WO2007073059A2

WO2007073059A2 - Pedicle screw

Info

Publication number: WO2007073059A2
Application number: PCT/KR2006/005477
Authority: WO
Inventors: Jong Wuk Jang
Original assignee: Varian Co., Ltd
Priority date: 2005-12-21
Filing date: 2006-12-14
Publication date: 2007-06-28
Also published as: US8308773B2; JP3148465U; US20100087874A1; WO2007073059A3; KR200410476Y1

Abstract

Disclosed is a pedicle screw. By changing the structure of a threaded portion of a locking bolt engaged with a head of the pedicle screw and forming a groove on the locking bolt, the threaded portion is pressed in a fastening direction of the locking bolt, so that when a head of the pedicle screw is fastened to the locking bolt, a fixation cap is not released by the force applied from the head expanding towards an outside, and thus the locking bolt is easily fastened to the head of a screw body, thereby improving an inefficiency factor such as delay of surgical operation time due to release or interference of the fixation cap.

Description

Title: PEDICLE SCREW

Technical Field

The present invention relates to a pedicle screw, and more

particularly, to a pedicle screw, in which by changing the structure of a

threaded portion of a locking bolt engaged with a head of the pedicle screw

and forming a groove on the locking bolt, the threaded portion is pressed in a

fastening direction of the locking bolt, so that when a head of the pedicle

screw is fastened to the locking bolt, a fixation cap is not released by the

force applied from the head expanding towards an outside, and thus the

locking bolt is easily fastened to the head of a screw body, thereby improving

an inefficiency factor such as delay of surgical operation time due to release

or interference of the fixation cap.

Background Art

Generally, a patient suffered from injured portion of spinal bones

does not carry himself or herself in such a state. Even though a patient

having a weak damage acts, the damaged spinal bone compresses adjacent

spinal bone or comes into contact with adjacent spinal bone, thereby causing

a pain in the patient. In addition, although the patient is placed under medical care, the recovery is delayed.

Therefore, the patient suffered from the ruptured or damaged spinal

bone has a surgical operation on the adjacent spinal bones by supporting

the damage spinal bone with an artificial prosthetic device so as to prevent

the damaged spinal bone from being pressed or expanded.

Such an artificial prosthetic device consists of pedicle screws

inserted into upper and lower portions of the damaged spinal bone to serve

as a fixation, and a rod engaged to the pedicle screw to serve as a support.

FIG. 7 illustrates the structure of a conventional artificial prosthetic

device.

Referring to FIG. 7, a pedicle screw 30 has an opening 32 formed on

an upper portion of a head engaging groove 31 , and a threaded portion 34

formed on inner surfaces or outer surfaces of support walls 33 provided on

both sides of the opening. The support pipe 36 of an engaging member 35 is

placed on the outer surface of the support wall 33, and then, a male

threaded part 37 is threadedly engaged with the threaded portion. With the

above arrangement, there is a problem in that a rod 20 is not horizontally

placed. In addition, in case the rod 20 is inserted at an inclined angle, the

rod 20 should be pressed against the head engaging groove 31 by using a

separate guide tool, so that the engaging member 35 can be engaged to the

pedicle screw by means of a screw and a ring or a cap. More specifically, the rod 20 should be forcibly held in the engaging

groove 31 by using the separate guide tool before the male threaded part 37

of the engaging member 35 is threadedly engaged with the threaded portion

of the engaging groove 31. In addition, the rod can be pre-engaged by the

male threaded part 37. As such, the weak fastening force of the threaded

portion of the support wall can be complemented by the screw, the outer ring

or the cap used on the outer portion of the engaging member. Since the

use of the outer ring or cap increases a width of the engaging member, it

may cause the interference between the components in a narrow space on

the operation.

Disclosure

Technical Problem

Accordingly, the present invention is directed to a pedicle screw that

substantially obviates one or more problems due to limitations and

disadvantages of the related art.

An object of the present invention is to provide a pedicle screw, in

which by adjusting a thread angle of threaded portions formed on a locking

bolt and a head of the pedicle screw and forming a groove on the locking

bolt, the locking bolt is not released from the head, in which a fixation cap is

not required to prevent the interference of a rod, in which a volume of the head is reduced, and in which the locking bolt is easily fastened to the

pedicle screw, thereby improving precision and inefficiency factors such as

delay of surgical operation time due to release or interference of the fixation

cap.

Technical Solution

To achieve the object and other advantages, according to one

aspect of the present invention, there is provided a pedicle screw including a

screw body threadedly engaged with spinal bones at regular interval to

support a rod against the spinal bone so as to prevent a damaged portion of

the spinal bone from being expanded or pressed, the screw body having a

head on an upper end of the screw body, a seat groove formed on a center

portion of the head, an upper portion and both sides of the seat groove being

opened, and a female threaded portion formed on an inner surface of the

seat groove, and a locking bolt having a male threaded portion formed on an

outer periphery thereof which is threadedly engaged with the female

threaded portion to support the rod installed on the head of the screw body,

wherein a groove is formed to have a predetermined depth on the outer

periphery of the locking bolt in a spiral direction, so that the male threaded

portion of the locking bolt closely contacts the female threaded portion of the

head when the locking bolt is threadedly engaged with the head, so as to prevent the locking bolt from being released from the head.

The groove is formed to have a depth equal to a half of a diameter of

the locking bolt.

In addition, the female threaded portion formed on the head and the

male threaded portion formed on the locking bolt have a corresponding

inversed-trapezoidal cross section.

Advantageous Effects

As described above, according to the pedicle screw of the present

invention, the shape and design of the female threaded portion formed on

the head of the screw body and male threaded portion of the locking bolt,

and the groove formed on the locking bolt can prevent the release of the

head, and easily rigidly fix the pedicle screw, without using a cap.

Brief Description of the Drawings

The foregoing and other objects, features and advantages of the

present invention will become more apparent from the following detailed

description when taken in conjunction with the accompanying drawings in

which:

FIG. 1 is a perspective view illustrating the construction of a pedicle

screw according to the present invention; FIG. 2 is a front cross-sectional view illustrating the engaged state of

a pedicle screw according to the present invention;

FIG. 3 is an enlarged cross-sectional view of the portion "A" in FIG.

2;

FIG. 4 is a view illustrating only a locking bolt of a pedicle screw

according to the present invention;

FIG. 5 is a cross-sectional view taken along a line l-l in FIG. 4;

FIG. 6 is a perspective view illustrating the installed state of a

pedicle screw according to the present invention; and

FIG. 7 is an exploded perspective view illustrating a conventional

pedicle screw according to the present invention.

Best Mode

A preferred embodiment according to the present invention will now

be explained with reference to the accompanying drawings.

FIG. 1 is a perspective view illustrating the construction of a pedicle

screw according to the present invention. FIG. 2 is a front cross-sectional

view illustrating the engaged state of the pedicle screw according to the

present invention. FIG. 3 is an enlarged cross-sectional view of the portion

"A" in FIG. 2. FIG. 4 is a view illustrating only a locking bolt of a pedicle

screw according to the present invention. FIG. 5 is a cross-sectional view taken along a line l-l in FIG. 4. FIG. 6 is a perspective view illustrating the

installed state of a pedicle screw according to the present invention.

As shown in the figures, the pedicle screw according to the present

invention includes a screw body 110. The screw bodies 110 are threadedly

engaged with spinal bones at regular intervals. The screw body 110 has a

head 110a on an upper end of the screw body, a seat groove 114 formed on

a center portion of the head 110a, an upper portion and both sides of the

seat groove being opened, and a female threaded portion 112 formed on an

inner surface of the seat groove 114.

A rod 130 is installed on the seat groove 114 formed on the head

110a of the screw body 110, and has a locking bolt 120 for locking and

supporting the rod 130. A male threaded portion 122 is formed on an outer

periphery of the locking bolt 120, and is threadedly engaged with the female

threaded portion 112 formed on the head 110a of the screw body 110.

As shown in FIG. 3, it is preferable that the female threaded portion

112 and the male threaded portion 122 have a corresponding inversed-

trapezoidal shape so that the threaded portions are interconnected. The

reason is to prevent the locking bolt 120 from being released from the head

100a.

As shown in the figures, the present invention is characterized in that

the groove 124 is formed on the locking bolt 120. The locking bolt is not released from the head 110a by the groove 124. More specifically, the

male threaded portion 122 formed on the locking bolt 120 is pressed towards

one side of the female threaded portion 112 formed on the head 110a, and

then, the threaded portions are engaged to each other to prevent the locking

bolt 120 from being released from the head 110a.

The groove 124 is formed to have a predetermined depth on the

outer periphery of the locking bolt 120 in a spiral direction. Consequently,

the male threaded portion 122 formed on the locking bolt 120 is pressed

towards one side of the female threaded portion 112 formed on the head

110a, and then, the threaded portions are engaged to each other to prevent

the locking bolt 120 from being released from the head 110a. The groove

124 may be formed to have a depth equal to a half of a diameter of the

locking bolt 120, but the present invention is not limited thereto. For

example, the groove may be formed to have a depth equal to 1/3 of the

diameter of the locking bolt 120. The groove may be formed to have a

depth in such a way that the male threaded portion 122 formed on the

locking bolt 120 is pressed toward one direction by the groove 120.

With the pedicle screw according to the present invention, the screw

bodies 110 are threadedly engaged with the spinal bones at a regular

interval. The rod 130 is inserted into the groove 114 formed on the head

110a of the screw body 110. Then, the rod is fixed by the locking bolt 120, thereby interconnecting the screw bodies 110 installed on the spinal bones

at a regular interval.

In this instance, the female threaded portion 112 and the male

threaded portion 122 formed on the head 110a of the screw body 110 which

are engaged to each other have an inversed-trapezoidal shape, so as to

prevent the male threaded portion 122 of the locking bolt 120 from being

released from the female threaded portion 112 of the head 110a. As a

result, the head 110a of the screw body 110 does not rotate, and the head

110a and the rod 130 are rigidly fixed by the locking bolt 120.

In particular, the pedicle screw of the present invention can be more

rigidly fixed by the groove 124 formed on the locking bolt 120. When the

locking bolt 120 is engaged with the head 110a, the force resulted from a

bottom the locking bolt abutting the rod 130 is. transferred to the male

threaded portion 122 in a direction perpendicular to the fastening direction of

the locking bolt 120 through the groove 124. Consequently, one surface of

the male threaded portion 122 is closely engaged with the female threaded

portion 112, thereby preventing the locking bolt 120 from being released

from the head.

According to the present invention, the female threaded portion 112

and the male threaded portion 122 formed on the head 110a of the screw

body 110 which are engaged to each other have an inversed-trapezoidal shape, and the groove 124 is formed on the locking bolt 120, so that the

threaded portion are rigidly engaged with each other so as to prevent locking

bolt 120 from being released from the head 110a.

FIG. 6 is a perspective view illustrating the installed state of the

pedicle screw according to the present invention.

Referring to Fig. 6, the screw body 110 is threadedly engaged with

the spinal bone, and the rod 114 is inserted into the seat groove 114 formed

on the head 110a of the screw body 110. Then, the locking bolt 120 is

fastened to the head 110a. At that time, the locking bolt 120 is turned to

easily fix the rod 130. The design of the female threaded portion 112

formed on the head 110a of the screw body 110 and male threaded portion

122 of the locking bolt 120 and the groove formed on the locking bolt 120

can prevent the release of the locking bolt from the groove 124, so that a cap

is not needed.

Industrial Applicability

As can be seen from the foregoing, according to the pedicle screw of

the present invention, the shape and design of the female threaded portion

formed on the head of the screw body and male threaded portion of the

locking bolt, and the groove formed on the locking bolt can prevent the

release of the head, and easily rigidly fix the pedicle screw, without using a cap.

While this invention has been described in connection with what is

presently considered to be the most practical and preferred embodiment, it is

to be understood that the invention is not limited to the disclosed

embodiment and the drawings. On the contrary, it is intended to cover

various modifications and variations within the spirit and scope of the

appended claims.

Claims

1. A pedicle screw including a screw body threadedly engaged with

spinal bones at regular interval to support a rod against the spinal bone so

as to prevent a damaged portion of the spinal bone from being expanded or

pressed, the screw body having a head on an upper end of the screw body,

a seat groove formed on a center portion of the head, an upper portion and

both sides of the seat groove being opened, and a female threaded portion

formed on an inner surface of the seat groove, and a locking bolt having a

male threaded portion formed on an outer periphery thereof which is

threadedly engaged with the female threaded portion to support the rod

installed on the head of the screw body, wherein

a groove is formed to have a predetermined depth on the outer

periphery of the locking bolt in a spiral direction, so that the male threaded

portion of the locking bolt closely contacts the female threaded portion of the

head when the locking bolt is threadedly engaged with the head, so as to

prevent the locking bolt from being released from the head.

2. The pedicle screw as claimed in claim 1 , wherein the groove is

formed to have a depth equal to a half of a diameter of the locking bolt, and

has an inversed-trapezoidal cross section.

3. The pedicle screw as claimed in claim 1 , wherein the at least one

groove is formed, irrespective of a shape of the locking bolt.