KR101496580B1 - Reconstructing device for surgery of cervical disc - Google Patents

Abstract

Disclosed is a spine implant for a surgery on an anterior cervical spine. The spine implant includes: a main body that includes a lilac insertion part in the shape of a cylinder on the center, and a plurality of bone fusion holes formed on a side wall; and a fixation part which is integrally formed on one side of the main body and fixates the main body on a cervical bone. The main body and the fixation part are integrated with each other using the same material. Therefore, the spine implant is optimized as an implant and can make the surgery easy.

Description

RECONSTRUCTING DEVICE FOR SURGERY OF CERVICAL DISC < RTI ID = 0.0 >

The present invention relates to an implant for an anterior cervical operation, and more particularly, to an autogenous iliac crest which is used as a vertebral body substitute during an operation of an anterior cervical vertebra, a prosthesis to replace a mesh cage and a plate, The present invention relates to an implant for an anterior cervical operation having similar elasticity to tissue.

In general, degenerative cervical stenosis or posterior cervical stenosis of the cervical vertebrae, ie, the neck bone, causes compression of the spinal nerves and spinal cord, resulting in pain, weakness and malfunction of the upper and lower parts. In this case, the vertebral body is removed and the nerve compression is decompressed and reconstructed. During the operation of these patients, reconstruction of the vertebral body was conventionally performed by placing the iliac crest of the patient's own pelvic bone and fixing it with a plate. However, complications such as pain, infection, and fracture of the site where the iliac crest was removed were relatively frequent, resulting in the use of a rectangular parallelepiped or cylindrical cage. In these implants, the bone fragments generated during the removal of the vertebral body are filled to promote bone union. It is also necessary to fix the implants to the plate so that they do not detach from the implantation site until they are united and stabilized.

Therefore, a mesh cage having a hollow cylindrical net shape is often used as a prosthesis to support an area where an anterior cervical vertebra is removed. The material is made of titanium. Titanium is non-toxic and has excellent biostability and biocompatibility. These titanium implants are superior in strength to other metallic implants, and their specific gravity is only 60% of that of iron, and they are used mainly for artificial bone, artificial joint, artificial root, and bone fixation device.

However, the strength of the titanium implant is much stronger than the strength of the bone and has a disadvantage that the elasticity is lowered. When the degree of elasticity is reduced, a phenomenon called subsidence occurs in which the titanium implant pierces the upper and lower cervical vertebrae as the pressure is repeatedly applied to the upper and lower cervical vertebrae at the site where flexion and extension movements occur repeatedly, such as the cervical vertebra. If this progresses, the implants do not play a supporting role, and nonunion, flexion deformity, pain and sometimes nerve compression can occur again. In this case, the original purpose of the surgery is not reached and it causes pain to the patient. Therefore, considering the frequent flexion-extension movement of the cervical vertebrae, the cervical vertebrae have an elasticity similar to that of the bone tissue, so that an implant capable of a cushioning action is necessary.

In addition, since the metal cage is radiopaque, it can not directly confirm the progress of bone union on a simple radiograph, and it is difficult to grasp the state of the contact surface between the inside of the cage and the vertebral body due to the scattering effect of metal even in the CT. Therefore, evaluation of bony union in metal cages is possible only indirectly through the occurrence of Halo around the cage, formation of the joint and posterior deformation. Because of these problems, research on new implants with elasticity similar to bone tissue and radiopacity has been continuing. Currently, the prosthesis inserted after resection of the cervical disc is replaced by PEEK, a synthetic material with a similar elasticity to that of the bone tissue. Titanium is used as a substitute for the cervical vertebrae.

In the case of operation using the mesh cage or iliac crest, in order to prevent the mesh cage or iliac crest from ossifying to the upper and lower cervical vertebrae through the ossification process, And fixed to the upper and lower cervical vertebrae using screws. This plate should be made separately from the mesh cage, exposing a wider range of operation, and require more work and time. In the fixation using plate and screw, the fixing part of the screw becomes the middle part of the upper and lower cervical vertebrae, and the angle is likely to be fixed at a relatively close horizontal angle. However, the middle part of the cervical spine has low bone density and a large distribution of blood vessels.

FIG. 1 is an X-ray photograph of a state in which a bone cage is filled with a bone cage of the prior art and is installed on a vertebral body resection site and a plate is reinforced on the front side. FIG. 2 is a photograph of the state where a titanium mesh cage And the anterior cervical vertebra was surgically operated, but the plate was not used, and a part of the mesh cage was cut out so as to be protruded, and screws were fixed directly to the holes.

1. Korean Patent No. 10-0391340 2. Korean Patent Publication No. 10-2002-0082009

SUMMARY OF THE INVENTION It is an object of the present invention to provide a vertebral body implant for anterior cervical vertebra having elasticity similar to that of a bone tissue in consideration of frequent bending and extension movements of the cervical vertebrae.

It is another object of the present invention to provide a vertebral body implant for anterior cervical vertebra, which can directly confirm the progress of bony union by using a material having radiopaque properties to manufacture an integral body.

It is still another object of the present invention to provide a cervical vertebra of the present invention, which can be used to directly fix the upper and lower cervical vertebrae by inserting screws into the prosthesis directly without using a plate for further fixing the cervical vertebral implant, To provide a surgical vertebral implant.

In order to achieve the above object, a vertebral implant for anterior cervical vertebra according to the present invention is a vertebral implant for an anterior cervical vertebra,

A main body having a cylindrical iliac bone insertion portion at a central portion and a plurality of bone fusion holes at a side wall portion; And a fixing part integrally formed on one side surface of the main body and fixing the main body to the cervical vertebra,

The main body and the fixing part are integrally formed using the same material, and the fixing part includes a tilted flange protruding upward and downward.

Wherein a first serrated contact portion is formed on an upper side of the main body and a second serrated contact portion is formed on a lower side of the main body and a sawtooth structure of the first serrated contact portion and the second serrated contact portion is perpendicular to the inclined surface Wherein the inclined surface is formed in a direction entering between the cervical vertebrae and the vertical surface is formed in a direction exiting from the cervical vertebra.

The inclined flanges provided at the upper and lower portions are respectively provided with screw fixing holes for guiding the fixing screws inserted into the densely corners of the upper and lower vertebrae and inclinedly inserted.

In accordance with the present invention, the anterior cervical vertebrae are made of a PEEK material having similar elasticity to bone, and by integrating the necessary parts for the implant, it is possible not only to optimize the implant but also to facilitate the operation .

Further, according to the present invention, it is possible to directly confirm the progress of the union by producing the radiator with a radiation-permeable material.

1 is an X-ray photograph of an anterior cervical vertebra using a conventional mesh cage.
2 is a photograph showing an operation of an anterior cervical vertebra using a conventional mesh cage.
3 is a perspective view showing a vertebral body implant for an anterior cervical operation according to the present invention.
Fig. 4 is an enlarged perspective view of the upper contact portion of Fig. 3; Fig.
5 is a cross-sectional view of a vertebral body implant for an anterior cervical operation according to the present invention.
6A is a partially cut exploded perspective view of a vertebral body implant for an anterior cervical operation according to the present invention.
6B is a partial cutaway perspective view of a vertebral body implant for an anterior cervical operation according to the present invention.
FIG. 7 is a use state view of a vertebral body implant for an anterior cervical operation according to the present invention.
8 is a view showing another example of a vertebral body implant for an anterior cervical operation according to the present invention.

Hereinafter, a vertebral implant for anterior cervical operation according to the present invention will be described in detail with reference to the accompanying drawings. In the following description, the portion facing the face of the patient is called the upper portion, and the portion facing the lower body of the patient is called the lower portion.

The vertebral body implant for anterior cervical operation according to the present invention can be made of polyetheretherketone (hereinafter referred to as "PEEK"). PEEK is a radiation-permeable, directional polymer that is a useful material to replace autoligenesis. PEEK is a thermoplastic resin with excellent heat resistance. The continuous use temperature is about 240 ° C. If it is reinforced with glass fiber or the like, it can not reach the polyimide resin in terms of heat resistance. However, unlike polyimide, It can be easily molded and processed like a resin.

FIG. 3 is a perspective view illustrating a vertebral body implant for anterior cervical operation according to the present invention, and FIG. 4 is an enlarged perspective view of the upper contact portion of FIG.

3 and 4, a vertebral body implant 1 for anterior cervical operation according to the present invention comprises a main body 10, a fixing part 11 integrally formed on one side of the main body 10, . The body 10 and the fixing part 11 are integrally formed using the same material, and the material is preferably PEEK.

The main body 10 has a rectangular tubular shape, and has a cylindrical iliac bone insertion portion 15 at its central portion. The iliac bone insertion portion 15 can be filled with bone fragments or various fusion materials of the patient removed during the operation.

A plurality of bone fusion holes (17) are formed on the side wall of the body (10). The bone fusion hole 17 serves as a passage through which the bone fragments of the patient filled in the iliac bone insertion section 15 can be fused with muscle tissue or cervical bones of the patient in the vicinity thereof.

At this time, the size and the number of the bone fusion holes 17 may be limited to maintain the overall strength of the implant.

A first serrated contact portion 12 is formed on an upper side of the main body 10 and a second serrated contact portion 13 is formed on a lower side of the main body 10.

The sawtooth structure of the first and second serrated contact portions 12 and 13 is composed of an inclined surface 14b and a vertical surface 14a. The inclined surface 14b is formed in a direction entering between the cervical vertebrae, Is formed in a direction coming out from the cervical vertebra. Therefore, when the implant 1 according to the present invention is inserted into a damaged portion of the cervical vertebrae, insertion is easy but not easy, so that the implant can not escape from the damaged portion of the cervical vertebra after the surgery is finally completed You can. That is, the serrated contact portions formed at the upper and lower portions of the body 10 have a directionality, thereby preventing the implant of the present invention from moving toward the airway.

The fixing part 11 is vertically formed on one side of the main body 10 and includes an inclined flange 21 protruding upward and downward. The inclined flange 21 is formed to extend beyond the upper and lower portions of the main body 10 and preferably maintains an angle of 45 to 50 degrees with respect to the upper and lower surfaces.

In addition, screw fixing holes 19 are formed in the inclined flanges 21 provided at the upper and lower portions. Therefore, when the fixing screw is fastened through the screw fixing hole 19, it can be fastened while maintaining the angle of 45 to 50 degrees. That is, the screw fixing hole 19 can be guided so that the fixing screw is inserted into the densely corners of the upper and lower vertebrae and inclinedly inserted.

In addition, the upper and lower inclined flanges 21 are caught by the original bone of the patient existing above and below when the main body 10 is inserted into the cervical vertebra-damaged region, So that it does not damage the neck nerve.

In the center of the fixing part, a tool insertion hole 23 and a position fixing groove 25 are formed. The insertion tool 23 inserts and inserts an insertion tool (not shown) used for inserting the implant of the present invention .

FIG. 5 is a cross-sectional view of a vertebral body implant for anterior cervical operation according to the present invention, FIG. 6a is a partial cutaway exploded perspective view of a vertebral body implant for anterior cervical operation according to the present invention, Fig.

As shown in Figs. 5 to 6B, the implant 1 according to the present invention is fixed to the intact cervical vertebra of a patient using a fixation screw 30. At this time, the fixing screw 30 is inserted at the cervical vertebrae while maintaining a constant angle, so that strong fastening can be achieved.

Particularly, since the cervical bone is the strongest part of the cervical bone, the angle of the inclined flange 21 is preferably maintained such that the screw fixing hole 19 faces the rim of the bone.

A bone fragment or a fusion material 35 may be filled in the iliac bone insertion portion 15 of the main body 10. The bone fragment or the fusion material 35 may be formed of a plurality Through the bone fusion hole 17 of the patient's muscle tissue or cervical bones around him.

FIG. 7 is a use state view of a vertebral body implant for an anterior cervical operation according to the present invention.

As shown in FIG. 7, the implant 1 of the present invention is inserted into a damaged portion of the cervical vertebra. At this time, the upper and lower inclined flanges 21 are caught by the upper cervical vertebrae 41 and the lower cervical vertebrae 43, respectively, thereby preventing the implant 1 from further moving backward. At the same time, the fixing screw can be fixed to the upper cervical vertebrae 41 and the lower cervical vertebra 43 while maintaining the angle through the screw fixing holes 19 formed in the upper and lower inclined flanges 21.

At this time, the implant 1 can not easily move toward the anterior airway by the directional teeth of the first toothed contact portion 12 and the second toothed contact portion 13 formed on the upper surface and the lower surface.

8 is a view showing another example of a vertebral body implant for an anterior cervical operation according to the present invention.

As shown in FIG. 8, the vertebral body implant 1a for anterior cervical operation according to the present invention can form a longer vertical length of the main body, if necessary. If the length of the main body is increased, the bone fusion holes 17a may be larger in size or larger in number.

All components other than those described above are the same as or similar to those described above, and the detailed description thereof will not be further described.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. .

1: implant 10: body
11: fixing part 12: first serration contact part
13: second serrated contact portion 15: iliac bone insertion portion
17: bone fusion hole 19: screw fixing hole
21: inclined flange 23: tool insertion hole
25: Position fixing groove 30: Fixing screw

Claims (4)

In anterior cervical vertebrae implant,
A main body having a cylindrical iliac bone insertion portion at a central portion and a plurality of bone fusion holes at a side wall portion; And
And a fixing part integrally formed on one side of the main body and fixing the main body to the cervical vertebra,
The main body and the fixing portion are integrally formed using the same material,
Wherein the fixing portion has an inclined flange protruding upward and downward,
Anterior cervical vertebral body implants are made of polyetheretherketone (PEEK) material,
A first serrated contact portion is formed on an upper side of the main body, a second serrated contact portion is formed on a lower side of the main body,
The tooth structure of the first toothed contact portion and the second toothed contact portion is composed of an inclined surface and a vertical surface, the inclined surface being formed in a direction entering between the cervical vertebrae and the vertical surface being formed in a direction coming out from the cervical vertebra,
The inclined flanges provided on the upper and lower portions are respectively provided with screw fixing holes for guiding the fixing screws inserted into the densely corners of the upper and lower vertebrae and inclinedly inserted,
And a tool insertion hole and a position fixing groove are formed at the center of the fixing portion. delete delete delete

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