinal implant) to make a coupling groove in the body to be inserted between the vertebral bone, the fixing insert is inserted while being rotated into the coupling groove to fix the vertebral body A cage for a spinal implant comprising a sieve is provided to provide a cage for a spinal implant that can be inserted into the spine by allowing the body and the insert to be continuously inserted into the spine.

However, the cage for spinal implants in the patent publication is formed with an open coupling groove for the insert is coupled to the body, and requires a separate additional fixing device for coupling the insert into the open coupling groove of the body In addition, a space for inserting a filler may be provided in the insert so that the insert can be inserted according to the size of the insert so as to increase the efficiency of the implantation when inserted between the vertebral bones. There is a problem that it is difficult to secure enough space because it is restricted.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object thereof is to provide an intervertebral implant capable of providing a fixation force at the front while securing sufficient space for inserting a filler capable of increasing implantation efficiency.

In order to achieve this object, in one aspect of the present invention, the intervertebral implant is inserted between two adjacent vertebral bones and has a certain thickness for maintaining a certain space between the vertebral bones, and a penetration for filling to help bone growth. A ball is formed and an insertion groove is formed in the body; And an insert inserted between two vertebral bone nodes adjacent to the body to be engaged with the vertebra and inserted into an insertion groove of the body. Characterized in that it comprises a.

And the body, a plurality of through-holes are formed, the outer portion is inserted between two adjacent vertebral bone nodes having 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. It includes, The insertion groove is characterized in that provided on one side of the outer portion to be able to insert the insert in the direction extending from the partition.

In this case, the insert, characterized in that formed in the body is thicker than the thickness of the outer portion inserted.

And the insertion groove and the insert of the body are each formed with a thread is characterized in that the insert is inserted into the insertion groove is rotated.

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

First, when the intervertebral implant is greatly protruded from the center by the compartment, it is suitable for the anatomical structure of the human body, thereby increasing the fixation force until bone fusion.

Second, 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 bone to distribute the pressure on the surface and stably fix the effect There is.

Third, it is possible to easily insert into the spine by using the body and the insert in a separated state, it is possible to reduce the operation time.

Fourth, since it has a simple configuration it is possible to easily produce, thereby reducing the production cost.

1 is a perspective view of an intervertebral implant that is an embodiment of the invention.
Figure 2 shows the lateral side of an intervertebral implant that 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.
4 shows anterior view of an intervertebral implant that is an embodiment of the invention.
Figure 5 shows a body in a perspective view in an embodiment of the invention.
6 shows a body in a plan view in an embodiment of the invention.
Figure 7 shows an insert in an embodiment of the invention.
Figure 8 shows the side of the insert in an embodiment of the invention.

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 according to an embodiment of the present invention is a structure for insertion between the vertebral bone, to restore the height of the intervertebral disc is removed, is configured to support the load of the body, Figures 1 to 8 As shown, it comprises a body 110 and the insert 120 and the like.

The body 110 is inserted between two adjacent vertebral bones and has a thickness for maintaining a predetermined space between the vertebral bones, and includes an outer portion 111 and a partition portion 113.

The outer portion 111 is configured to allow the through hole 117 to have a shape similar to that of the intervertebral disc of the human body. In addition, the insertion groove 115 is formed on one side so that the insert 120 can be inserted.

At this time, the insertion groove 115 is configured to be provided on one side of the outer portion 111 to be able to insert the insert 120 in the direction extending from the partition portion 113. And the insertion groove 115 is formed in the form of a screw thread, the insert 120 is also preferably inserted into the insertion groove 115, the outer circumferential surface of the insert 120 is preferably formed of a screw thread, other than the screw thread It may be configured to enable the insertion of the insert 120 through the insertion groove 115.

The partition portion 113 partitions the outer portion 111 to provide a plurality of through holes 117, and is configured to protrude larger than the thickness of the outer portion 111. This is because the protruding partition 113 is in contact with the adjacent vertebral bones and the fixing force is increased, it is possible to make the growth of the bone through both through holes 117 of the partition 113 to be more firmly fixed. .

In addition, the partition portion 113 distributes the load and pressure of the adjacent vertebral bones applied to the outer portion 111, increases the contact surface with the adjacent vertebral bones, making it possible to maintain a more stable state, and penetrating It is also possible to secure the space of the ball 117 is inserted between the vertebral bone to reinforce the strength of the intervertebral implant (100).

In this case, the through hole 117 is configured inside the outer portion 111 and is configured to have two spaces separated by the partition portion 113. In addition, the outer portion 111 may be configured to have an appropriate width within the range of not impairing the strength for enduring the load of the adjacent spine so as to secure the space of the through hole 117 to the maximum.

Here, the through-hole 117 is a space that allows bone growth, and fills a substance such as bone cement or other fillers to help the bone growth to help the bone growth, and to facilitate bone fusion It is possible.

In addition, since the space where the intervertebral discs are formed between adjacent vertebral bones is generally not parallel, the space between the adjacent vertebral bones is implanted by making the anterior (F) of the implant 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 most suitable for the human body.

At this time, the side facing the abdomen of the patient in the state in which the intervertebral implant 100 is inserted in order to help the understanding of the present invention to be referred to the front (F), the side facing the back of the patient (B).

On the other hand, the intervertebral implant 100 is an embodiment of the present invention has a configuration that is easy to implant from the abdomen side, which is one of the surgical approach. Since the approach from the front (F) is a problem such as bleeding, blood vessel damage, it is preferable to configure the intervertebral implant 100 to be able to simplify the surgical process as much as possible.

The insert 120 is configured to be inserted between the body 110 and the two vertebral bone nodes adjacent to the insertion groove 115 provided in the outer portion 111 of the body 110 to be engaged with the spine.

At this time, the insert 120 is preferably formed to be thicker than the thickness of the outer portion 111 in the state inserted into the body 110, through which the front (F) of the intervertebral implant 100 is rearward (B) By making the thickness thicker than that of the implanted state it is possible to have the most suitable configuration for the human body.

In addition, the outer circumferential surface of the insert 120 is formed in the form of a screw thread to be coupled to the insertion groove 115 of the outer portion 111, the mounting portion 121 is formed in the rear end central portion so that the surgical tool can be inserted.

Here, the insert 120 is inserted from the body 110 in between the spine in a state separated from the body 110 to be implanted between the spine and then insert 120 of the body 110 through the surgical tool It is configured to be inserted while being rotated in the insertion groove (115).

Therefore, the outer circumferential surface formed in the form of a thread is exposed while being rotated to the open upper and lower portions of the body 110, the adjacent vertebral bone is shaved to be fixed between the vertebral bone, the cut vertebral bone of the intervertebral implant 100 It is configured to help the fusion with adjacent vertebral bones in the periphery and to assist the intervertebral implant 100 with the adjacent vertebral bones.

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 that is 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, it can be easily used by configuring to generate a predetermined or more frictional force on the surface by a method of forming a wave shape on the surface or forming a plurality of projections covering the surface.

At this time, the upper surface and the lower surface of the intervertebral implant 100 is preferably configured to have a rough surface, the side constituting the thickness of the outer portion 111 is advantageous surface to minimize the trauma with the surrounding tissue in the process of insertion It is preferable to configure to have.

In addition, the intervertebral implant 100 according to the embodiment of the present invention is harmless to the human body is preferably composed of PEEK (polyetheretherketone) material or titanium having a predetermined elasticity, in addition to titanium, shape memory alloy, stainless steel Any material can be easily used as the intervertebral implant 100 of the present invention, such as steel and plastic.

In consideration of the thickness of the anterior (F) and the posterior (B) and various convexities, it is desirable to provide a more suitable body shape of the patient to be implanted, and it is easy through injection molding, hot forming and hot pressing. It is possible to produce.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings. However, since the above-described embodiments have only been described with reference to preferred examples of the present invention, the present invention is limited to the above embodiments. It should not be understood that the scope of the present invention is to be understood by the claims and equivalent concepts described below.

100: Intervertebral Implant
110: body
111: outskirts
113: compartment
115: insertion groove
117 through hole
120: insert
121: mounting hole

Claims (4)

delete It is inserted between two adjacent vertebral bones and has a thickness to maintain a certain space between the vertebral bones, and for fillings to help bone growth. A through hole is formed and an insertion groove is formed in the body; And
An insert inserted between the body and two adjacent vertebral bone nodes so as to engage with the vertebra and inserted into an insertion groove of the body; Including,
The body,
An outer portion having a plurality of through holes formed therebetween and inserted between two adjacent vertebral bone nodes and having 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; Including,
The insertion groove is intervertebral implant, characterized in that provided on one side of the outer portion to be able to insert the insert in the direction extending from the partition. The method of claim 2,
The insert, the intervertebral implant, characterized in that formed in the body is thicker than the thickness of the outer portion. The method of claim 2,
The intervertebral implant, characterized in that the insertion groove and the insert of the body are each formed with a thread is inserted into the insert is rotated in the insertion groove.

Images