KR100704150B1 - Spinal Pedicle Screw - Google Patents

Abstract

The present invention discloses a multi-axial spinal fixation screw for orthodontics, which is coupled to a spinal rod and inserted into a pedicle. According to the present invention, a rod receiving channel for receiving the spinal rod is provided upwardly open, an engagement screw bone for fixing the spinal rod is formed on an inner surface of the rod receiving channel, and a coupling groove having a predetermined size in a lower portion thereof. A head portion formed to penetrate; A spherical joint integrally formed at an upper portion thereof and inserted through the coupling groove and inserted into and fixed to the pedicle through a screw thread formed at an outer surface thereof; And a fastening screw having an engaging thread corresponding to the engaging screw bone formed on an outer surface thereof, the fastening screw being coupled to the head part through the rod receiving channel to fix the spinal rod. And a final coupling screw screwed into the coupling groove to prevent separation of the spherical joint.

According to the present invention, a head portion having a tapered engagement screw bone is provided, thereby obtaining a strong bonding force between the head portion and the screw rod, and preventing the fastening screw coupled to the head portion from being released even by a strong external force applied to the treatment portion. .

Description

Spinal Pedicle Screw

1 is a view showing the external shape of the spinal fixation screw according to an embodiment of the present invention.

2 is a cross-sectional view of the spinal rod coupled to the spinal fixation screw of Figure 1 fixed.

3 is an exploded view of the spinal fixation screw and spinal rod of FIG.

Figure 4 is a perspective view showing the external shape of the head of the spinal fixation screw according to an embodiment of the present invention.

5 is a sectional view taken along the line A-A ', showing a sectional structure of the engagement screw bone of the head of FIG.

6 is another perspective view showing a coupling groove of the head of FIG. 4.

Figure 7 is a view showing the outer shape and cross-sectional structure of the screw rod of the spinal fixation screw according to an embodiment of the present invention.

Figure 8 is a perspective view showing the external appearance of the tightening screw of the spinal fixation screw according to an embodiment of the present invention.

9 is a sectional view taken along the line A-A ', showing a cross-sectional structure of engagement threads of the tightening screw of FIG.

10 is a view showing the appearance of the spinal fixation screw according to another embodiment of the present invention.

11 is a cross-sectional structure of the spinal rod coupled to the spinal fixation screw of FIG.

12 is an exploded view of the spinal fixation screw and spinal rod of FIG.

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

100, 200: spinal screw R: spinal rod (Rod)

110, 210: head 111, 211: load receiving channel (Channel)

112, 212: engagement screw bone 113: coupling groove

120, 220: screw rod 121: spherical joint

130, 230: tightening screw 131, 231: engaging thread

140: plate 150: final coupling screw

The present invention relates to a spinal fixation screw, and more particularly, having a head portion having a tapered engaging screw bone, to obtain a strong coupling force between the head portion and the screw rod, and a tightening screw coupled to the head portion is applied to the treatment portion. It relates to a chiropractic screw that does not loosen even in strong external forces.

The spine is a highly complex system of bone connective tissue that provides support to the body and protects the delicate spinal cord and nerve roots. The vertebrae comprise a series of vertebrae that are stacked one on top of the other, and the pedicle of each vertebra includes an interior of relatively weak spongy bones and an exterior of a relatively strong cortical bone.

In the treatment of diseases related to the spine, an indirect treatment method through physical therapy and a direct treatment method for correcting and fixing the spine are performed by attaching a separate fixing device to the damaged pedicle. If the spinal disease is mild physical therapy, but if the disease is severe in the cervical spine, thoracic spine, lumbar spine, sacrum and intervertebral disc constituting the spine will be treated with a separate spinal fixation device.

Spinal fixation techniques using a separate spinal fixation device as a direct treatment method secure the spine using an orthopedic rod that extends approximately parallel to the spine and is commonly referred to as a spine rod. This technique can be accomplished by exposing the spine to the back and inserting the spinal fixation screw into the pedicle of the appropriate vertebrae.

The above-mentioned spinal fixation screw is generally installed two per spine, and serves as a fixation point for the spinal rod. Thus, by the alignment of the spinal rods the spine is fixed in a more advantageous shape. The spinal fixation screw includes a screw rod inserted into and fixed to the pedicle, and a head portion integrally coupled to the screw rod, and is classified into two types according to the coupling method of the screw rod and the head portion.

One is the one-piece head and the screw rod is integrally referred to as a "single uniaxial spinal fixation screw", the other is the "multiaxial spinal fixation screw is made so that the head can be rotated as needed during the procedure "Multiaxial Spinal Screw" is generally inserted into the spherical joint to prevent the screw rod formed in the upper part from being detached from the lower end of the head and by pressing the spinal rod through the externally coupled screw member. It is configured to achieve various types of shafts.

However, in the case of the conventional spinal fixation screw, the externally coupled screw member may be loosened due to the action of external force, and thus may not have sufficient coupling force and resistance required to fix the spine. There is a problem of difficulty.

In addition, recent spinal fixation devices require miniaturization, and in order to meet these demands, the diameter of the head portion is increased by screwing the screw member that joins the spinal rod and the head portion in the head portion and screwing the inner portion of the head portion. It is preventing. However, this also can not completely prevent the action of the external force is a long time after the procedure or there is a problem that the failure of the spinal fixation due to the release of the screw member coupled to the inside by the movement of the body.

Therefore, the present invention has been made to solve the above problems of the prior art, the object of the present invention is to provide a strong coupling force between the head and the screw rod having a head portion formed with a tapered engaging screw bone, It is to provide a spinal fixation screw that does not loosen the fastening screw to the coupling to the strong external force applied to the procedure.

In addition, another object of the present invention is a spinal fixation that can obtain a strong frictional coupling force between the head portion and the screw rod through the coupling of the spherical joint formed in the upper surface is flat cut and the outer peripheral surface irregularities and the receiving plate formed along the curvature To provide the screws.

In the spinal fixation screw according to an embodiment of the present invention for achieving the above object, in the spinal correction screw is fixed to the pedicle coupled to the spinal rod,

The rod receiving channel for accommodating the spinal rod is provided upwardly open, an engaging screw bone for fixing the spinal rod is formed on an inner surface of the rod receiving channel, and a head having a coupling groove of a predetermined size penetrated therein. part;

A spherical joint integrally formed at an upper portion thereof and inserted through the coupling groove and inserted into and fixed to the pedicle through a screw thread formed at an outer surface thereof;

A fastening screw having an engaging thread corresponding to the engaging screw bone formed on an outer surface thereof, the fastening screw being coupled to the head portion through the rod receiving channel to fix the spinal rod; And

And a final coupling screw screwed into the coupling groove to prevent separation of the spherical joint.

The spinal fixation screw of the present invention is inserted and fixed between the coupling groove of the head portion and the spherical joint, and further comprises a retaining plate for limiting the movement of the spherical joint when pressing the spinal rod.

The engagement screw bone is tapered, it is preferable that the intaglio surface is formed to be reduced toward the center of the head portion.

It is preferable that an engaging upper portion of the coupling groove is formed at the inner upper end of the coupling groove to cut off the insertion plate.

It is preferable that the receiving groove is formed on the lower surface of the retaining plate along the curvature of the spherical joint. ,

The upper surface of the spherical joint is preferably flat incision.

It is preferable that a wrench groove having a predetermined shape is formed at the center of the upper surface of the spherical joint.

The outer surface of the spherical joint is preferably formed with irregularities along the outer circumferential surface.

The thickness of the thread formed on the outer surface of the screw rod is preferably at the maximum in the spherical joint direction.

It is preferable that a wrench groove having a predetermined shape is formed at the center of the upper surface of the tightening screw.

Preferably, the final coupling screw has a through groove accommodating the spherical joint at the center thereof, and a lower portion of the inner circumferential surface of the through groove is formed along the curvature of the spherical joint.

On the other hand, spinal fixation screw according to another embodiment of the present invention for achieving the above object, in the spinal fixation screw for spinal correction is coupled to the spinal rod and fixed to the pedicle,

A head portion provided with a rod receiving channel for receiving the spinal rod upwardly and having an engaging screw bone for fixing the spinal rod on an inner surface of the rod receiving channel;

A screw rod which is integrally extended to the lower end of the head and inserted into the pedicle through a screw thread formed on an outer surface thereof; And

A fastening screw having an engaging thread corresponding to the engaging screw bone formed on an outer surface thereof, the fastening screw being coupled to the head portion through the rod receiving channel to fix the spinal rod; It is configured to include.

The engagement screw bone is tapered, it is preferable that the intaglio surface is formed to be reduced toward the center of the head portion.

Preferably, the thickness of the thread formed on the outer surface of the screw rod reaches a maximum in the head direction.

It is preferable that a wrench groove having a predetermined shape is formed at the center of the upper surface of the tightening screw.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing the outer shape of the spinal fixation screw according to an embodiment of the present invention, Figure 2 is a view showing a cross-sectional structure in which the spinal rod is fixed to the spinal fixation screw of Figure 1, Figure 3 is Exploded view of spinal fixation screw and spinal rod.

1 to 3, the spinal screw 100 according to an embodiment of the present invention includes a head part 110 and a spherical joint 121 that are coupled to and fixed to the spinal rod R. Screw rod 120 coupled from the lower portion of the head portion 110, a tightening screw 130 is coupled to the upper portion of the head portion 110 to press the spine rod (R), and the head portion 110 The coupling groove 113 and the spherical joint 121 is inserted between the fixed plate 140 and comprises a final coupling screw 150 is screwed to the coupling groove 113 is configured.

As shown in FIG. 3, the head part 110 is provided with a rod receiving channel 111 open to receive the spinal rod R upwardly, and is engaged with an inner surface of the rod receiving channel 111. Screw bone 112 is formed, the coupling groove 113 is formed through the bottom.

Figure 4 is a perspective view showing the outer shape of the head portion of the spinal fixation screw according to an embodiment of the present invention, Figure 5 is a cross-sectional view in the A-A 'direction showing a cross-sectional structure of the engaging screw bone of the head of Figure 4, Figure 6 The other side perspective view which shows the coupling groove of the head of FIG.

4 to 6, the head portion 110 is formed as a cup shape with the curvature of the lower part as a whole, and is formed through the 'U'-shaped rod receiving channel 111 opened upwardly at the side thereof, and downwards. The coupling groove 113 of a predetermined size is formed through.

The rod receiving channel 111 is the same as the diameter of the spinal rod (R) coupled to the inner space of the channel is formed to be limited to the left and right movements when combined with the spinal rod (R), tapered shape on the inner surface (extracted in Figure 5 A specially formed interlocking screw bone 132 is formed along the internal curvature.

At this time, the central axis of the taper is perpendicular to the central axis of the head portion 110, the intaglio surface forms a shape that decreases toward the center of the head portion (110). This is to minimize the effect of the external force in the vertical direction when the screw is tightened with the tightening screw 130 having the engaging thread 131 to be described later and to maximize the coupling force.

The coupling groove 113 penetrates into a larger diameter than the rod receiving channel 111, and the engaging portion 113a for preventing the insertion of the holder plate 140 in the boundary portion thereof is preferably a pair of wings. Incision is formed. On the other hand, a screw bone of a predetermined depth is formed on the outer surface thereof to be screwed with the final coupling screw 150.

Figure 7 is a view showing the outer shape and cross-sectional structure of the screw rod of the spinal fixation screw according to an embodiment of the present invention.

Referring to FIG. 7, the screw rod 120 has a spherical joint 121 integrally formed at an upper portion thereof, and a thread 122 is formed at a lower outer surface thereof to a pedicle through a separate tightening mechanism (not shown). Insert is fixed.

At this time, the spherical joint 121 has a top surface is cut flat, the outer surface is formed with irregularities along the outer peripheral surface to perform a function of maximizing the friction force when the pressure plate and the coupling plate (140).

In addition, a hexagonal or octagonal wrench groove 123 is preferably formed at the center of the upper surface of the spherical joint 121 to be inserted and fixed to the pedicle by a separate insertion mechanism (not shown) such as a wrench.

On the other hand, the lower body of the threaded rod (122) is formed 120 is gradually reduced in the extending direction, more specifically, the lower end is formed in a conical shape for easy insertion, the upper end of the body The maximum diameter of the thread 122 is gradually formed in the direction of the spherical joint 121 to achieve a maximum at its distal end, thereby maximizing the final fixing force when the screw rod 120 is inserted into the pedicle. Done.

8 is a perspective view showing the external appearance of the tightening screw of the spinal fixation screw according to an embodiment of the present invention, Figure 9 is a cross-sectional view A-A 'direction showing a cross-sectional structure of the engagement screw thread of the tightening screw of FIG.

8 and 9, the fastening screw 130 is formed on the outer surface in a tapered shape in which the engagement thread 131 corresponding to the engagement screw bone 112 is reduced toward the center of the head part 110. Preferably, a hexagonal or octagonal wrench groove 132 is formed at a center thereof, and is coupled to the head portion 110 through the rod receiving channel 111 by a tightening mechanism (not shown) such as a wrench to the spine. It performs the function of fixing the rod (R).

2 and 3, the holder plate 140 is inserted and fixed between the coupling groove 113 of the head part 110 and the spherical joint 121, and the spherical joint 121 is lowered. Receiving groove 141 is formed along the curvature of the spherical rod (R) to perform the function of limiting the movement of the spherical joint 121 when fixed.

Through grooves 151 for receiving the spherical joints 121 are formed in the center of the final coupling screw 150, the lower inner peripheral surface of the through grooves 151 is formed along the curvature of the spherical joints 121 The separation of the spherical joint 121 is prevented, and a screw thread corresponding to the screw bone of the coupling groove 113 is formed on the outer surface to be in close contact with the coupling groove 113 to be screwed.

At this time, with reference to Figures 2 and 3 will be described in more detail the combination of the above-described components and the fixing method of the spinal rod through it as follows.

As shown in FIG. 2, the retaining plate 140 is inserted into the coupling groove 113 formed at the lower portion of the head part 110 to be fixed by the action of the locking portion 113a, and the spherical joint 121 is formed. ) Is inserted into and tightly coupled to the receiving groove 141 of the holder plate 140, and the final coupling screw 150 is screwed into the coupling groove 113 through the screw rod 120 to allow the spherical joint ( 121) to prevent the departure.

Fastened spinal fixing screw 100 is fixed to the pedicle through a wrench groove 123 formed on the upper surface of the spherical joint 121 by a separate insertion mechanism (not shown), the rod receiving channel 111 The spinal rod R is inserted into the inside thereof, and the tightening screw 130 is fastened to an upper portion thereof to be pressurized and fixed by a separate tightening mechanism (not shown).

The spinal rod R pressed by the tightening screw 130 is pressed against the lower plate 140 and the spherical joint 121 which are in contact with the lower portion, thereby maximizing its sealing / friction coupling to increase the movement of the screw rod 120. Will be limited.

The spinal fixation screw 100 and the spinal rod R of the present invention finally coupled as described above have a coupling shape as shown in FIG. 2, and the engagement screw bone 112 of the head portion 110 and corresponding tightening thereof are tightened. The engagement of the screw 130 prevents loosening from the external force applied to the treatment site by the specially shaped data of the thread 131, and seals the spherical joint 121 and the retaining plate 140 having an uneven outer surface. By maximizing the frictional resistance by the coupling prevents the movement of the shaft by the sliding.

10 is a view showing the outer shape of the spinal fixation screw according to another embodiment of the present invention, Figure 11 is a view showing a cross-sectional structure in which the spinal rod is fixed to the spinal fixation screw of Figure 10, Figure 12 is of FIG. Exploded view of spinal fixation screw and spinal rod.

10 to 12, the spinal fixation screw 200 according to another embodiment of the present invention includes a head portion 210 coupled to and fixed to the spinal rod R, and a lower end of the head portion 210. The screw rod 220 is formed to extend, and is coupled to the upper portion of the head portion 210 is configured to include a tightening screw 230 for pressing the spinal rod (R).

The head portion 210 is formed in a cup shape with the curvature of the lower part as a whole, and is formed through the side of the rod receiving channel 211 of the 'U' shape open upward.

The rod receiving channel 211 is the same as the diameter of the spinal rod (R) coupled to the inner space of the channel is formed so as to restrict the left and right movements when combined with the spinal rod (R), the inner surface is specially formed in a tapered shape Screw bone 212 is formed along the inner curvature.

At this time, the central axis of the taper is perpendicular to the central axis of the head portion 210, the intaglio surface is formed to decrease toward the center of the head portion 210. This is to minimize the action of the external force in the vertical direction when the screw is tightened with the tightening screw 230 having the engaging thread 231 to be described later and to maximize the coupling force.

The screw rod 220 is formed to extend from the lower end of the head portion 210, the screw thread 222 is formed on the outer surface is fixed to the pedicle through a separate tightening mechanism (not shown).

At this time, the body of the screw rod 220 is formed with a thread 222 is gradually reduced in the extending direction, more specifically, the lower end is formed in a conical shape for easy insertion, the upper end is the diameter of the body To achieve this maximum, the thickness of the thread 222 is gradually thickened toward the head portion 210 to achieve a maximum at the distal end portion so as to maximize the final fixing force when the screw rod 220 is inserted into the pedicle. do.

The tightening screw 230 has a tapered shape in which the engagement thread 231 corresponding to the engagement screw bone 212 is reduced toward the center of the head portion 210 in the same manner as the shape of the engagement screw bone 212 described above. And a wrench groove 232 having a hexagonal or octagonal shape is preferably formed at a center thereof, and is coupled to the head portion 210 through the rod receiving channel 211 by a tightening mechanism (not shown) such as a wrench. To perform the function of fixing the spinal rod (R).

Spinal fixing screw 200 according to another embodiment of the present invention of the above configuration, through the wrench groove 232 formed in the tightening screw 230 by a separate insertion / tightening mechanism (not shown) to the pedicle Insertion and fixation, the spinal rod (R) is inserted into the rod receiving channel 211 is to be pressure-coupled.

As such, the final coupled spinal fixation screw 200 and the spinal rod R have a coupling shape as shown in FIG. 11, and the engaging screw bone 212 of the head portion 210 and the corresponding tightening screw 230 are provided. By the specially shaped data shape of the engagement thread 231 of the ()) it has a strong resistance against external force applied to the treatment site and prevents loosening.

On the other hand, the present invention has been described with reference to the embodiment shown in the drawings, but this is only exemplary, those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

As described above, according to the spinal fixation screw according to the present invention, the head portion having a tapered engaging screw bone is formed, and a strong coupling force is obtained between the head portion and the screw rod, and the tightening screw coupled to the head portion is provided in the procedure portion. It is effective to prevent loosening even the strong external force applied.

In addition, according to the present invention, through the coupling of the spherical joint of the upper surface is flat cut and the outer circumferential surface is formed irregularly and the receiving plate formed along the curvature, the strong frictional coupling force between the head and the screw rod can be obtained have.

Therefore, according to the present invention, it is possible to withstand the greater external force given to the treatment part of the patient after the spinal fixation procedure, thereby minimizing the side effects of the procedure and helping to recover the patient.

Claims (15)

In the orthodontic spinal fixation screw is coupled to the spinal rod and inserted into the pedicle, A rod receiving channel for accommodating the spinal rod is provided upwardly, and an engagement screw bone for fixing the spinal rod is tapered on an inner surface of the rod receiving channel, and an intaglio surface is reduced toward the center of the head portion. A head portion formed to pass through a coupling groove having a predetermined size in a lower portion thereof; A spherical joint integrally formed at an upper portion thereof and inserted through the coupling groove and inserted into and fixed to the pedicle through a screw thread formed at an outer surface thereof; A fastening screw having an engaging thread corresponding to the engaging screw bone formed on an outer surface thereof, the fastening screw being coupled to the head portion through the rod receiving channel to fix the spinal rod; A final coupling screw screwed into the coupling groove to prevent separation of the spherical joint; And Spinal fixation screw is inserted between the coupling groove and the spherical joint of the head portion, characterized in that it comprises a retaining plate for limiting the movement of the spherical joint when pressing the spinal rod fixed. delete delete The method of claim 1, Spinal fixing screw, characterized in that formed on the inner upper end of the coupling groove is cut to prevent the insertion of the retaining plate. The method of claim 1, Spinal fixing screw, characterized in that the receiving groove is formed along the curvature of the spherical joint on the lower surface of the plate. The method of claim 1, The upper surface of the spherical joint is a spinal screw, characterized in that the incision flat. The method of claim 6, Spinal fixing screw, characterized in that the wrench groove is formed in the center of the upper surface of the spherical joint is inserted into the wrench. The method of claim 1, Spinal fixation screw, characterized in that the irregular surface is formed along the outer peripheral surface of the spherical joint. The method of claim 1, The thickness of the thread formed on the outer surface of the screw rod is a spinal fixation screw, characterized in that the maximum in the direction of the spherical joint. The method of claim 1, Spinal fixing screw, characterized in that the wrench groove is formed in the center of the upper surface of the tightening screw is inserted into the wrench. The method according to any one of claims 1 and 4 to 10, The final coupling screw has a through groove for receiving the spherical joint in the center is formed, the lower surface of the inner circumference of the through groove is a spinal fixation screw, characterized in that formed along the curvature of the spherical joint. In the orthodontic spinal fixation screw is coupled to the spinal rod and inserted into the pedicle, A rod receiving channel for accommodating the spinal rod is provided upwardly, and an engagement screw bone for fixing the spinal rod is tapered on an inner surface of the rod receiving channel, and an intaglio surface is reduced toward the center of the head portion. A head portion formed to be; A screw rod which is integrally extended to the lower end of the head and inserted into the pedicle through a screw thread formed on an outer surface thereof; And A fastening screw having an engaging thread corresponding to the engaging screw bone formed on an outer surface thereof, the fastening screw being coupled to the head portion through the rod receiving channel to fix the spinal rod; Spinal fixation screw comprising a. delete The method of claim 12, The thickness of the screw thread formed on the outer surface of the screw rod makes a maximum screw in the direction of the head. The method according to claim 12 or 14, Spinal fixing screw, characterized in that a wrench groove of a predetermined shape is formed in the center of the upper surface of the tightening screw.

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