KR101964862B1 - Artificial disc for cervical vertebrae - Google Patents

Abstract

The present invention provides an artificial disc for a cervical vertebra comprising an upper plate 100, a lower plate 200, and an elastic member 300 provided between the upper plate and the lower plate. The artificial disc comprises a dome- A first groove (125) for receiving an upper portion of the elastic member; A second groove (213) formed on an upper surface of the lower plate to receive a lower portion of the elastic member; And a contact surface (340) formed on an outer rim of the bottom surface of the elastic member and contacting the bottom of the second groove (213), wherein the bottom surface of the elastic member has a contact surface contacting the bottom of the second groove, And a non-contact surface which is recessed inwardly and does not contact the bottom of the second groove, thereby absorbing a load or an impact applied to the vertebrae.
The artificial disk for the spine of the present invention can easily assemble the upper plate and the lower plate and perform the spinal surgery, and it is possible to disperse the human body load acting in the longitudinal direction due to the upper surface structure of the lower groove and the lower plate of the elastic member. And the elastic member of the artificial disk polymer material can absorb the load, so that the effect of absorbing and alleviating the load and shock acting on the cervical vertebrae can be obtained, and also the proper distribution of the load acting in the longitudinal direction of the human body The effect of preventing rapid degeneration of adjacent segments occurs.

Description

Artificial disc for cervical spine {ARTIFICIAL DISC FOR CERVICAL VERTEBRAE}

The present invention relates to an artificial disc for a cervical vertebra, and more particularly, to a dome-shaped elastic member disposed between an upper plate and a lower plate, wherein a concave portion is formed on a corresponding contact surface of the lower plate and the elastic member, And to prolong the life of the artificial disk.

 Discs that connect the vertebrae to each other in the neck or waist are degenerated as the age increases and the elasticity is lowered and the water content is decreased to cause wear or cracking of the disc, If the disc's function is lost, it will cause pain, and if it progresses further, the fiber will be severely stretched or ruptured, causing pain to occur in the pelvis and legs by pressing the nerve root located in the back, The spine deforms as the bone sinks, resulting in various diseases related to the spine.

Conventional artificial discs for vertebrae are very complicated and difficult to manufacture, and the efficiency of the operation is greatly reduced, and the load and shock can not be smoothly buffered and the life is shortened even after the operation.

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Patent No. 10-0948420 (Notification date: Mar. 19, 2010)

In order to solve the above problems, the present invention has an upper member and a lower member formed in a predetermined shape so as to be positioned between the cervical vertebrae and an elastic member having a high elasticity between the upper member and the lower member, It is an object of the present invention to provide an artificial disc for a cervical vertebra that can improve the efficiency and productivity of a surgical procedure and secure the fluidity of the vertebrae, thereby improving mobility and absorbing and alleviating a load or an impact.

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The present invention provides an artificial disc for a cervical vertebra comprising an upper plate, a lower plate and an elastic member, the artificial disc comprising: a first groove (125) formed in a dome shape at a bottom surface of the upper plate to receive an upper portion of the elastic member; A circular second groove (213) formed on an upper surface of the lower plate to receive a lower portion of the elastic member; A recess (215) having a dome shape downwardly depressed in the second groove of the lower plate and not contacting the bottom surface of the elastic member; A plurality of upper slots formed laterally on an upper surface of the upper plate to prevent forward disengagement of the artificial disk; And a plurality of lower slots formed in the lateral direction at the bottom surface of the lower plate to prevent forward disengagement of the artificial disk, wherein the elastic member is a circular plate- 310), and a second member (320) formed in a dome shape above the first member and received in the first groove, wherein a bottom surface of the first member (310) of the elastic member And a contact surface (340) contacting the circumferential surface of the groove and a non-contact surface (350) formed concavely upward from the inside of the contact surface and not contacting the bottom of the second groove. to provide.
A plurality of upper slots (112) formed laterally on an upper surface of the upper plate to prevent forward disengagement of the artificial disk; And a plurality of lower slots (221) formed laterally in the bottom surface of the lower plate to prevent forward detachment of the artificial disk.

The upper protrusion 113 and the lower protrusion formed on the upper surface of the upper plate and the lower surface of the lower plate by the upper slot and the lower slot may be inclined upward toward the front to prevent forward displacement of the artificial disk.

A plurality of upper triangular protrusions 115 formed in a triangular pyramid shape on the upper surface of the upper plate to prevent forward detachment of the artificial disc; And a plurality of lower triangular projections (225) formed in a triangular pyramid shape at the bottom surface of the lower plate to prevent forward displacement of the artificial disc.

It is preferable that the upper triangular projection and the lower triangular projection are inclined upward toward the front side to prevent the forward deviation of the artificial disk.

A rounded portion 130 rounded inward is formed on the rear surface of the upper plate to prevent injuries to the spinal cord during surgery.

In addition, an adjustment groove 140 is formed on the front surface of the upper plate to adjust the distance between the upper plate and the lower plate after insertion of the artificial disc.

The artificial disk for the spine of the present invention can easily assemble the upper plate and the lower plate and perform the spinal surgery, and it is possible to disperse the human body load acting in the longitudinal direction due to the upper surface structure of the lower groove and the lower plate of the elastic member. And the elastic member of the artificial disk polymer material can absorb the load, so that the load and the shock acting on the cervical vertebrae can be absorbed and alleviated.

In addition, the artificial disk of the present invention has an effect of preventing the rapid degeneration of adjacent segments by appropriately distributing loads acting in the longitudinal direction of the human body due to the above structure.

1 is a perspective view of a cervical spine artificial disc according to the present invention,
2A to 2C are top plates of a cervical spine artificial disc according to the present invention,
3A to 3C are bottom plates of a cervical spine artificial disk according to the present invention,
4A and 4B are elastic members of a cervical spine artificial disk according to the present invention,
FIG. 5 is a view showing a state in which a cervical spine artificial disk according to the present invention is inserted into a human body,
6 is a view showing a state in which a cervical spine artificial disk according to the present invention is operated with a gap adjusting device,
FIG. 7 is a perspective view of an apparatus for adjusting the space of a cervical spine artificial disk according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Also, terms used are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user operator. Therefore, definitions of these terms should be based on the entire contents of the present specification.

FIG. 1 is a perspective view of a cervical spine artificial disk according to the present invention. FIGS. 2a to 2c are top plates of a cervical spine artificial disk according to the present invention, FIG. 5 is an exploded perspective view of a cervical spine artificial disc according to the present invention. FIG. 6 is an exploded perspective view of a cervical spine artificial disc according to the present invention. FIG. 7 is a perspective view of an apparatus for adjusting the space of the cervical spine artificial disk according to the present invention.

The cervical artificial disc according to the present invention comprises an upper plate 100, a lower plate 200, and an elastic member 300 provided between the upper plate and the lower plate.

First, the directions will be defined for explaining the present invention. In the state where the artificial disc is inserted into the patient's cervical vertebrae, the direction toward the front (forward) of the patient is referred to as 'forward' for the sake of explanation and the direction opposite thereto is referred to as 'rearward'. 1 to 4, the direction A is forward and the direction B is rearward. For the sake of convenience, the term 'transverse direction' means a direction perpendicular to a line in the direction of A-B and located on the upper surface of the upper plate or the lower surface of the lower plate.

[Upper Plate] See FIGS. 2A to 2C and FIG. 5

The upper surface of the upper plate 100 is not a single plane but a plurality of planes are formed in a complex shape to form an upper surface and a plurality of upper slots 112 formed in a horizontal direction on the upper surface to prevent forward detachment of the artificial disk . Due to the formation of the upper slot, an upper projection 113 is formed between the upper slot and the upper slot, the upper projection being inclined upward toward the front of the upper plate. That is, the upper projection has an inclined surface inclined forward. With this structure, it is possible to prevent the forward detachment of the artificial disc when inserting the artificial disc.

And a spike structure formed in a triangular pyramid shape on the upper surface of the upper plate. The spike structure is formed with a plurality of upper triangular protrusions 115 for preventing forward detachment of the artificial disc, and the spike structure is inserted into the disc bone located at the upper side after the artificial disc is inserted. One of the three sides of the upper triangular projection 115 is directed forward and the edge L1 corresponding to the forward facing surface is inclined forward to prevent forward displacement of the artificial disk. The upper slot and the upper triangular protrusion may be formed in an appropriate number in appropriate positions on the upper surface.

The bottom surface 120 of the upper plate is provided with a first groove 125 formed in a dome shape and accommodating the upper portion of the elastic member. The first groove 125 has a groove shape formed in a substantially central portion of the bottom surface with an appropriate curvature, and an upper portion of the elastic member is accommodated.

The upper plate of the present invention has an inclination of 3 degrees in the lateral direction (lateral direction, lateral direction, vertical direction to A-B in the upper surface). Through this, the structural safety of the cervical bone can be improved by simulating the anatomical structure.

5 is an exploded view of a cervical spine artificial disc according to the present invention,

In addition, a round portion 130 having a curvature in a round shape on the inner side (front side) is formed on the rear surface of the side surface of the upper plate to prevent injury to the spinal cord during surgery. 5, a round portion is provided on the rear surface of the upper plate, reflecting the shape C of the anatomical structure flanking the cervical vertebra. This is also the reason that the rounded portion 230 having a curved shape rounded toward the inside (front side) is formed on the rear surface of the lower plate to be described below.

In addition, an adjustment groove 140 is formed on a front surface of the upper plate so as to perform an operation for adjusting the gap after inserting the artificial disc. After inserting the artificial disk according to the present invention into the cervical vertebrae, the gap between the upper plate and the lower plate is adjusted by using a gap adjusting device (see FIG. 7, described below) (420 in Fig. 7) is inserted.

[Lower plate] See FIGS. 3A to 3C

The lower plate 200 is a member for supporting the elastic member from below, and the upper surface 210 of the lower plate has a second groove 213 in which the lower end of the elastic member is received. The second groove 213 has not a single plane having a single plane but a concave portion 215 which is recessed toward the inside (downward) once more in the middle portion. The concave portion is a portion that does not contact the bottom surface of the elastic member.

And a spike structure formed laterally in a bottom surface of the lower plate. The spike structure is formed in the shape of a triangular pyramid and has a plurality of lower triangular protrusions 225 formed to prevent forward detachment of the artificial disc. The spike structure is a portion that is inserted into the disc bone located at the lower side after the artificial disc is inserted . Further, it is similar to the upper plate in that it further includes a plurality of lower slots 221 for preventing forward disengagement of the artificial disk.

Due to the formation of the lower slot 221, a lower projection 222 is formed between these slots, the lower projection being inclined downwardly toward the front of the lower plate. With this structure, it is possible to prevent the forward detachment of the artificial disc when inserting the artificial disc. In addition, a plurality of lower triangular protrusions 225 are formed on the lower surface of the lower plate to have a triangular shape to prevent forward detachment of the artificial disc. One of the three sides of the lower triangular projection 225 is directed forward and the edge L2 corresponding to the forward facing surface is inclined upward to prevent forward displacement of the artificial disk. The lower slot and the lower triangular protrusion may be formed in an appropriate number at appropriate positions on the lower surface of the lower plate.

[Elastic member] Figs. 4A and 4B

The elastic member 300 is disposed between the upper plate and the lower plate and provides an elastic force to exert an elastic force corresponding to a longitudinal load applied to the cervical vertebrae. The elastic member 300 is made of a polymeric elastomer.

The elastic member of the present invention is composed of a lower structure and an upper structure, and the lower structure is accommodated in the second groove 213 of the lower plate as a portion constituting the outer rim of the bottom surface of the elastic member. That is, the elastic member has a circular plate shape and includes a first member 310 accommodated in the second groove, and a second member 320 formed on the upper side of the first member in a dome shape. The bottom surface (i.e., the bottom surface of the first member) of the elastic member has a contact surface 340 contacting the bottom (bottom surface of the circumferential surface) of the second groove of the bottom plate, Contact surface 350 that is formed in the second groove and does not contact the bottom of the second groove. By forming the bottom of the elastic member in such a manner that the elastic member is brought into contact with the lower plate only from the outer surface of the front surface of the elastic member, the effect of the elastic action can be enhanced and the load or impact applied to the spine can be effectively absorbed and the durability of the artificial disk can be improved.

FIG. 6 is a view showing a state in which a cervical spine artificial disk according to the present invention is operated with a space adjusting device, and FIG. 7 is a device for adjusting the space used for an operation of a cervical spine artificial disk according to the present invention.

In the surgical procedure, the artificial disk needs to be adjusted while slightly spreading the space between the upper plate 100 and the lower plate 200 after inserting the artificial disk between the disk of the cervical vertebra and the disk. The artificial disk according to the present invention uses an internal distractor 400 to adjust the gap. The gap adjusting device 400 is provided with a grip portion 410, which is a hand grip portion, and a tip end 420, which is opposite to the grip portion. A control groove 140 having a shape corresponding to the tip 420 is formed on a front surface of the upper plate.

In the surgical procedure, the artificial disc of the present invention is inserted between the cervical spine of the patient and the grip 420 of the gap adjusting device 400 is held, and the tip 420 is inserted into the adjustment groove 140, When pressed by hand, the tip is opened, and the tip opens to spread the gap between the upper plate and the lower plate. The reason for controlling the interval is that the front surface of the disk is slightly wider than the rear surface of the disk, and the gap between the disk and the upper and lower disks at the inserted disk is smoothly adjusted .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

100: upper plate, 200: lower plate
300: elastic member 400: gap adjusting device

Claims (9)

An artificial disc for cervical vertebra comprising an upper plate, a lower plate, and an elastic member,
A first groove (125) formed in a dome shape at a bottom surface of the upper plate to receive the upper portion of the elastic member;
A circular second groove (213) formed on an upper surface of the lower plate to receive a lower portion of the elastic member;
A recess (215) having a dome shape downwardly depressed in the second groove of the lower plate and not contacting the bottom surface of the elastic member;
A plurality of upper slots formed laterally on an upper surface of the upper plate to prevent forward disengagement of the artificial disk; And
And a plurality of lower slots formed laterally on the bottom surface of the lower plate to prevent forward disengagement of the artificial disc,
The elastic member includes a first member (310) having a circular plate shape and received in the second groove, a second member (320) formed in a dome shape above the first member and received in the first groove, Lt; / RTI >
The bottom surface of the first member 310 of the elastic member has a contact surface 340 which is in contact with the circumferential surface of the second groove and a contact surface 340 which is recessed upward from the inside of the contact surface, And a non-contact surface (350). delete delete delete The method according to claim 1,
Wherein the upper and lower protrusions formed on the upper surface of the upper plate and the lower surface of the lower plate by the upper slot and the lower slot are inclined upward toward the front to prevent forward displacement of the artificial disk. . The method according to claim 1,
A plurality of upper triangular protrusions formed on the upper surface of the upper plate in a triangular pyramid shape to prevent forward detachment of the artificial disc; And
Further comprising a plurality of lower triangular protrusions formed on the bottom surface of the lower plate in a triangular pyramid shape to prevent forward disengagement of the artificial disc. The method according to claim 6,
Wherein the upper triangular protrusion and the lower triangular protrusion are inclined upward toward the front to prevent forward disengagement of the artificial disc. delete delete

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