KR200377260Y1 - Spinal fixation apparatus having length variable type rods and pedicle screws - Google Patents

Abstract

The present invention manufactures a rod for connecting the pedicle screw between the shape memory alloy, which is flexible at a predetermined temperature, so that even if the screw is not uniformly stuck and is displaced at the desired installation position, the rod is varied in shape and length. It relates to a pedicle fixation device that can be free.

In a first embodiment of the present invention, the receiving grooves are formed on both sides of the receiving groove is formed in the upper portion, the head portion formed in parallel with the groove in the bottom of the receiving groove, and provided with a screw portion that is embedded in the lower surface of the head portion is embedded in the spine Pedicle screws, which serve as anchors for damaged pedicles; A rod consisting of a shape memory alloy which is transformed at a predetermined temperature, the both sides of which are seated in a ditch of the receiving groove to connect the pedicle screws; And it is inserted into the receiving groove of the pedicle screw, provides a pedicle fixing device comprising a fixing means for pressing to prevent the rod from flowing.

Description

Spinal fixation apparatus having length variable type rods and pedicle screws}

The present invention relates to a pedicle fixation device for firmly fixing a damaged or deformed pedicle in the corrected state, and more specifically, manufactured by a shape memory alloy that varies in temperature depending on the rod connecting the pedicle screw screws. It relates to a pedicle fixation device that can facilitate the orthodontic surgery.

In general, the spine is usually composed of 24 bones (except sacral bones), which are connected by joint nodes, with discs between each joint. By this configuration, the vertebrae not only support the human posture while buffering, but also serve as the basis for exercise and protect the organs of the internal organs. However, as the spine lasts for a long time due to external anthropogenic, degenerative, or non-finish posture, when the spine is injured or twisted, it causes compression of nerves passing through the spinal canal, causing severe pain.

Patients with damaged parts of the spine are unable to perform activities necessary for personal life, and even if the degree of damage is not severe, the damaged parts of the spine are pressed or touched by other adjacent parts, causing pain. Such spinal disorder requires chiropractic surgery to insert a pedicle fixation device into a damaged or damaged part of the spine so that the damaged part is not pressed or compressed.

As shown in FIG. 1, the pedicle fixation device includes a U-shaped accommodating groove 101a, a head portion 101 having a female thread formed on an inner circumferential surface of the accommodating groove 101a, and inserted into the pedicle. A pedicle screw 100 having a threaded portion 102 and inserted into upper and lower sides of the damaged spine and serving as a fixing stand; A rod 200 connected through each pedicle screw 100 to serve as a pedicle correction; The set screw 300 is fitted into the receiving groove 101a, is fastened to the female thread formed therein to fix the rod 200, and has a wrench insertion groove 300a formed thereon.

The installation state of the pedicle screw rod in the pedicle fixation device according to the prior art will be briefly described with reference to FIG.

As shown in the figure, the screw portion 102 of the pedicle screw nail 100 is fixed to each pedicle 500, the rod 200 in the U-shaped receiving groove 101a formed in the head portion 101 Insert and settle down.

In this state, the set screw 300 is aligned with the female screw thread formed in the accommodating groove 101a, and then the bottom surface of the set screw 300 is inserted by rotating the wrench into the wrench insertion groove formed in the upper portion of the set screw 300. By pressing the outer diameter of the rod 200, the rod 200 is fixed in the receiving groove of the pedicle screw 100. That is, the installation state of the rod 200 connecting between the pedicle 500 and the pedicle 500 is maintained firmly.

However, in such a conventional pedicle fixation device, the rod plays the most important role in correcting the spine. Therefore, the influence of the rod material or elasticity on the human body is great after fusion of the pedicle.

Conventional pedicle screw rods are mostly formed of a medical titanium material, there is no elasticity of the rod itself. Because of this, it is difficult to maintain the normal waist curve after vertebral surgery, after fusion of vertebral nodes in the shape of rod. In addition, since the load is concentrated in the upper or lower nodes of the spine of the pedicle screw-embedded region after being completely fused in the shape of the rod, there is a problem that causes another spinal canal narrowing or instability after several years after the fusion. .

In particular, when an impact is applied to the waist due to external factors, there is a problem that the rod is broken or buried in the spinal column.

In addition, since the conventional rod is manufactured to be bent like the shape of a general spine irrespective of the shape of the individual spine, it is difficult to standardize each individual product and produce a variety of shapes. It's working. The rod of such a structure causes a lot of trouble even when connecting to the pedicle screw. In other words, the shape of the pedicle is different for each person, it is very difficult to mount the rod if the pedicle screw is not uniformly lodged between the node and the node. This is related to the physical properties of the non-elastic rods. In this case, install the rod after adjusting the angle of the head arbitrarily by using a polyaxial type screw in which the head is freely rotated around the screw part in a predetermined angle range by twisting the screw in an inclined angle. It will be fixed in position. As such, it is necessary to precisely determine the installation position of the screws and to drill holes in the pedicle so as to uniformly position, thereby increasing the burden on the doctor. In addition, to produce a rod that fits the curvature of the pedicle, and uniformly determine the installation position of the screw, there is a problem that the operation time is long because you must spend a lot of time.

In order to overcome the problems with such rods, rods of various structures having elasticity have been conventionally proposed. As an example, disclosed is an elastic rod for pedicle screw connection of Utility Model Registration No. 0338006. The rod disclosed herein has a structure in which a rod main body 601 and an elastic connecting portion 603 are formed at an intermediate portion of the rod main body 601. As shown in FIG. 3, the elastic connecting portion 603 has a circular ring having one side, a coil spring, and a bar shape having a diameter smaller than that of the rod main body.

As described above, the structure in which the elastic connecting portion is formed in the middle portion of the rod gives the bending deformation of the rod body, thereby providing the fluidity within a certain range between the pedicle node and the node. However, the above structure causes a problem that the pedicle correction function, which is the original function of the rod, is lost because the elastic range of the elastic connection part is too large. That is, the rod must support while connecting between the pedicle node and the node. In the rod structure proposed above, since the rod body parts are separated from each other, the rod body part can move freely within the elastic range of the elastic connection part. have. Accordingly, the pedicle segment and the segment between the nodes can not be fixed firmly.

In addition, the elastic rod structure for pedicle screw connection still has a problem that it is difficult to connect the rod without artificially bending the rod to the arrangement of the pedicle screw when the arrangement of the pedicle screw is misaligned.

Therefore, the present invention has been proposed to solve the above problems, and the rod is made of a shape memory alloy that is flexibly variable at a predetermined temperature, so that the pedicle screws are not uniformly lodged and are displaced at a desired installation position. Its purpose is to provide a pedicle fixation device that can freely connect by changing the shape and length of the.

In addition, the present invention is formed by forming the middle portion of the rod into an elastic section to maintain the strength enough to the rod to correct the pedicle, and to exert an elastic force when the external force acts on the rod between the spinal node and the node Another object is to provide a pedicle fixation device that can impart fluidity.

In order to achieve the above object, in the first embodiment of the present invention, an accommodating groove is formed on both sides at an upper portion thereof, and a head portion formed in parallel with a groove at a bottom portion of the accommodating groove, and is provided on the bottom surface of the head portion to the spine. Pedicle screw to serve as a fixation of the damaged pedicle by having a screw portion embedded; A rod consisting of a shape memory alloy which is transformed at a predetermined temperature, the both sides of which are seated in a ditch of the receiving groove to connect the pedicle screws; And it is inserted into the receiving groove of the pedicle screw, provides a pedicle fixing device comprising a fixing means for pressing to prevent the rod from flowing.

The rod includes a rod body portion; An elastic portion formed in a predetermined section of a central portion of the rod body portion; And a support bar extending from both ends of the rod main body and seated in one of the grooves of the receiving groove.

The two grooves of the head part are formed so that the rods can be continuously connected without a separate connector.

The rod may be made immediately in the form of a "U". The "U" shaped rod can simplify the installation work of the rod by being fixed in the parallel groove of the receiving groove after the pedicle screw is uniformly lodged.

According to a second embodiment of the present invention, a pedicle screw which serves as a fixing unit for a damaged spine is provided with a head part having a plurality of grooves formed on a circumferential surface thereof, and a screw part provided on the bottom surface of the head part to be embedded in the spine; And a rod body portion, an elastic portion formed in a central section of the rod body portion, and a support ring extending from both sides of the rod body portion and fitted into a groove of the head portion, and comprising a shape memory alloy transformed at a predetermined temperature. Provided is a pedicle fixation device including a rod connecting a screw screw.

In the first and second embodiments of the present invention, the elastic portion of the rod may be made of a coil spring or waveform.

The elastic part exerts an elastic force at a predetermined impact strength, thereby imparting fluidity between the pedicle node and the node, thereby reducing the burden on the waist.

In a third embodiment of the present invention, the rod supporting hole penetrated in the axial direction, a head portion formed with a screw hole perpendicular to the rod supporting hole, and a screw portion provided on the bottom surface of the head portion and embedded in the spine, Pedicle screws that serve as anchors for the damaged spine; A rod body portion and a hook portion extending from both ends of the rod body portion and passing through the support hole and extending over the outer surface of the head portion, and comprising a shape memory alloy transformed at a predetermined temperature to connect the pedicle screw thread; And a set screw fastened to the screw hole of the head to press the rod inserted into the support hole.

The rods in the first to third embodiments have a martensite phase at 10 ° C or lower, which is the transformation temperature of the shape memory alloy, and have a property of transforming to an austenite phase at 35 ° C or higher. Even when the arrangement of the pedicle screws is shifted, the rods are installed in a state in which the shape and length of the rods are varied, so that the installation work can be performed simply and quickly.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 4 to 10.

The pedicle fixation device according to the present invention can be easily connected by varying the shape and length of the rod even if the arrangement of the pedicle screw is not uniform using the rod made of the shape memory alloy, and exerts elasticity at a predetermined or more impact strength. It is implemented to secure the fluidity between and nodes.

Prior to describing an embodiment of the present invention, a known shape memory alloy, which is a material of a rod, which is a main part of the present invention, will be briefly described.

In general, the shape memory alloy refers to an alloy having a characteristic of always returning to a predetermined form at a predetermined predetermined temperature. For example, when an object is manufactured from shape memory alloy, even if its shape is changed from that of the first time by using it for a long time, it is restored to its original shape when the temperature environment that has been specified or memorized is matched. In other words, the shape memory alloy is transformed on a martensite, and when heat is applied, the shape memory alloy is restored to its original shape on the austenite, and the shape memory alloy is nickel (Ni). Since the manufacture of) / titanium (Ti) alloys, the practical use has progressed considerably, and now copper / zinc, copper / aluminum / nickel, copper / aluminum / manganese, copper / tin, nickel / aluminum, gold / copper / zinc alloy, etc. Many types of shape memory alloys are known, and due to the fact that they always return to a specific shape at a certain temperature, shape memory alloys are widely used in engineering and medical fields. It is used for joints, orthodontic wires, and the like.

In the embodiment of the present invention is made of a rod using a shape memory alloy, in particular a Nitinol (Ni-Ti alloy), which is harmless to the human body among these various shape memory alloys.

The configuration of the pedicle fixation device according to the first embodiment of the present invention will be described with reference to FIGS. 4 and 5.

The pedicle fixation device is installed at predetermined intervals on the upper and lower sides of the damaged pedicle and serves as a fixing table, the pedicle screw (10) for mounting and supporting the rod 30; The pedicle screw 10 is connected to the large configuration of the rod 30 for the correction function of the spine.

The pedicle screw 10 has a receiving groove (11a) formed on both sides in the upper portion, the first and second grooves (12) to seat the rod 30 in the bottom of the receiving groove (11a) 12 ') includes a head portion 11 formed in parallel, and a screw portion 13 provided on the bottom of the head portion 11 and embedded in the pedicle by a predetermined depth.

The receiving groove 11a of the pedicle screw 10 is equipped with a set screw 20 to press the rod 30 to prevent the rod 30 from flowing. The set screw 20 has a male screw thread 20a formed on an outer circumferential surface thereof, and a wrench insertion groove 20b is formed on an upper portion thereof.

A female thread 11b is formed on the inner circumferential surface of the accommodating groove 11a to allow the set screw 20 to be fastened in the accommodating groove 11a.

A head cap 22 fitted to the outer circumferential surface of the head portion 11 may be further included to prevent the head portion 11 of the pedicle screw 10 from opening. The head cap 22 is additionally mounted as necessary, but is not essential.

In the first embodiment of the present invention, the grooves 12 and 12 'show an example in which two grooves are formed in parallel. This is provided to continuously install the rod 30 without having to provide a separate connector when the rod 30 is installed continuously.

The rod 30 is formed in a rod-shaped rod body portion 31 and a predetermined section of the center portion of the rod body portion 31 so as to exert an elastic force when a predetermined impact strength is provided to the rod. Wow; It is formed on both ends of the rod body portion 31, and includes a support bar 33 which is seated in one of the first and second grooves (12, 12 ') of the receiving groove (11a).

The diameter of the rod 30 is usually up to 2 to 7 mm, and is set at 0.5 mm intervals.

The elastic portion 32 has a coil spring structure, the diameter of the coil spring is the same as the diameter of the rod body 31.

The support bar 33 and the straight portion (33a) which is seated in the groove; And a bending portion 33b extending from the straight portion 33a and bent from an end portion of the straight portion to a central axis of the outer diameter of the head portion.

Due to the structure of the support bar 33, the rod body part 31 is positioned at the center axis of the head part 11.

Both support bars 33 of the rod 30 may take opposite forms to each other. That is, the positions of the bending portions 33b that are bent along the outer diameter of the head 11 are positioned opposite to each other so that the structure is continuously connected in a zigzag form.

The shape memory base material of the rod 30 has a martensite phase at a transformation temperature of 10 ° C. or lower, and has a property of transforming to an austenite phase at 35 ° C. or higher. In particular, the shape transformed on the martensite is maintained as it is up to 26 ℃ and when it reaches 35 ℃ it is transformed into an austenite phase is completely restored to the original shape.

In addition to the rod 30 according to the present embodiment, the rods 30 of the second to fourth embodiments described below are all made of a shape memory alloy. That is, the rod 30 is bent at both ends of the shape memory base material in a predetermined shape, and processed in the form of a coil in the center portion of the shape after the shape memory heat treatment for about 1 hour at 650 ~ 700 ℃ is changed at a specific temperature It has the characteristics of shape memory alloy.

A second embodiment of the present invention will be described with reference to FIGS. 6 to 8.

In this embodiment, the rod is mounted on the outer circumferential surface of the pedicle screw so as to be connected continuously.

That is, the pedicle screw 10 includes a head portion 41 and a screw portion 42, the first and second grooves (41a, 41a ') is formed in the circumferential surface of the head portion 41 is have.

In addition, the rod 30 has an elastic portion 52 continuously curved in the form of a wave in the center portion of the rod body portion 51; Both side portions of the rod main body 51 include circular support rings 53 for fitting into the grooves 41a of the head portion 41.

At this time, the rod body 51 is located at the central axis of the head portion 41.

Positions of both support rings 53 wound around the grooves 41a of the head part 41 are continuously connected by facing in the same direction. However, the support ring 53 may be connected in a zigzag form because the positions thereof are located in opposite directions.

Thus, as shown in Figs. 7 and 8, the support ring 53 of the rod 30 is wound around the first groove 41a and the second groove 41a 'of the head portion 41, respectively, and continuously Connected.

As described above, the rod 30 is provided with an elastic portion in the central section, so that the pedicle is corrected while maintaining an appropriate interval and angle between the vertebrae, when the waist is bent, twisted, or externally impacted on the lower back. When this is applied, the allowable elastic force of the elastic part is exerted to act as a buffer between the nodes. This reduces the burden on the waist.

A third embodiment of the present invention is described with reference to FIG.

In this embodiment, a pair of rods are mounted on a single pedicle to correct it.

That is, the pedicle screw 10 includes an annular head portion 61 and a screw portion 62 filled with an inside thereof. The head portion 61 is formed with a rod support hole 61a penetrated in the axial direction and a screw hole 61b perpendicular to the rod support hole 61a. The fixing bolt 63 is fastened to the screw hole 61b to press and fix the rod 30 inserted into the support hole 61a.

The rod 30 includes a rod main body 71 formed of a straight bar; And a hook portion 72 formed at both ends of the rod body portion. The hook portion 72 is fitted into the support hole 61a, and has an end portion bent so as to be caught by an outer surface of the head portion 61.

The rod body portion 71 may further include an elastic portion in a predetermined portion of the central portion.

In the present embodiment, when the hook portion 72 is changed into a straight form (date shape) during the orthodontic surgery, the hook portion 72 is inserted into the support hole 61a of the head portion 61 and provided with a predetermined temperature so as to remember the shape of the hook. The end portion of the portion 72 is variable in a form surrounding the outer surface of the head portion 61 so as to prevent the rod 30 from being separated out of the head portion 61. In addition, the hook portion 72 of the rod 30 by fastening the fixing bolt 63 to the screw hole 61b while the hook portion 72 is inserted into the support hole 61a of the head portion 61. Fix it.

A fourth embodiment of the present invention is shown in FIG.

In this embodiment, after installing several pedicle screws, a single rod is mounted on the pedicle screws to simplify the connection work.

As shown in the figure, the pedicle screw 10 has the same structure as the first embodiment described above. The same code | symbol is attached | subjected about the same structure of the said 1st Example.

The rod 30 takes the form of a "U". Therefore, after the pedicle screw 10 is uniformly inserted into the spine, the U-shaped rod 30 is seated on the first and second grooves 12 and 12 'of the head portion 11. . Then, the set screw 20 is fastened to the receiving groove 11a of the head portion 11 to fix the rod 30. When the pedicle screw 10 is not uniformly lodged, the shape of the "U" shaped rod 30 is changed to correspond to the position of the pedicle screw 10 and seated in each receiving groove 11a. . And, if the shape of the "U" shaped rod 30 is memorized, the variable rod 30 is changed in a straight line shape to correct the position of the irregular pedicle screw 10.

Referring to the structure of the pedicle with reference to the first embodiment in the present invention configured as described above are as follows.

First, it is screwed in the vertical direction to each pedicle to be connected to the pedicle screw (10). And, before the rod 30 is inserted into the receiving groove 11a of the pedicle screw 10, the length of the coil spring 32 is increased by allowing the rod 30 to be transformed at room temperature (10 ° C. or less). Both support bars 33 of the rod 30 thus transformed are seated in the first and second grooves 12 and 12 'formed at the bottom of the receiving groove 11a of each pedicle screw 10, respectively.

In the above state, when the set screw 20 is fastened to the female thread 11b formed in the receiving groove 11a of the head portion 11 and then tightened the set screw 20 using a wrench, the set screw ( Installation of the rod 30 is completed by pressing the rod 30 to press the bottom of the rod 30.

When the installation of the rod 30 is completed as described above, the elasticity is increased by providing heat of a predetermined temperature by using a surgical instrument for generating a heat source such that the rod 30 has a shape recovery temperature of 35 ° C. or more. The sub 32 section is transformed into the austenite state to restore the original length.

At this time, in the process of restoring the shape of the elastic part 32, the support part 33 fitted to the first and second grooves 12 and 12 'is firmly fixed to the first and second grooves 12 and 12'. The support part 33 of the rod 30 is not detached from this.

As described above, even if the arrangement of the pedicle screw 10 is slightly misaligned, the rod fixing operation can be made very simple by bending the shape of the rod 30 by the displaced angle to adjust the position and performing the rod fixing operation. . In addition, the rod 30 is fixed by the elastic action that is deformed after the bending (bending) of the elastic portion 32 in the bending motion or twisting operation according to the movement of the human body after the pedicle is fused This provides fluidity between the nodes.

On the other hand, in the installation process of the rod 30, in the case of connecting the rod continuously, as shown in Figure 5, the rod 30 in the first and second grooves 12, 12 'of the pedicle screw 10 ) Alternately seated on the support (33). Thus, by using the head portion 11 formed with two grooves 12 and 12 ', there is no need for a connector for continuous installation of a separate rod.

As described above, embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and various changes and modifications can be made by those skilled in the art within the scope of the technical idea of the present invention. Will be apparent to those of ordinary skill in the art.

As described above, according to the present invention, a rod for straightening the spine by maintaining a constant distance between pedicle screws is manufactured as a shape memory alloy. Accordingly, since the shape and length of the rod are transformed into an easy-to-install state, the rod can be mounted on the pedicle screw, thereby simplifying the connection work. Although the arrangement of the pedicle screw is misaligned during the initial operation, it is possible to mount the rod after deforming the shape of the rod so that the rod can be quickly installed.

In addition, the present invention by forming a predetermined section of the rod into the elastic portion, the load is not concentrated between the plurality of fused pedicle nodes and nodes, can be distributed can reduce the burden on the waist. In addition, since the fluidity between the pedicle nodes is imparted, there is an effect that is fused to the normal spine shape of each patient. There are other effects that can minimize the complication of upper and lower nodes with pedicle screws fixed several years after surgery.

In addition, the present invention has another effect that can be connected to the rod continuously without having a separate connecting connector by forming a parallel groove in the pedicle screw.

1 is a perspective view showing a coupling configuration of a spinal column fixing device according to the prior art.

Figure 2 is a perspective view showing the installation state of the pedicle screw rod according to the prior art.

Figure 3 is an exemplary view showing various forms of pedicle screw rod according to the prior art.

Figure 4 is an exploded perspective view showing the configuration of the first embodiment of the pedicle fixation device according to the present invention.

Figure 5 is a state diagram of Figure 4, a plan view schematically showing the continuous installation state of the rod using two pedicle screws.

Figure 6 is an exploded perspective view showing the configuration of a second embodiment of the pedicle fixation device according to the present invention.

Figure 7 is a perspective view of the combined perspective view of Figure 6, schematically showing the continuous installation state of the rod using a pedicle screw.

FIG. 8 is a plan view showing a coupled state of FIG. 6; FIG.

Figure 9 is an exploded perspective view showing the configuration of a third embodiment of the pedicle fixation device according to the present invention.

Figure 10 is an exploded perspective view showing the configuration of the fourth embodiment of the pedicle fixation device according to the present invention.

* Explanation of symbols for main parts of the drawings

10: pedicle screw 11: head

12, 12 ': first and second grooves 13: threaded portion

20: set screw 22: head cap

30: load 31: load main body

32: elastic portion 33: support bar

Claims (15)

A pedicle is formed on both sides of the receiving groove is formed in the upper groove, the head portion formed in parallel with the groove in the bottom of the receiving groove, and the screw portion is provided on the bottom surface of the head portion to be embedded in the spinal vertebrae to serve as a fixed spine Screw; A rod consisting of a shape memory alloy which is transformed at a predetermined temperature, the both sides of which are seated in a ditch of the receiving groove to connect the pedicle screws; And A fixing means inserted into the receiving groove of the pedicle screw and pressurizing the rod to prevent the rod from flowing; Pedicle fixation device comprising a. A pedicle screw having a plurality of grooves formed on a circumferential surface thereof, and a screw part provided on the bottom surface of the head part to be embedded in the vertebrae to serve as a fixing stand for the damaged spine; And A pedicle comprising a rod body portion, an elastic portion formed in a central section of the rod body portion, and a support ring extending from both sides of the rod body portion and fitted into a groove of the head portion, and a shape memory alloy transformed at a predetermined temperature. Rod connecting screws Pedicle fixation device comprising a. A vertebrae serving as a support for an injured vertebra including a rod supporting hole axially penetrated, a head portion having a screw hole perpendicularly intersecting the rod supporting hole, and a screw portion provided on a bottom surface of the head portion to be embedded in the spine. Light screw; A rod body portion and a hook portion extending from both ends of the rod body portion and passing through the support hole and extending over the outer surface of the head portion, and comprising a shape memory alloy transformed at a predetermined temperature to connect the pedicle screw thread; And Fastening means for fastening the rod inserted in the support hole is fastened to the screw hole of the head portion Pedicle fixation device comprising a. The method of claim 1, The rod is A rod main body portion; An elastic portion formed in a predetermined section of a central portion of the rod body portion; Support bars extending from both ends of the rod body portion and seated in one of the grooves of the receiving groove Pedicle fixation device comprising a. The method of claim 1, The rod is made of a "U" shaped bar pedicle fixing device, characterized in that seated in the parallel groove of the receiving groove respectively. The method according to any one of claims 1 to 5, The rod has a martensite phase at or below 10 ° C., a transformation temperature of the shape memory alloy, and is transformed into an austenite phase at 35 ° C. or more. The method according to claim 2 or 4, The pedicle fixation device, characterized in that the elastic portion made of a coil form. The method according to claim 2 or 4, The pedicle fixation device, characterized in that the elastic portion made of a waveform. The method of claim 4, wherein The support bar is A straight portion seated in the trench; A bending portion connecting the straight portion with the rod main body and bent from an end portion of the straight portion to an outer diameter center axis of the head portion; Pedicle fixation device comprising a. The method of claim 2, The pedicle fixing device further comprises a head cap fitted to the outer surface of the head portion of the pedicle screw, the head cap to hold the rod fitted in the groove of the head portion does not escape. The method of claim 4, wherein The pedicle fixation device, characterized in that the position of the two support rings wound in the groove of the head portion are located opposite each other. The method of claim 9, The pedicle fixation device, characterized in that the coupling structure of the straight portion and the bending portion of the two support bars respectively seated in the groove of the head portion is located opposite to each other. The method according to any one of claims 2, 4, 11 and 12, The rod body portion is pedicle fixing device, characterized in that located on the central axis of the head portion. The method of claim 1, The receiving groove of the head portion is formed with a female thread on the inner peripheral surface, The fixing means is a pedicle fixing device characterized in that the male thread is formed on the outer circumferential surface to be fastened to the female thread, the set screw formed with a wrench insertion groove in the upper portion. The method of claim 1, Covered on the outer circumference of the head portion, the pedicle fixing device further comprises a head cap for preventing the head portion from opening.