KR102328801B1 - Spine manipulation apparatus - Google Patents

Abstract

The present invention relates to a spinal orthodontic device, wherein an elastic member is disposed in a case, and a tensile force is applied to screws fastened to a curved or deflected area to be corrected by an elastic member guided and tensioned by the case, As it becomes possible to continuously apply a uniform and precise tensile force to the screw, it enables precise correction of severely distorted spine, unlike the uniform correction using conventional connecting rods. By enabling the installation of this embodiment on the area to be corrected in a state that temporarily does not allow the tension of the elastic member by the compression unit and the effect of increasing the degree to improve the satisfaction of the medical quality, the convenience of the procedure is improved as well as , it has the effect of enabling the provision of high-quality medical services by shortening the treatment time.

Description

Spine manipulation apparatus

The present invention relates to a device for spinal correction, and more particularly, to a device for facilitating a spine with an improved structure so that it is possible to correct a curved or deflected spine, and to facilitate installation of a medical device for spinal correction inside the human body. it's about

In general, spinal correction, as well shown in FIGS. 1 and 2, after fastening the pedicle screws (S1, S2) to the spine at intervals, the pedicle screws (S1, S2) After penetrating, it is achieved through a method of manipulating the connecting rod (R) connected to the pedicle screws (S1, S2).

However, according to this spinal correction method, since the correction is made depending on the traction method of the pedicle screws (S1, S2) using the connecting rod (R), there is a limit to the correction of the spine with a severe degree of curvature or deviation. there is a problem with

Republic of Korea Patent Publication Registration No. 1666527 Republic of Korea Patent Publication Registration No. 1803423 Japanese registered patent 4801318

Accordingly, the present invention has been devised to solve the above problems, and an object of the present invention is to widen the correctable range and the degree of correction of a curved or deflected spine to enable the provision of high-quality medical services, and to An object of the present invention is to provide a spinal orthodontic device that can easily install a medical device for spinal correction and improve the convenience of the procedure.

A spinal orthodontic device according to the present invention for achieving the above object is for correcting a curved or deflected spine, between pedicle screws fastened at regular intervals along both sides of the spine. an elastic member disposed to apply an elastic force to each of the pedicle screws; a case having a cylindrical shape capable of accommodating the elastic member; and a compression unit that allows the elastic member to be moved to the treatment site in a compressed state.

Each of the pedicle screws is formed in a tulip shape and has a head having a through slit through which the connecting rod elongated along the longitudinal direction of the spine passes, and the connecting rod passing through the through slit is fixed. a fixing screw fastened to the head, wherein the case is disposed between the pair of heads, and each fixing screw has a plurality of binding holes formed therein, and both sides of the elastic member are respectively It is preferably connected to each pedicle screw through each fastening hole.

In the case, open portions are formed at both ends so that both sides of the elastic member can pass through and be connected to each of the pedicle screws, and any one of the both ends supports the elastic member. It is preferable that support ribs defining the open portion are formed.

The compression unit is installed to be movable relative to the case, is inserted into the elastic member and extends in a direction orthogonal to the guide part and the guide part having a compression hole formed therein, and supporting the elastic member a pressing member having a support part; and a compression regulating pin that penetrates the case and is inserted and released into the compression hole of the guide part so that the relative movement of the pressing member with respect to the case can be selectively made.

Each of the pedicle screws is formed in a tulip shape and has a head having a through slit through which the connecting rod elongated along the longitudinal direction of the spine passes, and the connecting rod passing through the through slit is fixed. and a fixing screw fastened to the head, wherein the case is disposed between the pair of heads, and a plurality of binding holes are formed in each of the fixing screws, respectively, and the support part of the pressing member is the fixing part. It is also possible to include an insertion boss inserted into any one of the facing holes of the screws.

The elastic member is a spring, and when the spine is bent with respect to a central axis, a compression coil spring is installed on one side and a tension coil spring is installed on the other side at positions symmetrical to each other with respect to the central axis.

The elastic member is a spring, and when the spine is not bent relative to the central axis and is normal, the same compression coil springs may be installed at positions symmetrical to each other with respect to the central axis.

The case may include a pair of casing members that are installed to be accessible and spaced apart from each other and accommodate the elastic member therein,

The compression unit may include compression holes respectively formed in the pair of casing members and compression regulating pins passing through each compression hole in sequence.

In any one of the pair of casing members, it is preferable that a plurality of the compression holes are formed at intervals so that the relative position with the other one can be adjusted.

The spinal orthodontic device according to the present invention having the configuration as described above places an elastic member in a case and applies a tensile force to the screws fastened to the curved or deflected correction target area by the elastic member guided and tensioned by the case. As it is configured so that it is possible to continuously apply a uniform and precise tensile force to the screw, it enables precise correction of severely distorted spinal regions, unlike the uniform correction by conventional connecting rods, and eventually the region to be corrected. By enabling the installation of this embodiment in the area to be corrected in a state that temporarily does not allow the tension of the elastic member by the compression unit and the effect of improving the satisfaction of the medical quality by expanding the correction range and correction degree of As well as improving convenience, it has the effect of enabling the provision of high-quality medical services by shortening the procedure time.

1 is a view showing an installation state of a spinal correction device according to the prior art.
FIG. 2 is a view viewed from the direction A of FIG. 1 ;
Figure 3 is an exploded perspective view showing the spinal orthodontic device and other components separated according to an embodiment of the present invention.
4 and 5 are views for explaining the installation process of an embodiment of the present invention.
6 is an exploded perspective view of another embodiment of the present invention.
7 is an exploded perspective view of another embodiment of the present invention.
8 and 9 are views for explaining the installation process of another embodiment of the present invention.

In the following description, in order to clarify the understanding of the present invention, descriptions of well-known techniques for the features of the present invention will be omitted. The following examples are detailed descriptions to help the understanding of the present invention, and it will be of course not to limit the scope of the present invention. Accordingly, equivalent inventions performing the same functions as the present invention will also fall within the scope of the present invention.

In addition, in the following description, the same identification symbols mean the same configuration, and unnecessary redundant descriptions and descriptions of well-known technologies will be omitted. In addition, the description of each embodiment of the present invention that overlaps with the description of the technology that is the background of the invention will also be omitted.

Hereinafter, a spinal correction device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view showing the spinal orthodontic device and other components separated according to an embodiment of the present invention, and FIGS. 4 and 5 are views for explaining the installation process of an embodiment of the present invention.

3, the spinal correction device according to an embodiment of the present invention is for correcting a curved or deflected spine, and an elastic member (1) disposed between the pedicle screws (4) and a case 2 accommodating the elastic member 1 and a compression unit 3 that allows the elastic member 1 to be moved to the treatment site in a compressed state.

The pedicle screws 4 are fastened at regular intervals along both sides of the spine.

These pedicle screws (4) are coupled to the spine and can be implemented in various structures through which the connecting rod (R) can penetrate inside, but in this embodiment, they are formed in a tulip shape and formed long along the longitudinal direction of the spine. The head 41 having a through slit 411 through which the connecting rod R passes, and the connecting rod R passing through the through slit 411 are fastened to the head 41 so as to be fixed. A configuration comprising a set screw 42 was employed.

The elastic member 1, for example, having an elastic force such as a spring, is disposed between a pair of pedicle screws 4 disposed adjacently along the longitudinal direction of the vertebrae, so that each of the pedicle screws 4 ) to enable correction of curved or deflected areas by applying elastic force.

The case 2 is made of a cylindrical shape that can accommodate the elastic member 1 so that the elastic member 1 can be tensioned along the central axis direction of the case 2 without departing to the outside of the case 2 . Thus, it is possible to accurately apply a force for promoting growth plate growth to a required region of the growth plate.

The compression unit 3, as shown in FIG. 4, allows the elastic member 1 to be moved to the treatment site in a compressed state, and has various structures that do not temporarily allow tension of the elastic member 1 By being implemented, it is possible to overcome the problem that the installation of the present embodiment may not be smooth due to the elastic member 1 having the elasticity to be stretched.

The spinal orthodontic device according to an embodiment of the present invention having such a configuration places the elastic member 1 in the case 2 as shown in FIG. 5 and is guided by the case 2 to the elastic member 1 which is tensioned. As it is configured to apply a tensile force to the screws fastened to the part to be corrected, which is curved or deviated by the Unlike orthodontics, it enables precise correction of severely distorted spine regions, eventually extending the correction range and degree of correction of the region to be corrected to improve medical quality satisfaction, and in addition to this, the compression unit ( 3) by enabling the installation of this embodiment on the area to be corrected in a state that temporarily does not allow the tension of the elastic member 1 by 3) to derive the advantages that enable

The case 2 is disposed between the pair of heads 41 , and a plurality of binding holes 421 may be formed in the fixing screws 42 coupled to the respective heads 41 .

According to this embodiment, in order to firmly support the elastic member 1, one side of the elastic member 1 passes through the binding hole 421 of any one of the pedicle screws 4 to the pedicle screw. It is preferably configured to be connected to (4), and the other side of the elastic member (1) is configured to be connected to the pedicle screw (4) through the binding hole (421) of the other pedicle screw (4). do.

The case (2), it is preferable that each open portion is formed at both ends so that both sides of the elastic member (1) can pass through and be connected to each of the pedicle screws (4).

In addition, it is preferable that a support rib 21 that allows one side of the elastic member 1 to be supported is formed on any one of the both ends. Here, the support rib 21 is disposed across the open portion to limit the degree of opening of the open portion.

In this embodiment having such a configuration, the other side of the elastic member 1 is tensioned by the compression unit 3 in a state where one side of the elastic member 1 is supported by the support rib 21 of the case 2 . In contrast to the comparative embodiment, which requires an additional configuration that does not allow the tension on both sides of the elastic member 1 because there is no support rib 21, the elastic member ( The structure that does not allow the tension of 1) can be simplified and implemented.

The compression unit 3, of course, can be implemented in various structures that do not temporarily allow the tension of the elastic member 1, but in this embodiment includes the pressing member 31 and the compression regulating pin 32 A configuration made by

That is, the pressing member 31 is installed to be movable relative to the case 2 , and includes a guide part 311 and a support part 312 .

The guide part 311 is inserted into the elastic member 1 to guide the tension of the elastic member 1, and a compression hole 311a into which the compression regulating pin 32 is inserted is formed. has been The support part 312 is extended in a direction perpendicular to the guide part 311 , and the elastic member 1 comes into contact with it to support the elastic member 1 .

The compression regulating pin 32 penetrates through the case 2 and is inserted and released into the compression hole 311a of the guide part 311, so that the compression member 31 for the case 2 Relative movement is optional.

That is, as shown in FIG. 4 , when the compression regulating pin 32 is inserted into the compression hole 311a of the guide part 311 of the pressing member 31 , the tensile force of the elastic member 1 . Since the relative movement of the supporting part 312 of the working pressing member 31 with respect to the case 2 becomes impossible, the procedure required for this embodiment conveniently without discomfort due to the tension of the elastic member 1 It can be positioned smoothly to the area.

As described above, in the state in which the present embodiment is positioned at the treatment site, when the insertion state of the compression regulating pin 32 into the compression hole 311a is released, as shown in FIG. 5 , the elastic member ( As the tensile force of 1) is transmitted to the pedicle screw 4 through the pressing member 31, the curved or deflected spine is smoothly corrected.

Meanwhile, Figure 6 is an exploded perspective view of another embodiment of the present invention.

In the embodiment shown in this figure, as in the embodiment described above, each fixing screw of the pedicle screw has a plurality of binding holes, respectively, but unlike the embodiment described above, one side of the elastic member 6 is Rather than being connected to the binding hole, the support part 51 of the pressing member 5 is configured to be connected to the binding hole.

That is, the support part 51 of the pressing member 5 employed in this embodiment includes an insertion boss 511 inserted into any one of the binding holes facing the pedicle screws, so that the elastic member ( 6) has the advantage of allowing the tension force to act uniformly and accurately on the screw through the pressing member 5 .

The elastic member 6 can be implemented with various materials having elastic force, but is preferably a coil spring that is easy to obtain and is relatively inexpensive.

In this embodiment including such a coil spring, when the spine is severely curved or deflected to either side with respect to the central axis, a compression coil spring is installed on either side at a position symmetrical to each other with respect to the central axis. and a tension coil spring is installed on the other side so that a tensile force can act on one side and a pulling force on the other side. The same compression coil spring is installed in each in position so that the same tensile force can be applied to both sides, enabling patient-specific spinal correction.

7 is an exploded perspective view of another embodiment of the present invention, and FIGS. 8 and 9 are views for explaining an installation process of another embodiment of the present invention.

The case 7 employed in this embodiment is installed so as to be accessible and spaced apart from each other and includes a pair of casing members 71 and 72 for accommodating the elastic member 8 therein, and the compression unit Silver, compression holes 711 and 721 formed in the pair of casing members 71 and 72, respectively, and compression regulating pins 9 passing through each of the compression holes 711 and 721 sequentially is made including

This embodiment having such a configuration enables installation in a state in which the elastic member 8 is stably supported inside the pair of casing members 71 and 72, thereby further improving the convenience of the operation. .

In any one 72 of the pair of casing members 71 and 72, a plurality of compression holes 721 are formed at intervals so that the relative position with the other 71 can be adjusted.

This embodiment having such a configuration enables the adjustment of the distance between the pair of casing members 71 and 72 according to the treatment site, thereby enabling the advantage of enabling customized correction of the treatment site.

Although various embodiments of the present invention have been described above, this embodiment and the drawings attached to this specification only clearly show a part of the technical idea included in the present invention, and the drawings included in the specification and drawings of the present invention It will be apparent that all modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical spirit are included in the scope of the present invention.

1: Elastic member 2: Case
21: support rib 3: compression unit
31: pressing member 311: guide part
311a: compression hole 312: support
32: compression regulating pin 4: spinal screw
41: head 411: through slit
42: fixing screw 421: binding hole

Claims (9)

To correct a curved or deflected spine,
an elastic member disposed between pedicle screws fastened at regular intervals along both sides of the vertebra to apply an elastic force to each of the pedicle screws; a case having a cylindrical shape capable of accommodating the elastic member; and a compression unit that allows the elastic member to be moved to the treatment site in a compressed state.
Each of the pedicle screws is formed in a tulip shape and has a head having a through slit through which the connecting rod elongated along the longitudinal direction of the spine passes, and the connecting rod passing through the through slit is fixed. Includes a set screw fastened to the head;
The case is disposed between a pair of heads, and a plurality of binding holes are respectively formed in each set screw, and both sides of the elastic member are respectively connected to each pedicle screw through the respective binding holes. chiropractic device. delete According to claim 1,
The case is
Open portions are respectively formed at both ends so that both sides of the elastic member can pass through and be connected to each of the pedicle screws, and any one of the both ends is provided to support the elastic member. A spinal orthodontic device, characterized in that it comprises a support rib that defines the formed. According to claim 1,
The compression unit is
Pressurizing having a guide part which is installed in the case to be relatively movable, inserted inside the elastic member and having a compression hole formed therein, and a support part extending in a direction orthogonal to the guide part and supporting the elastic member absence; and
and a compression regulating pin that penetrates the case and is inserted and released into the compression hole of the guide part so that the relative movement of the pressing member with respect to the case can be selectively made. To correct a curved or deflected spine,
an elastic member disposed between pedicle screws fastened at regular intervals along both sides of the vertebra to apply an elastic force to each of the pedicle screws; a case having a cylindrical shape capable of accommodating the elastic member; and a compression unit that allows the elastic member to be moved to the treatment site in a compressed state.
The compression unit is installed to be movable relative to the case, is inserted into the elastic member and extends in a direction orthogonal to the guide part and the guide part having a compression hole formed therein, and supporting the elastic member a pressing member having a support part; and a compression regulating pin that penetrates the case and is inserted and released into the compression hole of the guide part so that the relative movement of the pressing member with respect to the case can be selectively made;
Each of the pedicle screws is formed in a tulip shape and has a head having a through slit through which the connecting rod elongated along the longitudinal direction of the spine passes, and the connecting rod passing through the through slit is fixed. Includes a set screw fastened to the head;
The case is disposed between a pair of heads, each fixing screw has a plurality of binding holes formed therein, and the support portion of the pressing member is inserted into any one of the binding holes facing the fixing screws. Spinal correction device comprising a boss. 6. The method of claim 1 or 5,
The elastic member is a spring,
When the spine is bent with respect to the central axis, a compression coil spring is installed on one side and a tensile coil spring is installed on the other side at a position symmetrical with respect to the central axis. 6. The method of claim 1 or 5,
The elastic member is a spring,
When the spine is not bent with respect to the central axis and is normal, the same compression coil springs are respectively installed at positions symmetrical with respect to the central axis. delete delete

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