CN111588521B - Cervical vertebra side front approach double-cortical fixation uncinate vertebra joint fusion cage - Google Patents

Abstract

The invention relates to a double-cortical fixation hook vertebral joint fusion cage for a front approach at the side of a cervical vertebra, which belongs to the technical field of medical instruments and comprises a fusion cage body part for supporting an intervertebral space, wherein the fusion cage body part is of a long-strip block-shaped structure, bone grafting cavities for filling bone grafting materials are formed in two ends of the fusion cage body part, the two bone grafting cavities respectively correspond to the left part of the intervertebral space and the right part of the intervertebral space, and a fixing structure for sequentially penetrating and fixing cortical bone, cancellous bone and lateral cortical bone of a vertebral endplate is arranged on the wall of one bone grafting cavity. Through the structure, the fusion cage provided by the invention can be suitable for being implanted into an intervertebral space from the front side of the cervical vertebra to the approach, can be fixed through the fixing structure in the front side of the cervical vertebra and is fixed on cortical bone, cancellous bone and lateral cortical bone of vertebral end plates, so that the fusion cage can be stably connected in the intervertebral space to be more beneficial to the growth of bone grafting materials.

Description

Cervical vertebra side front approach double-cortical fixation uncinate vertebra joint fusion cage

Technical Field

The invention belongs to the technical field of medical instruments, and particularly relates to a lateral and anterior approach double-cortical fixation uncinate vertebral joint fusion cage for cervical vertebra.

Background

Anterior cervical decompression fusion has been a classic and effective surgical method for treating degenerative diseases of cervical vertebrae, and during the operation, it is necessary to pull the trachea and esophagus and to cut the fibrous ring and the anterior longitudinal ligament at the corresponding position, so that the operation will destroy the stability of the segments of the vertebrae, and there is a risk of complications such as dysphagia after operation. In order to solve the technical problem, researchers propose a scheme of implanting the fusion cage from the lateral front of the cervical vertebra, when the lateral front approach fusion is carried out, a lateral front micro opening of an intervertebral space is formed, so that the trachea and the esophagus do not need to be pulled, the original fiber ring and the anterior longitudinal ligament in front of a patient can be reserved, and the instability of the operation and the probability of dysphagia of the patient caused by the operation are greatly reduced.

The cervical vertebra side front operation approach has smaller operation visual field, smaller operation channel and smaller space for fixing and implanting operation, and the bone surface for fixing in the side front is also different from the approach in the front. However, the fusion cage in the prior art is designed for anterior cervical decompression fusion, and neither the structural size nor the fixing method thereof is applicable to the anterior cervical lateral approach, and therefore a fusion cage that is applicable to the anterior cervical lateral approach and can be stably installed in the intervertebral space is urgently needed.

Disclosure of Invention

The invention provides a cervical vertebra side front approach double-cortical fixation uncinate vertebral joint fusion cage, which is used for solving the technical problems that the existing fusion cage is not suitable for cervical vertebra side front operation approach and the existing fusion cage is unstable in intervertebral space fixation.

The invention is realized by the following technical scheme: a double-cortical fixation uncinate vertebral joint fusion cage with a lateral and front approach of cervical vertebra comprises a fusion cage body part for supporting intervertebral space, wherein the fusion cage body part is a long-strip block-shaped structure, and two ends or one end of the fusion cage body part are provided with bone grafting cavities for filling bone grafting materials;

when the two ends of the fusion cage body part are provided with bone grafting cavities, the two bone grafting cavities respectively correspond to the left part of the intervertebral space and the right part of the intervertebral space;

the fusion cage body is provided with a fixing structure which is used for sequentially penetrating and fixing cortical bone, cancellous bone and lateral cortical bone of the vertebral end plate.

Further, in order to better implement the present invention, bone grafting cavities are provided at both ends of the fusion cage body, and the fixing structure is provided in one of the bone grafting cavities, the fixing structure includes a first hole, a first fastening member, a second hole and a second fastening member, the first hole is opened at an upper portion of the bone grafting cavity, the first hole faces to the front upper side and inclines to one side of the other bone grafting cavity, the first fastening member is inserted into the first hole and sequentially penetrates and is fixed to the end plate cortical bone, the cancellous bone and the lateral cortical bone of one vertebra above the intervertebral space, the second hole is opened at a lower portion of the bone grafting cavity, the second hole faces to the front lower side and inclines to one side of the other bone grafting cavity, and the second fastening member is inserted into the second hole and sequentially penetrates and is fixed to the end plate cortical bone, the cancellous bone and the lateral cortical bone of one vertebra below the intervertebral space.

Further, in order to better implement the present invention, the first fastening member is a first screw, and the second fastening member is a second screw.

Furthermore, in order to better realize the invention, the included angle between the orthographic projection of the first screw in the coronal plane and the horizontal line is alpha, 10 degrees to 45 degrees, the included angle between the orthographic projection of the first screw in the transverse plane and the connecting line of the left transverse convex hole and the right transverse convex hole in the intervertebral space is beta, and 0 degree to beta is less than or equal to 30 degrees.

Furthermore, in order to better realize the invention, the included angle between the orthographic projection of the first screw in the coronal plane and the horizontal line is 20 degrees, the included angle between the orthographic projection of the first screw in the transverse plane and the connecting line of the left transverse hole and the right transverse hole in the intervertebral space is beta, and the beta is more than or equal to 5 degrees and less than or equal to 10 degrees.

Further, in order to better realize the invention, the included angle between the orthographic projection of the second screw in the coronal plane and the horizontal line is gamma, 15 degrees is larger than or equal to gamma and is smaller than or equal to 45 degrees, the included angle between the orthographic projection of the second screw in the transverse plane and the connecting line of the left transverse convex hole and the right transverse convex hole in the intervertebral space is sigma, and 5 degrees is larger than or equal to sigma and is smaller than or equal to 30 degrees.

Further, in order to better realize the invention, the included angle between the orthographic projection of the second screw in the coronal plane and the horizontal line is 30 degrees, the included angle between the orthographic projection of the second screw in the transverse plane and the connecting line of the left transverse hole and the right transverse hole in the intervertebral space is sigma, and the sigma is more than or equal to 5 degrees and less than or equal to 10 degrees.

Further, in order to better implement the present invention, both the upper end surface and the lower end surface of the fusion cage body are provided with convex anti-slip convex parts.

Furthermore, in order to better implement the invention, the wall of the bone grafting cavity is also provided with a fine hole for the circulation of nutrient substances.

Further, in order to better implement the invention, the fusion device body is a structural member made of medical titanium alloy or polyetheretherketone.

Compared with the prior art, the invention has the following beneficial effects:

the invention provides a cervical vertebra side front approach double-cortical fixation hook vertebra joint fusion cage, which comprises a fusion cage body part, wherein the fusion cage body part can support a vertebral gap, and the fusion cage body part is a long-strip block-shaped structure so as to be implanted into the vertebral gap from the cervical vertebra side front approach, bone grafting cavities for filling bone grafting materials are arranged at two ends of the fusion cage body part, the two bone grafting cavities respectively correspond to the left part of the vertebral gap and the right part of the vertebral gap, thus, the bone grafting materials in the two bone grafting cavities can grow at the left part and the right part of the vertebral gap, a fixing structure is arranged on one bone grafting cavity wall, the fixing structure is sequentially penetrated and fixed on the cortical bone, cancellous bone and lateral cortical bone cortex, when in use, one bone grafting cavity without the fixing structure is firstly inserted into the vertebral gap from the vertebral side front approach, then the whole fusion cage is pushed towards the vertebral gap, and the bone grafting cavity with the fixing structure is also inserted into the vertebral gap, at this time, medical personnel can operate the fixing structure from the lateral front end plate to fix the vertebral end plate, thus, the fusion cage can be suitable for the vertebral bone cortical fixation, and is more favorable for the bone cortical fixation from the vertebral bone grafting material, and the lateral bone cortical bone grafting material is more favorable for the bone.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of a lateral anterior approach double-cortical fixation uncinate-vertebral joint fusion cage for cervical vertebrae in an embodiment of the invention;

FIG. 2 is a front view of the structure shown in FIG. 1;

FIG. 3 is a top view of the structure shown in FIG. 1;

fig. 4 is a bottom view of the structure shown in fig. 1.

In the figure:

1-a fusion cage body;

2-bone grafting cavity;

3-a first screw;

4-a second screw;

5-anti-slip bulge;

6-pores.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Example 1:

the embodiment provides a cervical vertebra side front approach double-cortical fixation uncinate joint fusion cage which is used for implanting bone grafting materials into an intervertebral space of a patient from a cervical vertebra side front approach and supporting the intervertebral space.

This fixed hook vertebra joint fusion ware of two cortices of approach of cervical vertebra side place ahead includes fusion ware somatic part 1, this fusion ware somatic part 1 is rectangular block structure, and this fusion ware somatic part 1's the design of the type of adopting anatomy, so that it is better with the end plate laminating of both sides about the intervertebral space, thereby make this fusion ware somatic part 1 can support between both sides about the intervertebral space better, and the fusion ware somatic part 1 of this kind of shape can be applicable to from the implantation of approach of cervical vertebra side place ahead, thereby in-process at the operation need not tractive trachea and esophagus, and can not lead to the fact the damage to original fibrous membrane of patient and ligament, reduce the patient and wipe the probability that produces the difficulty of swallowing, increase postoperative stage stability, promote early rehabilitation training, in order to help the patient to return the job position as soon as possible. Preferably, the fusion device body 1 is a structural member made of medical titanium alloy or polyetheretherketone. Preferably, the shape of the elongated block structure in this embodiment is a crescent or a rectangle.

All be equipped with the bone grafting chamber 2 that is used for filling the bone grafting at the both ends of this integration ware somatic part 1, when integration ware somatic part 1 cartridge is in the intervertebral space, two bone grafting chambers 2 correspond the left part that is located the intervertebral space and the right part in intervertebral space respectively, it is worth noting, this fixed hook vertebra joint fusion ware of two cortices of going into way of cervical vertebra side the place ahead is implanted from the dead ahead on cervical vertebra right side, thus, then can plant the bone in the left part and the right part in intervertebral space, show through the research, when bone is planted in intervertebral space left part and right part, the bone grafting material can be faster better growth, so adopt the fixed hook vertebra joint fusion ware of two cortices of this cervical vertebra side the place ahead going into way to plant the bone, then can obtain better bone grafting effect, in order to help the patient recovered as early as far as possible.

Be equipped with fixed knot on 2 chamber walls in one of them bone grafting chamber and construct, this fixed knot constructs can be worn to connect in proper order and fix at vertebra end plate cortical bone, cancellous bone and side cortical bone, specifically, this fixed knot constructs the setting on the 2 chamber walls in bone grafting chamber that correspond with the intervertebral space right part, medical personnel can follow cervical vertebra side the place ahead and control fixed knot and construct, so that medical personnel operate, and make this cervical vertebra side the place ahead go into the fixed hook vertebra joint of double cortex and fuse the ware and can be applicable to and fix from vertebra side the place ahead, and fix at vertebra end plate cortical bone, cancellous bone and side cortical bone are last, thereby it is fixed more firm to make it fix, in order to do benefit to the growth of bone grafting material more.

As a more preferable embodiment of the present embodiment, in the present embodiment, convex anti-slip projections 5 are provided on both the upper end surface and the lower end surface of the fusion device body 1, and the anti-slip projections 5 can have an anti-slip effect, so that the fusion device body 1 can be more stably installed in the intervertebral space.

As a best mode of the present embodiment, in the present embodiment, a plurality of pores 6 are formed on the wall of the bone implantation cavity 2, so that the nutrient can smoothly flow into the bone implantation cavity 2, and the bone implantation in the bone implantation cavity 2 can grow better.

During the specific use, at first, the bone grafting cavity 2 that does not set up fixed knot constructs inserts the intervertebral space from vertebra side place ahead approach, insert the main part of integration ware somatic part 1 into intervertebral space afterwards and make integration ware somatic part 1 be located intervertebral space rear portion, and make the bone grafting cavity 2 that is provided with fixed knot constructs also insert the intervertebral space, at this moment, two bone grafting cavities 2 can plant the bone in the left part and the right part in intervertebral space, and after the installation, can also plant the bone again in the front side of the main part of integration ware somatic part 1.

Example 2:

in a preferred embodiment of the present invention, the fixing structure includes a first hole, a first fastening member, a second hole and a second fastening member, the first hole is a straight hole and is opened at the upper part of the bone grafting cavity 2, the first hole is inclined toward the upper front and is inclined toward the other bone grafting cavity 2 side, the first fastening member is inserted into the first hole and is guided by the first hole to be sequentially inserted and fixed at the cortical bone, the cancellous bone and the lateral cortical bone of one vertebra above the intervertebral space, the second hole is a straight hole and is opened at the lower part of the bone grafting cavity 2, the second hole is inclined toward the lower front and is inclined toward the other bone grafting cavity 2 side, the second fastening member is inserted into the second hole and is guided by the second hole to be sequentially inserted and fixed at the cortical bone, the cancellous bone and the lateral cortical bone of one vertebra below the intervertebral space.

Thus, the cage body 1 is fixed to the cortical bone, cancellous bone and lateral cortical bone of the vertebral end plates on the upper and lower sides of the intervertebral space by the fixing structure, so that the cage body 1 can be fixed more firmly.

As a specific implementation manner of this embodiment, the first fastening member in this embodiment is the first screw 3, and the second fastening member is the second screw 4, so that the assembly and disassembly are more convenient, and the locking is firm.

Example 3:

as a best mode for the embodiment 2, the embodiment defines the included angle between the orthographic projection of the first screw 3 in the coronal plane and the horizontal line as alpha, wherein alpha is more than or equal to 10 degrees and less than or equal to 45 degrees, and the included angle between the orthographic projection of the first screw 3 in the transverse plane and the connecting line of the left transverse process hole and the right transverse process hole in the intervertebral space is beta, and beta is more than or equal to 0 and less than or equal to 30 degrees. Like this, then can make first screw 3 on the basis that can be fixed in endplate cortical bone, cancellous bone and side cortical bone of a vertebra above the intervertebral space, this first screw 3 can also perfectly avoid the carotid and can not insert in the marrow that is located the vertebra rear carelessly to guarantee the security when this cervical vertebra side the fixed hook vertebra joint fusion ware of two cortices of going into way in front uses.

More preferably, the angle between the orthographic projection of the first screw 3 in the coronal plane and the horizontal is 20 °, i.e. α =20 °, and 5 ° ≦ β ≦ 10 °.

In the embodiment, the included angle between the orthographic projection of the second screw 4 in the coronal plane and the horizontal line is defined as gamma, gamma is more than or equal to 15 degrees and less than or equal to 45 degrees, the included angle between the orthographic projection of the second screw 4 in the transverse plane and the connecting line of the left transverse hole and the right transverse hole in the intervertebral space is defined as sigma, and sigma is more than or equal to 5 degrees and less than or equal to 30 degrees. Like this, then can make second screw 4 on the basis that can be fixed in endplate cortical bone, cancellous bone and side cortical bone of a vertebra below the intervertebral space, this second screw 4 can also perfectly avoid the carotid and can not insert in the marrow that is located the vertebra rear carelessly to guarantee the security when this cervical vertebra side the fixed hook vertebra joint fusion ware of two cortices of going into way in front uses.

More preferably, the angle between the orthographic projection of the second screw 4 in the coronal plane and the horizontal is 30 °, i.e. γ =30 °, and 5 ° ≦ σ ≦ 10 °.

Example 4:

the double-cortical fixation uncinate vertebral joint fusion cage for cervical vertebra side front approach provided by the embodiment comprises a fusion cage body, wherein a bone implanting cavity is arranged at one end of the fusion cage body, and a fixing structure for fixation is arranged at the other end of the fusion cage body. In use, the cage is inserted into the intervertebral space from a lateral anterior approach, the body of the cage body is then placed into the posterior portion of the intervertebral space and subsequently secured using the fixation structure.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. The utility model provides a fixed hook vertebra joint of two leathers of cervical vertebra side place ahead approach fuses ware which characterized in that: the bone grafting device comprises a fusion device body part for supporting the intervertebral space, wherein the fusion device body part is of a long-strip block-shaped structure, and two ends or one end of the fusion device body part are provided with bone grafting cavities for filling bone grafting materials;

when the two ends of the fusion cage body part are provided with bone grafting cavities, the two bone grafting cavities respectively correspond to the left part of the intervertebral space and the right part of the intervertebral space;

the fusion cage is characterized in that a fixing structure for sequentially penetrating and fixing cortical bone, cancellous bone and lateral cortical bone of the vertebral end plate is arranged on the body part of the fusion cage;

the two ends of the fusion cage body are provided with bone grafting cavities, the fixing structure is arranged on one of the bone grafting cavities, the fixing structure comprises a first hole, a first fastener, a second hole and a second fastener, the first hole is arranged at the upper part of the bone grafting cavity, faces to the front upper part and inclines towards one side of the other bone grafting cavity, the first fastener is inserted into the first hole and sequentially penetrates and is fixed to the bone plate cortical bone, the cancellous bone and the lateral bone cortical bone of one vertebra above the intervertebral space, the second hole is arranged at the lower part of the bone grafting cavity, faces to the front lower part and inclines towards one side of the other bone grafting cavity, and the second fastener is inserted into the second hole and sequentially penetrates and is fixed to the bone plate cortical bone, the cancellous bone and the lateral bone cortical bone of one vertebra below the intervertebral space;

the included angle between the orthographic projection of the first fastener in the coronal plane and the horizontal line is alpha, alpha is more than or equal to 10 degrees and less than or equal to 45 degrees, the included angle between the orthographic projection of the first fastener in the transverse plane and the connecting line of the left transverse convex hole and the right transverse convex hole in the intervertebral space is beta, and beta is more than or equal to 0 degree and less than or equal to 30 degrees;

the included angle between the orthographic projection of the second fastener in the coronal plane and the horizontal line is gamma, gamma is more than or equal to 15 degrees and less than or equal to 45 degrees, the included angle between the orthographic projection of the second fastener in the transverse plane and the connecting line of the left transverse protruding hole and the right transverse protruding hole in the intervertebral space is sigma, and sigma is more than or equal to 5 degrees and less than or equal to 30 degrees.

2. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage of claim 1, wherein: the first fastener is a first screw, and the second fastener is a second screw.

3. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage of claim 2, wherein: the included angle between the orthographic projection of the first screw in the coronal plane and the horizontal line is 20 degrees, the included angle between the orthographic projection of the first screw in the transverse plane and the connecting line of the left transverse protruding hole and the right transverse protruding hole in the intervertebral space is beta, and the beta is more than or equal to 5 degrees and less than or equal to 10 degrees.

4. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage of claim 2, wherein: the included angle between the orthographic projection of the second screw in the coronal plane and the horizontal line is 30 degrees, the included angle between the orthographic projection of the second screw in the transverse plane and the connecting line of the left transverse protruding hole and the right transverse protruding hole in the intervertebral space is sigma, and the sigma is more than or equal to 5 degrees and less than or equal to 10 degrees.

5. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage for cervical vertebra according to claim 1, characterized in that: the upper end surface and the lower end surface of the fusion device body are both provided with convex anti-skid convex parts.

6. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage of claim 1, wherein: the wall of the bone grafting cavity is also provided with a pore for the circulation of nutrient substances.

7. The lateral anterior approach double-cortical fixation uncinate vertebral joint cage of claim 1, wherein: the fusion cage body is a structural member made of medical titanium alloy or polyether-ether-ketone.

Images