KR100935232B1 - A spinal screw for the osteoporotic - Google Patents

Abstract

PURPOSE: A pedicle screw is provided to be fixed to a backbone of an osteoporosis patient by increasing a contact dimension between a screw thread and a cancellous bone. CONSTITUTION: A head part(110) has a receiving groove and a female screw part. The receiving groove is formed into U shape in order to receive a rod. The female screw part is formed according to an inner circumference of the receiving groove. A screw part(120) includes a first core part(121), a second core part(123), a third core part(125), and a screw thread(127). The second core part is formed into a cylinder type. The first core part and the third core part are formed into a cone type. The screw thread is formed into a cylinder type according to outer diameters of the first core part and the second core part.

Description

A spinal screw for the osteoporotic

The present invention relates to a pedicle screw for osteoporosis patients, and more particularly, to form a cone type (cone type) that narrows rapidly toward the end of the core portion of the screw, the thread is formed into a cylinder type (cylinder type) In addition, the present invention relates to pedicle screws for osteoporosis patients that can be firmly fixed to the vertebrae of osteoporosis patients by increasing the contact surface with the threads in the lowered bone density.

In general, the spine is usually composed of 24 bones (except the sacrum), and between each bone is connected by a joint called a disc to support the spine and is configured to buffer. Through this structure, the spine not only helps maintain the human posture, but also serves as the basis for exercise and protects the internal organs.

However, if an abnormal posture is maintained for a long time, or a degenerative disease caused by aging or an external shock, the disc of the spinal bone node may be damaged and the spinal disc disease may occur. The nerves that are connected to the squeezing will cause pain.

Therefore, in the case of severe disc damage between vertebral discs among patients with vertebral discs, the discs of the damaged areas are removed so that the damaged parts of the vertebral bones are not pressed or pressed, and the artificial aid (cage) made of hollow metal or plastic material is removed. Fill the bone fragments and insert them into the removed disc. Then, insert and fix the pedicle screw to the vertebral bones above and below the damaged disc. Connect the rod to the pedicle screw to secure the distance between the vertebral bones. It is done in such a way as to be done.

The pedicle screw module used in such a spinal surgery, the pedicle screw is usually composed of a screw portion and the head portion, and the set screw is inserted into the head portion to fix the rod, the spine of the upper and lower portions of the diseased disk After being inserted and fixed in the bone, the rod is inserted into the head portion of the pedicle screw, and then the rod is fixed using a set screw.

On the other hand, human bones, for example vertebrae, are typically composed of a rigid cortical bone and a porous cancellous bone inside the cortical bone, and the spongy bone is a vertebral body. Occupies most of it.

However, in the case of osteoporosis patients, such as calcium (Ca) constituting the bone is pulled out and the bone density is low, the fracture is easy to occur, in particular, the bone density of the spongy bone is further lowered, the size of the pores becomes larger. As a result, when pedicle screws are inserted into the vertebrae of such osteoporosis patients during vertebral surgery, the pedicle screws are not firmly fixed in the spongy bone, so that the pedicle screws are likely to loosen or detach from the vertebrae after surgery. Done.

Therefore, in order to solve the above problems, the present invention is formed in a cone type that narrows sharply toward the distal end of the core portion of the pedicle screw, and by forming a screw thread in the cylinder type, by increasing the area in which the screw contacts the sponge bone It is an object of the present invention to provide a pedicle screw for osteoporosis patients that can be firmly fixed in the vertebrae of osteoporosis patients with low bone density.

Pedicle screw for osteoporosis patients according to the present invention, the U-shaped receiving groove of a predetermined depth for accommodating the rod is formed, the head portion is formed along the inner peripheral surface of the receiving groove; And a cone type first core portion connected to the lower portion of the head portion and gradually decreasing in outer diameter, a second core portion of a cylinder type connected to the first core portion and having a constant outer diameter, and the second core portion. And a screw part including a cone-type third core part connected to the outer diameter of the outer diameter and a thread type of a cylinder type formed along the outer diameter of the first core part and the second core part. It is done.

According to the pedicle screw for osteoporosis patients according to the present invention, since the contact area in the cavernous bone including the cortical bone of the vertebrae can be increased to improve the fixing force, the screw can be prevented from loosening or deviating from the vertebrae. have.

EMBODIMENT OF THE INVENTION Hereinafter, although the Example of this invention is described in detail, this invention is not limited to a following example, unless the summary is exceeded.

1 is a front view showing the configuration of the pedicle screw for osteoporosis patients according to the present invention, Figure 2 is a cross-sectional view showing the configuration of the pedicle screw shown in FIG.

1 and 2, the pedicle screw for osteoporosis patients according to the present invention, a U-shaped receiving groove 112 of a predetermined depth for receiving a rod (not shown) is formed and the receiving groove ( Cone-type first core parts 121 and A connected to the head part 110 and the head part 110 in which the female thread part 114 is formed along the inner circumferential surface of 112 are gradually reduced in outer diameter, Cone type which is connected to the first core parts 121 and A and has a cylinder-shaped second core part 123 and B, and is connected to the second core parts 123 and B and whose outer diameter gradually becomes smaller. It comprises a core portion consisting of a third core portion (125, C) of the screw portion 120 consisting of a screw thread 127 is formed along the outer diameter of the core portion.

The head portion 110 constituting the pedicle screw may be formed integrally with the screw portion 120, or may be connected by inserting one end of the screw portion 120 into the body in a state separated from each other with the screw portion 120, In the latter case, the head 110 is rotatable around the screw 120 to facilitate rod connection.

The screw 120 is formed in a cone type of which the diameter decreases toward the distal end so that the screw 120 can be stably fixed when inserted into the vertebra of the osteoporosis patient, and the thread is formed in a cylinder type having a constant diameter as a whole.

Looking in more detail, the core portion is connected to the head portion 120, the first core portion (121, A) is formed in a cone type, the second core is connected to the first core portion (121, A) is formed in a cylinder type It is composed of the third core portion (125, C) connected to the core portion (123, B) and the second core portion (123, B) formed in a cone type, the first core portion (121, A), the second The core parts 123 and B and the third core parts 125 and C are configured to have a length ratio of 35 to 40: 3 to 5: 2 to 3, respectively.

The first core portion 121, A is formed in a cone type having a sharp inclination to the connection portion with the second core portion 123, B, and when inserted into the vertebrae of the patient, the first core portion 121, A is positioned in the cortical bone and the cancellous bone of the pedicle. do. The first core parts 121 and A may be divided into two stages again. The upper end part A-1, which is connected to the head part 110 and is not formed with a thread, and the lower end part where the thread 127 is formed ( A-2).

The upper end portion A-1 of the first core portion 121 corresponds to 7% to 8% of the total length of the first core portion 121, and inserts a screw into the vertebra of the patient, or between the vertebrae after insertion. It has a diameter sufficient to prevent a phenomenon such as broken by the pressure applied to adjust the distance of.

In addition, when the lower end of the first core portion 121 is inserted into the vertebrae of the patient, the lower end portion is simultaneously positioned in the cortical bone and the cancellous bone, and is formed in a cone type in which the diameter rapidly decreases toward the second core portion 123. The cylinder type thread 127 is formed along the outer diameter of the first core portion 121, and the height of the thread 127 is formed to increase gradually toward the lower end of the thread portion 120, so that the cortical bone as well as the sponge bone By increasing the contact area, it can be stably fixed in the vertebrae of osteoporosis patients. At this time, since the bone of the osteoporosis patient has a lower bone density and easier insertion of the screw than the normal patient, even if the diameter of the first core part 121 is drastically reduced, the first core part 121 of the screw is less likely to be broken.

The second core portion 123 is formed in a cylinder type having a constant diameter R ', and is positioned in the sponge bone of the vertebra when inserted into the vertebra of the patient. The diameter R ′ of the second core part 123 is formed to be 35% to 45% of the diameter R of the thread 127.

At this time, if the second core portion 123 is also formed in a cone type, although the contact area for contacting the cancellous bone in the vertebrae may be wider, the screw must be passed through the rigid cortical bone when inserted into the vertebrae of the patient. A phenomenon such as breakage may occur due to the pressure applied for insertion, and in order to maintain the minimum strength, it is preferable that the cylinder is formed in a cylinder type having a constant diameter R '.

The third core portion 125 is formed in a cone type that gradually decreases in diameter toward the distal end, and the thread 127 formed along the outer diameter of the third core portion 125 is also formed in a cone type, thereby extending to the vertebrae. Facilitate pedicle screw insertion.

The thread 127 formed along the outer diameters of the first core part 121, the second core part 123, and the third core part 125 has a pitch P of 3 mm to 3.5 mm. The first core portion 121 and the second core portion 123 are formed in a cylinder type having a constant diameter to form a shape in which the height of the thread 127 is gradually increased, thereby increasing the contact area in the cortical bone and the cancellous bone, especially the cancellous bone. As a result, the pedicle screw can be more firmly fixed to the vertebra, so that the fixation force can be improved even in the vertebra of the patient whose bone density is lowered due to osteoporosis, and the diameter is reduced in the third core portion 125. It is formed into a cone type to facilitate insertion into the vertebrae.

3 is a view showing a state in which the pedicle screw for the osteoporosis patient according to the present invention inserted into the vertebrae of the patient.

Referring to Figure 3, it shows a state in which the pedicle screw is inserted into the vertebrae, the first core portion 121 is located in the cortical bone 310 and the cancellous bone 320 constituting the outside of the vertebrae, the second It can be seen that the core part 123 and the third core part 125 are located in the sponge bone 320. At this time, the height of the screw thread 127 formed in the core portion is formed in a shape that becomes higher toward the end of the screw portion 120, so that the contact area with the porous sponge bone 320 is increased, so the pedicle screw after the spine surgery sponge bone 320 It can be prevented from loosening or leaving inside.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

1 is a front view showing the configuration of a pedicle screw for osteoporosis patients according to the present invention.

Figure 2 is a cross-sectional view showing the configuration of the pedicle screw shown in FIG.

3 is a view showing a state in which the pedicle screw for the osteoporosis patient according to the present invention inserted into the vertebrae of the patient.

<Description of main parts of drawing>

110: head portion 112: receiving groove

114: female thread portion 120: screw portion

121: first core part 123: second core part

125: third core portion 127: thread

310: cortical bone 320: cancellous bone (cancellous bone)

Claims (6)

A head portion having a U-shaped accommodating groove having a predetermined depth for accommodating the rod, and having a female screw portion formed along an inner circumferential surface of the accommodating groove; And A first core portion of a cone type connected to the lower portion of the head and gradually decreasing in outer diameter, a second core portion of a cylinder type connected to the first core portion and having a constant outer diameter, and connected to the second core portion And a threaded portion including a third core portion of a cone type, the outer diameter of which is gradually reduced, and a cylinder type thread formed along the outer diameters of the first core portion and the second core portion. The first core portion 121 corresponds to 7% to 8% of the total length of the first core portion 121 and is connected to the head portion 110 so that no thread is formed and an upper end portion A-1 and a screw thread ( 127 is divided into the lower end (A-2) is formed, The first core portion, the second core portion and the third core portion are each composed of a length ratio of 35 to 40: 3 to 5: 2: 2-3, The diameter (R ') of the second core portion is formed to be 35% to 45% of the thread diameter (R), The screw thread is a pedicle screw for osteoporosis patients, characterized in that formed in a pitch of 3mm to 3.5mm. The method of claim 1, When the pedicle screw is inserted into the vertebrae of the patient, The first core portion, Located in the cortical and cavernous bones of the vertebrae, The second core portion and the third core portion, Pedicle screw for osteoporosis patients, characterized in that located in the spongy bone of the vertebrae. delete delete delete The method of claim 1, In the outer diameter of the third core portion, A pedicle screw for osteoporosis patients, characterized in that the diameter of the cone-type thread gradually decreases.

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