KR102545243B1 - Porous pedicle screw and Surgical tool for spinal fixation with the screw - Google Patents

Abstract

The present invention relates to a porous pedicle screw and a surgical tool for spinal fixation having the screw. The pedicle screw provides a fixing force to the vertebral body while being screwed to the patient's vertebral body. A vertebral body insert is embedded and fixed within the vertebral body insertion unit, and a bone portion between peaks of screw threads formed in the vertebral body insertion unit has a porous structure.
The porous pedicle screw of the present invention made as described above can greatly increase the success rate of spine fixation in patients with severe osteoporosis by minimizing the burden on the bone during implantation, and enables rapid recovery due to rapid bone union. In addition, it has a partially porous structure using 3D printing technology, and maintains a stable fusion state through three-dimensional bonding with surrounding bone tissue.

Description

Porous pedicle screw and surgical tool for spinal fixation with the screw

The present invention relates to a surgical tool used in spinal fixation, and more particularly, to a porous pedicle screw having a partially porous structure, having good adhesion to bone tissue and minimizing the burden on bone during installation, and the above It relates to a surgical tool for spinal fixation having a screw.

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. It is an object of the present invention to provide a porous pedicle screw that maintains a fusion state and a surgical tool for spinal fixation having the screw.

The porous 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 has a head in the form of a sphere and having a wrench groove. and a vertebral body insertion unit integrally formed with the head unit, having a spiral thread, and inserted and fixed into the vertebral body, wherein a bone portion between peaks of the screw thread formed in the vertebral body insertion unit has a porous structure.

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, the surface roughness of the valley portion of the vertebral body insertion portion is relatively higher than that of the peak portion.

In addition, a through passage having a predetermined inner diameter is formed in the central axis of the pedicle screw, and a plurality of fusion passages that open the through passage in the lateral direction are formed in the bone portion.

In addition, a cement coating layer is laminated on the inner circumferential surface of the through passage.

In addition, the surgical tool for spinal fixation of the present invention 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, and takes the form of a sphere and has a wrench groove. It includes a head portion having a head portion, and a vertebral body insertion portion integrally formed with the head portion and having a spiral screw thread, which is embedded and fixed in the vertebral body, and a bone portion between peaks of the screw thread formed in the vertebral body insertion portion has a porous structure and a porous pedicle screw ; 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 , and includes an open housing provided with a pair of extension support portions that extend linearly in parallel with each other and provide a space portion therebetween.

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, the surface roughness of the valley portion of the vertebral body insertion portion is relatively higher than that of the peak portion.

In addition, a through passage having a predetermined inner diameter is formed in the central axis of the pedicle screw, and a plurality of fusion passages that open the through passage in the lateral direction are formed in the bone portion.

In addition, a cement coating layer is laminated on the inner circumferential surface of the through passage.

The porous pedicle screw of the present invention made as described above can greatly increase the success rate of spine fixation in patients with severe osteoporosis by minimizing the burden on the bone during implantation, and enables rapid recovery due to rapid bone union.

In addition, it has a partially porous structure using 3D printing technology, and maintains 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 a cross-sectional view showing the internal structure of the surgical tool shown in Figure 1;
3 and 4 are views for explaining a method of using the surgical tool shown in FIG.
5 is a cross-sectional view showing a modified example of the pedicle screw of FIG. 1;

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

In the pedicle screw of the present invention, the bone part constituting the screw has a porous structure, enabling more reliable fusion. 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 sphere, have a head portion having a wrench groove, and integrally form the head portion and have a helical screw thread. A vertebral body insert is embedded and fixed in the vertebral body, and a bone portion between peaks of a screw thread formed in the vertebral body insertion unit has a porous structure.

In addition, the surgical tool for spinal fixation of the present invention provides a fixing force to the vertebral body in a screwed state to the patient's vertebral body, and has a spherical head portion having a wrench groove and integrally with the head portion. A porous pedicle screw having a helical screw thread, including a vertebral body insertion unit inserted and fixed in the vertebral body, and a bone portion between peaks of the screw thread formed in the vertebral body insertion unit having a porous structure; 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 , and includes an open housing provided with a pair of extension support portions that extend linearly in parallel with each other and provide a space portion therebetween.

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 a cross-sectional view showing the internal structure of the surgical tool shown in FIG.

As shown, the surgical tool 10 for spinal fixation according to the present embodiment includes a pedicle screw 40, an inner cap 30, an open housing 20, and a manipulator 61.

The pedicle screw 40 is manufactured through a 3D printing method using any one of titanium, stainless steel, and cobalt chrome as a raw material, and is integrally formed as a whole. As shown in FIG. 4 , the pedicle screw 40 provides a fixing force to the vertebral body 100 while being driven into and fixed to the vertebral body 100 .

As is well known, spinal fixation is to prevent movement of the vertebral body by driving pedicle screws into several vertebral bodies and connecting each screw using a connecting rod. The pedicle screw 40 is driven into and fixed to the vertebral body, and a fixing body 23 to be described later connects the connecting rod and the pedicle screw.

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 (not shown) is inserted. The hexagonal wrench is provided at the end of the manipulator (61 in FIG. 3), and is inserted into the wrench groove 41a as the manipulator 61 is coupled to the open housing 20.

The vertebral body insertion portion 43 is a screw integrally formed with the head portion 41 and having a helical thread on the outer periphery. The vertebral body insertion portion 43 is composed of a porous body 43m having a through passage 43e of a certain inner diameter, and a ridge 43a spirally formed on the outer circumferential surface of the porous body 43m. The porous body 43m takes the form of, for example, a pipe whose outer diameter decreases toward the bottom. The through passage 43e is a hole through which the pedicle screw 40 passes in the longitudinal direction.

In addition, a plurality of fusion passages 43q are formed in the porous body 43m. The fusion passage 43q is located in the trough 43k between the ridges 43a and opens the through passage 43e to the side. The fusion passage 43q reinforces the fixing force of the vertebral body insert 43 to the bone tissue inside the vertebral body. In addition, as shown in FIG. 5, when the bone cement coating layer 43p is coated on the inner circumferential surface of the through passage 43e, it also serves as a connecting passage connecting bone tissue and bone cement.

The porous body 43m has a network structure of an open cell structure and has numerous air gaps therein. The air gap serves to greatly increase the fusion rate between the bone tissue inside the vertebral body and the vertebral body insertion portion 43. Since the porous body 43m is exposed between the crests 43a, the troughs 43k between the crests of the screw thread have a porous structure.

The surface roughness of the valley portion 43k is relatively higher than that of the peak portion 43a. In other words, the surface of the peak portion 43a is smooth, and the surface of the valley portion 43k is rough (since it has a porous structure as described above). It is natural that the tissue density of the peak portion 43a is higher than that of the valley portion 43k. In this way, since the surface of the bone portion 43k is rough, adhesion between the pedicle screw 40 and the surrounding bone tissue can be promoted more actively.

In addition, since the surface of the shank portion 43a is smooth, excessive torque is not applied when the pedicle screw 40 is screwed together. Excessive torque generates heat, which can cause bone necrosis.

After the pedicle screw 40 having the above configuration is inserted into the space portion 20a of the open housing 20, the head portion 41 descends until it is caught in the locking hole 23c of the open housing 20. do. 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 screw 40 in the direction of the vertebral body and support the manipulator 61 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. 4) 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 portion 41, and supports the head portion 41 so that it does not fall downward while passing the vertebral body insertion portion 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. 4) crossing the upper portion of the head portion 41 and has a U-shaped 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 part that is cut when pulling the extension support 21 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 portion 24 is a portion where the inner cap 30 and the surgical manipulator 61 are screwed together. That is, it engages with the male screw portion 61b formed on the outer circumferential surface of the manipulator 61.

The inner cap 30 is a ring-shaped member in which a male screw thread is formed on an outer circumferential surface and presses the pedicle screw 40 downward in a screwed state to the female screw portion 24. The pedicle screw 40 can be more stably fixed using the inner cap 30 .

The manipulator 61 is connected to the wrench groove 41a in a state of being mounted on the open housing 20, rotates together with the open housing 20, and turns the pedicle screw 40. As the open housing 20 and the manipulator 61 rotate, the pedicle screw 40 enters the vertebral body 100. The configuration of the manipulator 61 itself can be varied as long as it can perform these functions.

3 and 4 are views for explaining a method of using the surgical tool 10 shown in FIG.

First, 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 previously secured in the vertebral body 100 using a drilling tool such as a medical drill.

When the space is secured, with the manipulator 61 inserted into the open housing 20, the open housing 20 and the manipulator 61 are rotated together so that the pedicle screw 40 reaches the destination point of the vertebral body 100. make it reach

If the pedicle screw 40 is in place through the above process, take out the manipulator 61, pass the connecting rod 105 through the support groove 23a, and use the rod fixing screw 107 to connect the connecting rod 105. ) is pressed down. 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.

5 is a cross-sectional view showing a modified example of the pedicle screw 40 shown in FIG.

Referring to the drawings, it can be seen that the bone cement coating layer 43p is laminated on the inner circumferential surface of the through passage 43e of the pedicle screw 40. The cement coating layer 43p is formed by applying bone cement to the inner circumferential surface of the through passage 43e, and is open to the outside through the fusion passage 43q. The bone tissue surrounding the bone portion 43k may adhere to the bone cement coating layer 43p through the fusion passage 43q. By applying this cement coating layer 43p, the fixation of the pedicle screw 40 is maintained more stably.

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 30: inner cap 40: pedicle screw
41: head part 41a: wrench groove 43: vertebral body insertion part
43a: Mountain part 43e: Through passage 43k: Valley part
43m: porous body 43p: bone cement coating layer 43q: union passage
50: this cement injector 51: rotary cylinder 51a: male thread
51c: finger support part 53: piston 53a: syringe coupling part
53c: handle 55: syringe 55a: outlet
61: manipulator 61a: male screw part 100: vertebral body
105: connecting rod 107: rod fixing screw

Claims (10)

As providing a fixing force to the vertebral body in a screwed state to the patient's vertebral body,
It includes a spherical head portion having a wrench groove, and a vertebral body insertion portion integrally formed with the head portion and having a helical screw thread, which is embedded and fixed in the vertebral body,
The vertebral body insertion unit consists of a porous body having a through passage of a predetermined inner diameter penetrated in the longitudinal direction of the pedicle screw, and a ridge formed in a spiral shape on the outer circumferential surface of the porous body,
The porous pedicle screw, characterized in that the porous body forms a network structure of an open cell structure to increase the union rate of the bone tissue inside the vertebral body and the vertebral body insertion part, and includes countless voids therein. delete According to claim 1,
The surface roughness of the bone part of the vertebral body insertion part is relatively higher than that of the peak part,
Porous pedicle screws. According to claim 1,
A through passage having a certain inner diameter is formed in the central axis of the pedicle screw,
A plurality of fusion passages are formed in the bone portion of the vertebral body insertion portion to open the through passage in the lateral direction.
Porous pedicle screws. According to claim 4,
The cement coating layer is laminated on the inner circumferential surface of the through passage,
Porous pedicle screws. A vertebral body that is screwed to the patient's vertebral body and provides a fixing force to the vertebral body. An insertion portion, wherein the vertebral body insertion portion includes a porous body having a through passage of a predetermined inner diameter penetrated in the longitudinal direction of a pedicle screw, and a ridge formed in a spiral shape on an outer circumferential surface of the porous body,
The porous body forms a network structure of an open cell structure to increase the union rate of the bone tissue inside the vertebral body and the vertebral body insertion portion, and includes a porous pedicle screw having numerous pores therein; and
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 provided with a pair of extension support portions extending straight in parallel to each other and providing a space portion therebetween;
A surgical tool for spinal fixation comprising a. delete According to claim 6,
The surface roughness of the bone part of the vertebral body insertion part is relatively higher than that of the peak part,
Surgical tools for spinal fixation. According to claim 6,
A through passage having a certain inner diameter is formed in the central axis of the pedicle screw,
A plurality of fusion passages are formed in the bone portion of the vertebral body insertion portion to open the through passage in the lateral direction.
Surgical tools for spinal fixation. According to claim 9,
The cement coating layer is laminated on the inner circumferential surface of the through passage,
Surgical tools for spinal fixation.

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