KR20150097958A - Spine fixture - Google Patents

Abstract

The present invention, with respect to a spherical surface touch type spinal fixation device, is to provide a spinal fixation device with improved assemblability by which a slip phenomenon, occurring at an area where a spherical surface touches after surgery, is prevented. The spherical surface touch type spinal fixation device is configured to form a head part of a screw as a spherical cross section; insert a fixing ring and a stopper ring having a curved part to touch an upper and a lower side of the head part by forming upper and lower protrusions in a lower portion of a threaded part in a fixing nut; and allow the curved parts of the fixing ring and the stopper ring to be compressed and fixated to the head part, due to fastening force of a fixing bolt, by coupling the fixing bolt to the fixing nut after mounting a connection rod on an upper end of the fixing ring. According to the present invention, bumpy nonslip protrusions formed on the curved parts of the fixing ring and the stopper ring prevent the slip phenomenon, and thus prevent the fixing unit and the connection rod from escaping.

Description

Spine fixture

The present invention relates to an intervertebral fixator for use in treating and correcting a damaged vertebrae in a body, and more particularly, to a fixation device for a damaged vertebrae and a fixed vertebrae and a connection rod connecting these fixtures. The present invention relates to a vertebral fixation device for performing a vertebral artery.

Generally, the vertebrae, which are the main skeleton of the human body, are composed of 24 bones except the sacrum, and the nerve passes through the spinal canal.

Each vertebra is connected by a joint node, and a disk is connected between each joint.

With this configuration, the spine supports the body weight with buffering action to absorb the impact, and acts as a built-in protection against misalignment and external impact.

Therefore, if a part of the vertebrae is damaged by fracture and deformation, it impairs the surrounding nervous tissue and interferes with the biotissue, thereby causing pain, which makes biological activity difficult.

In addition, the injured vertebrae also affect the organs in the body, causing irritation and necrosis of nearby tissues and slow recovery.

Therefore, if the spine is damaged, immediate treatment is required. For spinal surgery, spinal fixation is used to fix the injured vertebrae using a spinal fixator, which is usually an artificial aid.

The above-mentioned spinal fixation is a procedure for fixing the injured vertebrae and the adjacent vertebrae by fixing them with a vertebra fixture, and is a procedure for reconstructing a spinal abnormality such as a vertebral fracture, dislocation, deformation, and vertebral caries.

The vertebra fixture used as the above-described artificial aids is made of a metal material having high strength and durability, or a material coated with a harmless component on the surface of the metal material, and is directly applied to the vertebrae.

(Patent Document 0001) Korean Registered Utility Model No. 20-0410476

(Patent Document 0002) Korean Published Patent Application No. 2013-0127786

As a prior art for vertebral fixation, there is a "pedicle screw " of Registration No. 0410476, which is published in the Korean Registered Utility Model Gazette.

The contents of the Utility Model Registration No. 0410476 are summarized as follows.

The spine is screwed at regular intervals on the vertebrae so as to fix and support the rod to the vertebrae so that the damaged vertebrae are not stretched or pressed. The head is provided at the upper end, and the upper and both sides A screw main body having an inner surface formed with a female screw and a male screw formed on the inner surface of the male screw so as to be fixed to the female screw, A spinal screw comprising a fixed bolt formed on an outer circumferential surface thereof,

The fixing bolt is formed on the outer circumferential surface of the fixing bolt at a predetermined depth along the thread toward the center so that the male thread of the fixing bolt is tightly pressed against the female thread of the head when the fixing bolt is screwed to the head, And further comprising a groove portion which does not fall out.

However, in order to increase the fastening force of the fixing bolt, such a pedicle screw has a further groove portion between the male screw portions to which the female screw portion of the head is inserted. However, since the fixing bolt has a spherical cross- As the rod is squeezed, there is a limit of the clamping force. Such a phenomenon is not enough to completely prevent the flow of the rod due to gradual relaxation of the fixed bolt over time with the action of the human body.

Furthermore, the cost increase was caused by the addition of the manufacturing process due to the processing of the separate groove portion.

Further, since the screw body and the head are integrated, it is difficult to adjust the distance, angle and position between the screw body and the rod and the adjacent screw body depending on the damaged portion of the spine.

Another prior art is the "pedicle screw locking system" disclosed in Korean Patent Publication No. 2013-0127786.

The contents of the above-mentioned Publication No. 2013-0127786 are summarized as follows.

An intermediate structure formed between the body of the pedicle screw and the stud of the pedicle screw and having a hollow spherical surface;

A clamp for clamping said connection rod, said clamp having a cylindrical bands for receiving an annular flange and a connection rod in which said two-sided spherical surface is in contact with an inner side, connecting said pedicle screw and said connection rod to each other; And

And a locking member fastened to the stud passing through the flange and applying a locking pressure to the assembly in which the pedicle screw, the clamp, and the connection rod are assembled.

The above-mentioned Patent Publication (JP-A-2013-0127786) discloses a structure in which a half-round spherical surface and a stud, which are intermediate structures, are formed on the upper part of the main body and an annular clamp having a connection rod sandwiched therebetween is inserted into the upper end of the half- And fixing the connecting rod by fastening the stud and the fixing nut on the upper side.

However, in the pedicle screw locking system, a semi-circular spherical surface as an intermediate structure and a stud are integrally formed on the main body, and a separate clamp having a cylindrical band and an annular flange is formed in order to hold the connecting rod .

Therefore, the structure itself is complicated and the number of parts is large, which causes an increase in the production cost and requires a long time for the operation.

Further, since the connection rod connecting the main body fixed to the damaged vertebrae and the adjacent main body protrudes to one side of the main body, there is a difficulty in securing a large space for the operation, and the volume of the apparatus itself is large, .

In addition, since the half-round spherical surface and the stud, which are the intermediate structure, are integrally formed, the distance between the main body and the adjacent body connected to the rod when fixing the damaged part of the spine, And difficulty in adjusting the position.

As another prior art, there is a spherical contact type vertebra fixture as shown in Fig.

In this technique, the head portion 111 of the screw 110 is formed in a hemispherical cross section, and the fixing nut 120 is provided with upper and lower engagement protrusions 122 and 123 below the spiral portion 121, A cylindrical fixing ring 150 inserted into the lower locking protrusions 122 and 123 and curved surface portions 151 and 161 having an arc shape in spherical contact with the upper and lower surfaces of the head portion 111 are integrally formed with the inner surface of the stopper ring 160 .

The stopper ring 160 is inserted into the lower stopping jaw 123 of the fixing nut 120 and the screw 110 is inserted from the upper side of the fixing nut 120, And then the helical portion 112 is fixed to a desired position of the vertebra using a tool such as a hexagonal wrench.

Thereafter, the fixing ring 150 is inserted into the upper stopping jaw 122 of the fixing nut 120, the connecting rod 130 is inserted into the upper end of the fixing ring 150, and then the fixing bolt 140 is fastened .

When the fixing bolt 140 is tightened as described above, the bottom surface of the fixing bolt 140 presses the connecting rod 130 by the tightening force, and the connecting rod presses the fixing ring 150 again, The curved surface portions 151 and 161 of the stopper ring 150 and the stopper ring 160 are pressed and fixed to the upper and lower portions of the head portion 111, respectively.

When fixing the fixing bolt 140, a fixing nut (not shown) installed on the head 111 of the screw 110, taking into account the distance, space, and position with respect to the adjacent vertebrae fixing the connecting rod 130, 120).

The vertebra fixture may be formed by spherically contacting the head portion 111 of the screw 110 with the retaining ring 150 and the stopper ring 160 of the fixing nut 120, The angle of the fixing nut 120 can be arbitrarily adjusted according to the distance, space, and position between the fixing nut 120 and the fixing nut 120. However, the following problems have been encountered.

That is, since the spherical head portion 111 is in spherical contact with the curved surface portions 151 and 161 of the stationary ring 150 and the stopper ring 160, a slip phenomenon occurs at these contact portions, 120, the angle and position of the fixing nut and the connecting rod are changed as the movement or time of the operator passes.

In addition, the disadvantages described above are caused more severely by the gradual loosening of the fastening nut that has been fastened, causing the pain of the practitioner or, in some cases, re-operation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to prevent a slip phenomenon in a spherical contact type spinal fixation device in a spherical contact portion of the vertebra fixture.

In order to achieve the above object, according to the present invention, a head portion of a screw is formed in a spherical cross-section, and an upper and a lower engaging jaw are formed in a lower portion of a spiral portion of the fixing nut to have a curved surface portion in spherical contact with the upper and lower surfaces of the head portion And a locking bolt is fastened to the fixing nut so that the curved surface of the fixing ring and the stopper ring are pressed against and fixed to the head portion by the fastening force of the fixing bolt after the connecting rod is seated on the upper end of the fixing ring. Wherein the spinal column is a spherical abutment,

And a non-slip projection in a concave-convex shape is integrally formed on the curved surface portion of the stationary ring and the stopper ring.

The slip prevention protrusions are formed on the curved surface portions of the stationary ring and the stopper ring which are in contact with the head portion of the screw.

In order to maximize the efficiency of the slip prevention protrusion, it is preferable that the slip prevention protrusion is formed at a position distant from the horizontal center line of the head portion, that is, above and below the curved surface portion of the stationary ring and the stopper ring.

According to the present invention configured as described above, the screw is inserted into the upper side of the fixing nut in a state where the stopper ring is inserted into the lower stopping jaw of the fixing nut so that the helical portion protrudes to the bottom surface of the fixing nut, Place it where you want it to be, the damaged vertebra or the normal vertebra.

When the fastening of the screw is completed, the fastening ring is inserted into the upper fastening jaw of the fastening nut, and the connecting rod is seated on the upper end of the fastening ring.

At this time, the retaining ring can be assembled before fixing the screw to the spine.

Then, the fixing bolt is fastened to the fixing nut in consideration of the length and angle of the adjacent spinal fixture or connecting rod.

When the fastening bolt is fastened, the bottom surface of the fastening bolt presses the connecting rod by the fastening force, and the pressing force of the connecting rod is transmitted to the stationary ring and the stopper ring. Consequently, the curved surface portion of the stationary ring and the stopper ring, And pressed and fixed to the surface.

When fixing the fixing bolts, the positions and angles of the fixing nuts and the connecting rods are adjusted in consideration of the distance, space, position, and angle with respect to the adjacent vertebra joints sharing the connecting rods.

When the operation of the vertebrae fixation is completed, the slip prevention protrusion formed on the curved surface portion of the stationary ring and the stopper ring prevents slip phenomenon, thereby preventing the fixing nut and the connection rod from being displaced and tilted.

A slip phenomenon is prevented by forming an irregular projection in a concave-convex shape on a curved surface portion of a stationary ring and a stopper ring spherically contacting a head portion of a screw in a spherical contact type interbody sponge fixture.

Therefore, even after the procedure is completed, the fixing nut and the connecting rod are prevented from being displaced or displaced, and the treatment and correction effect is excellent, thereby contributing to the improvement of the quality and reliability of the interbody fusion.

1 is a cross-sectional view of a conventional vertebra fixture,
2 is an enlarged cross-sectional view
3 is an exploded perspective view of a vertebra fixture according to the present invention;
Figure 4 is a cross-sectional view of the vertebra fixture according to the present invention,
5 is an enlarged cross-sectional view
6 is a perspective view schematically showing a state in which a procedure is completed;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 3 is an exploded perspective view of a vertebra fixture according to the present invention, and FIG. 4 is a sectional view before assembly.

The head portion 11 of the screw 10 is formed into a spherical cross section and the upper and lower stoppers 22 and 23 are provided on the lower side of the spiral portion 21 of the fixing nut 20 The stationary ring 50 and the stopper ring 60 having the curved surface portions 51 and 61 so as to be in spherical contact with the upper and lower surfaces of the head portion 11 are inserted, The fastening bolt 40 is fastened from the upper side of the fixing nut 20 after the connection rod 30 is seated and the fastening force of the fastening bolt 40 causes the fastening ring 50 and the curved surface portion 51, 61) are pressed and fixed to the head portion (11)

Slip prevention protrusions 52 and 62 are integrally formed on the curved surface portions 51 and 61 of the stationary ring 50 and the stopper ring 60.

One or a plurality of the slip prevention projections 52 and 62 are formed on the curved surface portions 51 and 61 of the stationary ring 50 and the stopper ring 60 which are in contact with the head 11 of the screw 10. [

The slip prevention protrusions 52 and 62 are located at a position distant from the horizontal center line 11-1 of the head portion 11, that is, the curved surface portion of the stationary ring 50 and the stopper ring 60 51 and 61, respectively.

Preferably, when the head portion 11 is assumed to be a single ball, the non-slip protrusions 52 and 62 come in contact with each other at an angle of about 45 DEG from the horizontal center line 11-1 of the head portion 11 And in this case, the fastening force is most excellent.

In the drawings, reference numerals 13 and 41 denote fasteners formed by inserting a hexagonal wrench or the like to rotate the screw 10 and the fixing bolt 40.

The operation and operation of the present invention having the above-described structure will now be described.

The screw 10 is inserted into the upper side of the fixing nut 20 while the stopper ring 60 is inserted into the lower locking jaw 23 of the fixing nut 20 so that the screw 12 is inserted into the fixing nut 20, A tool such as a hexagon wrench is inserted into the fastening hole 41 of the head part 11 and rotated.

In this way, the spiral portion 12 is fixed at a desired position of the vertebra, that is, at a specific position of the damaged vertebra or the normal vertebra.

When the screw 10 is fixed, the fixing ring 50 is inserted into the fixing nut 20 to fix the fixing ring 50 to the upper locking jaw 22 and a connecting rod 30 ).

Although the fixing ring 50 is described as fixing the screw 10 to the vertebrae and then inserting it, the fixing ring 50 may be assembled before that.

Then, the fixing bolt 40 is tightened while adjusting the inclination and position of the fixing nut in consideration of the length and angle of the adjacent vertebra fixture or the connection rod 30.

A part of the fastening force of the fastening bolt 40 presses the connecting rod 30 through the bottom surface of the fastening bolt 40 and the pressing force transmitted to the connecting rod 30 is transmitted to the stationary ring 50 again do.

A part of the other fastening force is transmitted to the stopper ring 60 through the fixing nut 20 so that the curved surface portions 51 and 61 of the stationary ring 50 and the stopper ring 60 are brought into contact with the upper surface of the head portion 11 , And is pressed and fixed to the lower surface.

When fixing the fixing bolt 40, the position of the fixing nut 20 and the connecting rod 30 and the inclination of the connecting rod 30 are adjusted in consideration of the distance, space, Tighten while adjusting.

6 is a perspective view schematically showing a state in which the operation is completed by the above operation.

5, the non-slip protrusions 52 and 62 formed on the curved surface portions 51 and 61 of the stationary ring 50 and the stopper ring 60 are inserted into the head portion 11) to prevent slip phenomenon.

Further, since the non-slip protrusions 52 and 62 are in contact with each other in a direction inclined by about 45 from the horizontal center line 11-1 of the head 11, the greatest pressing force is exerted and the fastening force is firmly maintained.

Therefore, according to the present invention, the slip phenomenon is prevented by the non-slippery projections 52 and 62 of the stationary ring 50 and the stopper ring 60, so that even if the operator performs a violent act or a long time, The fastening force of the rod 30 is firmly maintained, so that the tilt and the positional deviation are prevented.

10: screw 11: head part
12: Spiral part 20: Fixing nut
21: spiral part 22: upper jaw
23: lower jaw 30: connecting rod
40: Fixing bolt 50: Fixing ring
51: curved surface portion 52: non-slip projection
60: stopper ring 61: curved portion
62: Slip prevention projection

Claims (3)

The head portion 11 of the screw 10 is formed in a spherical cross section and the fixing nut 20 is provided with upper and lower engaging protrusions 22 and 23 below the spiral portion 21 so that the head portion 11 The fixing ring 50 and the stopper ring 60 having the curved surface portions 51 and 61 in spherical contact with the upper and lower surfaces of the fixing ring 60 are inserted and the connecting rod 30 is seated on the upper end of the fixing ring 60 The fixing bolt 40 is fastened from above the fixing nut 20 so that the curved surface portions 51 and 61 of the stationary ring 50 and the stopper ring 60 are pressed by the fastening force of the fixing bolt 40, (11) of the spinal column,
Wherein the non-slip protrusions (52, 62) of a concave-convex shape are integrally formed on the curved surface portions (51, 61) of the stationary ring (50) and the stopper ring (60). The method according to claim 1,
And a plurality of said non-slip projections (52, 62). The method according to claim 1,
Wherein the non-slip protrusions (52, 62) are formed at a position inclined by 45 占 from the horizontal center line (11-1) of the head part (11).

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