KR102537768B1 - Bone cement injection type pedicle screw and Surgical tool for spinal fixation equipped with the screw - Google Patents

Abstract

The present invention relates to bone cement injection type pedicle screw and a surgical tool for spinal fixation having the screw. The pedicle screw provides a fixing force to the vertebral body in a screwed state to the patient's vertebral body. A vertebral body insertion portion having a spiral peak and a valley portion formed on the outer circumferential surface and screwed into the vertebral body, and inside the head portion and the vertebral body insertion portion, is opened to the top of the head portion through a wrench groove, bone cement injected from the outside An internal passage accepting the bone is formed, and a plurality of outflow holes are formed in the bone portion to discharge bone cement injected into the internal passage toward the periphery of the vertebral body insertion part.
The bone cement injection-type pedicle screw of the present invention constructed as described above, while inserted into the vertebral body, ejects the bone cement injected from the outside to the surroundings to reinforce the strength of the vertebral body, so the success rate of spinal fixation in patients with severe osteoporosis. It can significantly increase the rate of bone union, enabling rapid recovery. In addition, it has a porous structure using 3D printing technology, so it can maintain a stable fusion state through three-dimensional bonding with surrounding bone tissue.

Description

Bone cement injection type pedicle screw and surgical tool for spinal fixation equipped with the screw

The present invention relates to a surgical tool used for spinal fixation, and more particularly, to a bone cement injection-type pedicle screw capable of injecting bone cement into the vertebral body during surgery and a surgical tool for spinal fixation having the screw it's about

The spine consists of 7 cervical vertebrae, 12 thoracic vertebrae, 5 lumbar vertebrae, 5 sacrum vertebrae, and 4 coccyx vertebrae, each of which is connected by an intervertebral disc. The intervertebral disc absorbs and distributes the load and shock of the body, holds the vertebrae so that they are not displaced, and separates the two vertebrae so that the spinal nerves are not compressed and compressed to smoothly maintain the range of the intervertebral foramen. However, as aging progresses, or due to causes such as excessive exercise or habitual bad posture, the spine is gradually deformed and various neurological abnormalities may occur.

Diseases related to the spine include scoliosis, lordosis (kyphosis) dislocation, spinal dislocation, fracture, spondylolysis, and the like. Among the methods of treating such spinal diseases, chiropractic is a surgery to connect two or more adjacent vertebral bodies into one by physically fixing a bone that causes instability.

Surgical instruments used in chiropractic include pedicle screws. The pedicle screw is connected to each other through a connecting rod in a state of being embedded in the vertebral body so that the distance between adjacent bones is maintained. Chiropractic using pedicle screws is essential for decompression and fusion of the spine.

However, in the case of a patient with osteoporosis, the effect of chiropractic may be relatively small, and in severe cases, correction may fail. The treatment effect using pedicle screws varies greatly depending on the basic condition of the bone.

Osteoporosis is the most common metabolic bone disease in the elderly. Recently, as the elderly population increases, the frequency of diagnosis of spine-related diseases such as degenerative spinal stenosis, spondylolisthesis, thoracolumbar fracture, etc. in the state of osteoporosis increases. are doing

As mentioned above, in the case of an elderly person with osteoporosis, surgery using a general pedicle screw may have little effect or the surgery itself may be impossible. The reason is that the bones themselves do not adhere well, and the bones can break when tightening the screws.

A pedicle screw having a structure suitable for patients suffering from osteoporosis is required, and among them, the surface of the screw is coated with fine titanium powder or phosphate hydroxide.

However, although the surface area of the screw to which the titanium powder is fixed increases, when the screw is driven into the bone and fixed, the titanium powder falls into the blood vessel or penetrates into the nerve tissue, causing a bigger problem. In addition, when a screw coated with hydroxyphosphate is inserted, the hydroxyphosphate is melted and may cause inflammation around the screw.

As a background art related to pedicle screws, a pedicle screw module has been disclosed through Korean Patent Registration No. 10-0994184. The disclosed pedicle screw includes: a pedicle screw having a head portion having a tool groove formed at one end of the body and a screw portion inserted into the pedicle at the other end of the body; A U-shaped receiving groove of a predetermined depth for accommodating a rod is formed on the upper part of the body, a female screw part is formed along the inner circumferential surface of the receiving groove, and is connected to the receiving groove at the lower part of the body and is formed through the body, and the head a rod fixing part having a connector formed so that the part can be inserted and connected to the pedicle screw; A male screw part is formed along the outer diameter of the body so that it can be fastened with an elastic washer inserted into the connector of the rod fixing part through the receiving groove and a bolt having a wrench groove formed in the center of the body so that it can be fastened with the female screw part. When the rod is seated in the receiving groove and the bolt is tightened, it is closely attached to the rod and fixes the rod, the pedicle screw, and the rod fixing part to each other, and at the same time, the vertebral bones fixed to the rod and the pedicle screw module can have a certain range of mobility. is configured so that

Korean Registered Patent Publication No. 10-0994184 (Pedicle screw module) Korean Patent Publication No. 10-2020-0064601 (pedicle screw with improved fixation force) Korean Patent Registration No. 10-0895243 (buffer-type pedicle screw)

The present invention has been created to solve the above problems, and can greatly increase the success rate of spine fixation in patients with severe osteoporosis, enable rapid recovery due to rapid bone union, and provide stable stability through three-dimensional combination with surrounding bone tissue. An object of the present invention is to provide a bone cement injection type pedicle screw capable of maintaining a fusion state and a surgical tool for spinal fixation having the screw.

The present cement injection type pedicle screw of the present invention as a means of solving the problems for achieving the above object provides a fixing force to the vertebral body in a screwed state to the patient's vertebral body, and takes the form of a partial sphere, A head portion having a wrench groove open upward, and a vertebral body insertion portion integrally formed with the head portion and having spiral peaks and valleys formed on an outer circumferential surface thereof and screwed into the vertebral body, wherein the head portion and the vertebral body insertion portion have, It is opened to the upper part of the head through the wrench groove, and an internal passage is formed to receive bone cement injected from the outside, and the bone cement injected through the internal passage is discharged to the periphery of the vertebral body insertion part. A plurality of outflow holes are formed.

In addition, the inner passage; It is formed on the head portion and the central axis of the vertebral body insertion unit, has a predetermined inner diameter, and is open in the longitudinal direction of the vertebral body insertion unit.

In addition, the vertebral body insertion unit; It includes a first screw part having a relatively small pitch ridge, and a second screw part having a larger pitch than the ridge included in the first screw part.

Further, there are a plurality of main outlet holes formed along the trough of the second screw portion and a plurality of micro outlet holes formed along the trough portion of the first screw portion.

In addition, the inner diameter of the main outlet hole is 1/3 to 2/3 of the peak pitch.

In addition, the pedicle screw is manufactured through a 3D printing method using any one of titanium, stainless steel, and cobalt chrome as a raw material.

In addition, a surgical tool for spinal fixation as a solution to the problem for achieving the above object is to provide a fixing force to the vertebral body in a screwed state to the patient's vertebral body, takes the form of a partial sphere, and is open to the top. It includes a head portion having a wrench groove formed in the head portion, a vertebral body insertion portion integrally formed with the head portion, a spiral ridge portion and a valley portion formed on an outer circumferential surface, and screwed into the vertebral body, wherein a wrench groove is formed inside the head portion and the vertebral body insertion portion. It passes through and is open to the upper part of the head, and an internal passage is formed to receive bone cement injected from the outside, and in the bone part, a plurality of outflows for discharging bone cement injected into the internal passage to the peripheral direction of the vertebral body insertion part A pedicle screw in which a hole is formed; A fixing body having a cylindrical shape, receiving and supporting the head of the pedicle screw and having a U-shaped support groove open upward to accommodate a connecting rod crossing the top of the head, and the fixing body integrally formed an open housing having a pair of extension support portions that extend linearly parallel to each other and provide a space portion therebetween; It is mounted on the open housing and includes a bone cement injector for pressing bone cement into the inner passage of the pedicle screw.

And, the inner passage; It is formed on the head portion and the central axis of the vertebral body insertion unit, has a predetermined inner diameter, and is open in the longitudinal direction of the vertebral body insertion unit.

In addition, the vertebral body insertion unit; It includes a first screw part having a relatively small pitch ridge, and a second screw part having a larger pitch than the ridge included in the first screw part.

In addition, the outflow hole; It consists of a plurality of main outlet holes formed along the trough of the second screw portion and a plurality of micro outlet holes formed along the trough portion of the first screw portion.

In addition, the inner diameter of the main outlet hole is 1/3 to 2/3 of the peak pitch.

In addition, the pedicle screw is manufactured through a 3D printing method using any one of titanium, stainless steel, and cobalt chrome as a raw material.

The bone cement injection-type pedicle screw of the present invention constructed as described above, while inserted into the vertebral body, ejects the bone cement injected from the outside to the surroundings to reinforce the strength of the vertebral body, so the success rate of spinal fixation in patients with severe osteoporosis. It can significantly increase the rate of bone union, enabling rapid recovery.

In addition, it has a porous structure using 3D printing technology, so it can maintain a stable fusion state through three-dimensional bonding with surrounding bone tissue.

1 is a perspective view of a surgical tool for spinal fixation according to an embodiment of the present invention.
Figure 2 is an exploded perspective view of the surgical tool shown in Figure 1;
Figure 3 is a cross-sectional view for explaining the internal structure of the surgical tool of Figure 1.
Figure 4 is a view for explaining a method of using a surgical tool for spinal fixation according to an embodiment of the present invention.
5 and 6 are views for explaining a method of using the surgical tool for spinal fixation shown in FIG.

Hereinafter, one embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

The pedicle screw of the present invention not only provides bonding force but also serves as an inlet tube for introducing bone cement. It is possible to inject bone cement into the lower third vertebral body through the pedicle screw as a connecting passage. These pedicle screws provide a fixing force to the vertebral body in a screwed state to the patient's vertebral body, take the form of a partial sphere, and have a head portion having a wrench groove open to the top and integrally with the head portion. and a vertebral body insertion unit having a spiral peak and valley formed on the outer circumferential surface and screwed into the vertebral body, and inside the head and vertebral body insertion units, the inside of the head unit and the vertebral body insertion unit is opened to the upper part of the head unit through a wrench groove, and the bone inserted from the outside is formed. It has a basic configuration in which an internal passage for accepting cement is formed, and a plurality of outflow holes are formed in the bone portion to discharge bone cement injected into the internal passage toward the periphery of the vertebral body insertion part.

In addition, the surgical tool for spinal fixation of the present invention provides a fixing force to the patient's vertebral body in a state of being screwed to the vertebral body, takes the form of a partial sphere, and includes a head portion having a wrench groove open to the top; A vertebral body insertion portion integrally formed with the head portion, having a spiral peak portion and a valley portion formed on an outer circumferential surface, and screwed into the vertebral body; An internal passage for accepting bone cement injected from the outside is formed, and a pedicle screw nail having a plurality of outlet holes formed in the bone portion to discharge the bone cement injected into the internal passage toward the periphery of the vertebral body insertion part. ; A fixing body having a cylindrical shape, receiving and supporting the head of the pedicle screw and having a U-shaped support groove open upward to accommodate a connecting rod crossing the top of the head, and the fixing body integrally formed an open housing having a pair of extension support portions that extend linearly parallel to each other and provide a space portion therebetween; It is mounted on the open housing and includes a bone cement injector for pressing bone cement into the inner passage of the pedicle screw.

1 is a perspective view of a surgical tool 10 for spinal fixation according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of the surgical tool. In addition, Figure 3 is a cross-sectional view for explaining the internal structure of the surgical tool for spinal fixation.

As shown, the surgical tool 10 for spinal fixation according to the present embodiment includes a pedicle screw 40, an open housing 20, an inner cap 30, and a bone cement injector (50 in FIG. 4). do.

The pedicle screw 40 is manufactured through a 3D printing method using any one of titanium, stainless steel, or cobalt chrome as a raw material, and as shown in FIG. Provides stability to the vertebral body. Of course, the pedicle screw 40 itself is integral.

The pedicle screw 40 includes a head portion 41 and a vertebral body insertion portion 43 .

The head portion 41 takes the shape of a partial sphere with a flat upper end and has a wrench groove 41a open upward. The wrench groove 41a is a hexagonal groove into which a hexagonal wrench is inserted. The pedicle screw 40 can be tightened or loosened using a hexagonal wrench.

The vertebral body insertion part 43 is a part completely inserted into the inside of the vertebral body 100, and has peaks 43a and valleys 43d on its outer circumferential surface. These ridges 43a and troughs 43d are like a general screw.

In addition, the vertebral body insertion part 43 includes a first screw part 40A and a second screw part 40B. The pitch of the peaks 43a included in the first screw portion 40A is narrower than the pitch of the peaks 43a of the second screw portion 40B. The meaning that the pitch is narrow means that the width of the trough 43d between the pitches is narrow.

In addition, a plurality of micro outlet holes 43b are formed in the valley of the first screw portion 40A, and a plurality of main outlet holes 43c are formed in the valley of the second screw portion 40B. The micro outlet hole 43b and the main outlet hole 43c are passages that open an inner passage 43e to be described later in the radial direction.

The inner diameter of the main outlet hole 43c is naturally larger than the inner diameter of the micro outlet hole 43b. The inner diameter of the main outlet hole 43c may be about 10 to 20 times the diameter of the micro outlet hole 43b. Most of this cement is discharged through the main outlet hole 43c.

If necessary, the surface of the valley of the first screw portion 40A may be rough. Since the pedicle screw 40 is manufactured by a 3D printing method, it is not difficult to adjust the roughness of the surface. In any case, by roughening the surface of the first screw portion 40A, adhesion with surrounding bone tissue can be more actively promoted.

An internal passage 43e is formed in the central axis of the pedicle screw 40. The inner passage 43e is a through hole having a certain inner diameter, and the upper end is opened upward through the wrench groove 41a, and the lower end is open downward through the end outlet 43f. In this description, the upper part is the part where the head part 41 is located, and the lower part means the end part of the second screw part 40B.

The inner passage 43e is a passage for accepting the bone cement pressurized from the bone cement injector 50, and is open laterally through the micro outlet hole 43b and the main outlet hole 43c. While moving through the inner passage 43e, this cement comes out through the micro outlet hole 43b and the main outlet hole 43c, and the rest goes through the end outlet 43f, and as shown in FIG. 6, the vertebral body insertion part ( 43) spread to the periphery. The bone cement discharged from the vertebral body insertion unit 43 permeates into the bone tissue of the vertebral body and fills the empty space to increase the bonding strength and strength of the bones.

As shown in FIGS. 2 and 3, the pedicle screw 40 having the above configuration is inserted into the space 20a of the open housing 20, and then the head 41 is attached to the open housing 20. It descends until it is caught in the hooking hole (23c) of the. The pedicle screw 40 is rotatable back and forth and left and right while being caught on the lower end of the open housing 20 .

The open housing 20 serves to guide the pedicle screws 40 in the direction of the vertebral body and support other surgical instruments required for surgery. A part of the open housing 20, that is, the extension support 21, is cut and discarded after the operation, and the fixing body 23 remains in the body together with the connecting rod (105 in FIG. 6) and the rod fixing screw 107 .

The open housing 20 includes a fixing body 23 and two extension support parts 21 . The fixing body part 23 is a substantially cylindrical member open to the top, and receives and supports the head part 41 of the pedicle screw. To this end, a locking hole 23c is formed at the lower end of the fixing body 23 . The locking hole 23c is a hole having an inner diameter smaller than the diameter of the head part 41, and supports the head part 41 so that it does not fall downward while passing the vertebral body insertion part 43 therethrough.

In addition, a support curved surface portion 25 is formed on the inner circumferential surface of the fixing body portion 23 . The support curved surface portion 25 is a support surface that faces the outer circumferential surface of the head portion 41 . The head part 41 interviews the support curved surface part 25 and is slidable. In addition, the fixing body 23 is provided with two support grooves 23a. The support groove 23a is a groove supporting a connecting rod (105 in FIG. 6) crossing the upper portion of the head portion 41 and has a U-shape that is open to the top.

The extension support portion 21 is a bar-shaped member integrally formed with the fixing body portion 23, and the two extend in a straight line parallel to each other and provide a space portion 20a therebetween. The extension support 21 takes the shape of a circular arc having a certain curvature in the longitudinal direction.

The extended support part 21 and the fixing body part 23 are partitioned by segmental grooves 22 . The segmental groove 22 is, for example, a portion that is cut when the extension support 21 is bent in the direction of the arrow s. After the spinal fixation surgery is completed, the extension support 21 is bent and cut, and the cut extension support 21 is discarded.

In addition, female screw parts 24 are formed on the inner circumferential surfaces of the extension support part 21 and the fixing body part 23 . The female screw part 24 is a part where the inner cap 30 and the surgical tool are screwed together.

As shown in FIG. 2, the inner cap 30 is a ring-shaped member having a male screw thread 31e formed on its outer circumferential surface, and presses the pedicle screw 40 downward while screwed to the female screw portion 24. The pedicle screw 40 can be more stably fixed using the inner cap 30 . Reference numeral 31a is a wrench holding groove.

Figure 4 is an overall perspective view of the surgical tool 10 for spinal fixation according to an embodiment of the present invention.

Referring to the drawings, it can be seen that the main cement injector 50 is mounted in the open housing 20. The bone cement injector 50 presses the bone cement supplied from the syringe 55 into the inner passage 43e of the pedicle screw 40, and as long as it can perform this function, what is the configuration of the injector itself? Anything can be different.

The present cement injector 50 in FIG. 4 includes a rotary cylinder 51, a piston 53, and a syringe 55.

The rotary cylinder 51 is a hollow case in which a male screw portion 51a is formed on the outer circumferential surface and is screwed into the open housing 20. Of course, the outlet (not shown) of the rotating cylinder 51 is connected to the inner passage 43e of the pedicle screw 40. The piston 53 enters the inside of the rotating cylinder 51 and extrudes the bone cement injected into the rotating cylinder 51 through the inner passage 43e.

5 and 6 are views for explaining a method of using the surgical tool for spinal fixation shown in FIG.

In order to drive the pedicle screw 40 into the vertebral body 100 and fix it, a space (in which the vertebral body insertion unit 43 is inserted) is secured in advance in the vertebral body 100 by using a drilling tool such as a medical drill.

When the space is secured, the open housing 20 and the hexagonal wrench are rotated together with the end of a hexagonal wrench (not shown) inserted into the wrench groove 41a, so that the pedicle screw 40 is the object of the vertebral body 100. get to the point

If the pedicle screw 40 is in place through the above process, remove the hexagonal wrench, mount the bone cement injector 50, and press the bone cement into the vertebral body insertion part 43. The press-fitted bone cement passes through the inner passage 43e and is disposed around through the main outlet hole 43c and the micro outlet hole 43b, and the remainder is discharged through the end outlet 43f. The discharged bone cement 103 is bonded to the surrounding bone tissue to increase the bonding strength and strength of the bone.

If the injection of the main cement is completed, after the main cement injector 50 is separated, the connecting rod 105 is passed through the support groove 23a, and the connecting rod 105 is pressed downward using the rod fixing screw 107. do. The connecting rod 105 is fixed by another rod fixing screw 107 in a state where it spans the support groove 23a of the other fixing body portion 23 adjacent thereto. The distance between the plurality of adjacent fixing body parts 23 is maintained by the connecting rod 105 . Since this surgical method itself is general, further description will be omitted.

If the above process is completed, the extension support 21 is bent and cut, and then the operation is completed.

In the above, the present invention has been described in detail through specific embodiments, but the present invention is not limited to the above embodiments, and various modifications are possible by those skilled in the art within the scope of the technical idea of the present invention.

10: surgical tool 20: open housing 20a: space
21: extended support 22: segmented groove 23: fixed body
23a: support groove 23c: locking hole 24: female thread
25: support curved surface portion 30: inner cap 31a: wrench hooking groove
31e: male thread 40: pedicle screw 40A: first screw
40B: second screw portion 41: head portion 41a: wrench groove
43: vertebral body insertion part 43a: mountain part 43b: fine outflow hole
43c: Main outflow hole 43d: Valley 43e: Internal passage
43f: end outlet 50: main cement injector 51: rotary cylinder
51a: Male screw part 53: Piston 55: Syringe
100: vertebral body 103: bone cement 105: connecting rod
107: rod fixing screw

Claims (10)

delete delete delete delete delete It provides a fixing force to the vertebral body in a screwed state to the patient's vertebral body, takes the form of a partial sphere, and has a head portion with a wrench groove open to the top, and a spiral peak portion formed integrally with the head portion and on the outer circumferential surface. And a vertebral body insertion portion formed with a bone portion and screwed into the vertebral body, and inside the head portion and the vertebral body insertion portion, through a wrench groove, an upper part of the head portion is opened, and an inside that accepts bone cement injected from the outside a pedicle screw in which a passage is formed and a plurality of outflow holes are formed in the bone part to discharge the bone cement injected into the inner passage toward the periphery of the vertebral body insertion part;
A fixing body having a cylindrical shape, receiving and supporting the head of the pedicle screw and having a U-shaped support groove open upward to accommodate a connecting rod crossing the top of the head, and the fixing body integrally formed An open housing having a pair of extension support portions that extend linearly in parallel with each other and provide a space therebetween, and a female screw portion formed on an inner circumferential surface of the extension support portion and the fixing body portion;
an inner cap for stably fixing the pedicle screw by downwardly pressing the pedicle screw in a state of being screwed into the female screw part as a ring-shaped member having a male screw thread formed on an outer circumferential surface thereof;
It is mounted on the open housing and includes a bone cement injector for pressing bone cement into the inner passage of the pedicle screw,
The inner passage is formed in the head portion and the central axis of the vertebral body insertion unit, has a predetermined inner diameter, and is open in the longitudinal direction of the vertebral body insertion unit,
The vertebral body insertion unit includes a first screw portion in which a peak having a relatively small pitch is located, and a second screw portion having a larger pitch than the peak included in the first screw portion;
The outlet holes are a plurality of main outlet holes formed along the valley of the second screw portion and a plurality of micro outlet holes formed along the valley of the first screw portion.
Surgical tools for spinal fixation. delete delete According to claim 6,
The inner diameter of the main outlet hole is 1/3 to 2/3 of the ridge pitch,
Surgical tools for spinal fixation. According to claim 6,
The pedicle screw,
Manufactured through 3D printing using either titanium, stainless steel, or cobalt chrome as a raw material,
Surgical tools for spinal fixation.

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