SPINAL FIXATION DEVICE WITH ROTATABLE CONNECTOR

Abstract

A spinal fixation device for securing two stabilizing rods to bone, such as the spine, pelvis or cranium, has a threaded shaft configured for fastening to bone, a first (primary) rod coupling head and a secondary rod coupling head. The threaded shaft has a longitudinal axis and the first rod coupling head is connected to the threaded shaft. The first rod coupling head has a side wall and a cavity for receiving a rod, the cavity being open toward a top of the first rod coupling head. In a neutral position of the first rod coupling head, the first rod coupling head extends symmetrically around the longitudinal axis of the threaded shaft. The second rod coupling head is rotatably connected to the first rod coupling head, around an axis of rotation. The axis of rotation is disposed at an angle that is not perpendicular to the longitudinal axis of the threaded shaft when the first rod coupling head is in the neutral position. This allows for two rods to be manipulated independently through different axis planes at any single point of bony fixation.

Claims

1. A spinal fixation device for securing stabilizing rods to bone, comprising; a threaded shaft configured for fastening to bone, the threaded shaft having a longitudinal axis; a first rod coupling head connected to the threaded shaft, the first rod coupling head having a side wall and a cavity for receiving a rod, the cavity being open toward a top of the first rod coupling head, wherein in a neutral position of the first rod coupling head, the first rod coupling head extends symmetrically around the longitudinal axis of the threaded shaft; and a second rod coupling head being rotatably connected to the first rod coupling head, around an axis of rotation, wherein the axis of rotation is disposed at an angle that is not perpendicular to the longitudinal axis of the threaded shaft when the first rod coupling head is in the neutral position.

2. The spinal fixation device according to claim 1, wherein the first rod coupling head is connected to the threaded shaft so as be movable polyaxially, and further comprising a locking plate disposed in the first rod coupling head such that inserting a rod in the cavity and tightening a set screw into the rod pushes the rod against the locking plate and prevents any axial movement of the first rod coupling head to lock the first rod coupling head in the neutral position.

3. The spinal fixation device according to claim 2, wherein the threaded shaft has a ball connector and the first rod coupling head has a socket for receiving the rod connector to connect the first rod coupling head to the threaded shaft in a polyaxial manner.

4. The spinal fixation device according to claim 1, wherein the second rod coupling head is formed by a connector plate and a C-shaped rod holding element having a cavity for the rod and an aperture for a set screw, the C-shaped holding element being attached to the connector plate, wherein the connector plate is connected to a side of the first rod coupling head and has a variable surface that mates with a variable surface on the first rod coupling head, such that when a rod is inserted through the C-shaped holding element and a set screw is tightened in the aperture, the rod presses the variable surface of the connector plate against the variable surface on the first rod coupling head to prevent rotation of the second rod coupling head relative to the first rod coupling head.

5. The spinal fixation device according to claim 1, wherein the axis of rotation is disposed at an angle of between 70 and 85 degrees from the longitudinal axis of the shaft when the first rod coupling head is in the neutral position.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] Other objects and features of the present invention will become apparent from the following detailed description considered in connection with the accompanying drawings. It is to be understood, however, that the drawings are designed as an illustration only and not as a definition of the limits of the invention.

[0017] In the drawings, wherein similar reference characters denote similar elements throughout the several views:

[0018] FIG. 1 shows the spinal fixation device according to the invention;

[0019] FIG. 2 shows a side view of the connection plate that connects the first and second rod coupling heads;

[0020] FIG. 3 shows a front view of the connection plate;

[0021] FIG. 4 shows a rear view of the connection plate; and

[0022] FIG. 5 shows a cross-sectional view of the spinal fixation device in use with rods running therethrough.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0023] Referring now in detail to the drawings, FIG. 1 shows the pedicle screw 10 according to the invention. Pedicle screw 10 consists of a shaft 11 having helical threads 12 for attaching to bone, a first rod coupling head 20 and a second rod coupling head 50. First rod coupling head 20 is in the form of an open connector, with side walls 22, a cavity 21 for receiving a rod, and threads 23 near a top section for receiving a set screw. Shaft 11 has a longitudinal axis A running through it. Connected to first rod coupling head 20 is a second rod coupling head 50, which is connected to a connector segment 27 of first rod coupling head 50 by a connector plate 60. Connector plate 60 is connected so as to be freely rotatable about an axis of rotation R relative to connector segment 27. Axis of rotation R is not perpendicular to longitudinal axis A, and instead is disposed at an angle of approximately 83 degrees from axis A, or in a range of preferably 70-85 degrees from axis A. A C-shaped rod holder 51 is fixedly connected to connector plate 60 and together with connector plate 60 forms the second rod coupling head 50, so that second rod coupling head 50 can be rotated relative to first rod coupling head 20. Second rod coupling head 50 has a cavity 52 into which a second rod can be secured, and a hole for a set screw to secure the second rod to the second rod coupling head 50.

[0024] The interior structure of connector plate 60 is shown in FIGS. 2-4. This structure is the same as the one used in U.S. Pat. No. 5,643,263 to connect the structures there, and the disclosure of this patent is herein incorporated by reference.

[0025] Connector plate 60 has a front side 62 with an engagement groove 64 for receiving a rod, and a rear side 66, which has a variable angle grooved surface 72. An opening 68 is disposed in the middle of connector plate 60 for connecting connector plate 60 to the first rod coupling head. First rod coupling head 20 has a connector segment 27, with an identical or similar variable angle grooved surface 28 that faces variable angle grooved surface 72, so that when the two surfaces 28, 72 are pressed against each other, rotation of one part relative to the other is prevented due to the frictional contact of the surfaces with each other.

[0026] The fully assembled pedicle screw 10 is shown in FIG. 5, in cross-section. Here, the interior of first rod coupling head shows that a locking plate 25 is disposed in the bottom of cavity 21. Locking plate 25 abuts a ball head 13 of shaft 11 that is disposed in socket 29, and allows a polyaxial movement of first coupling head 20 relative to shaft 11. Locking plate 25 can be held in place by a spring (not shown). Upon tightening of a set screw 40 in threads 23 of first rod coupling head 20, rod 28 is pressed downward onto locking plate 25, which then presses against ball head 13 and prevents any axial movement of first rod coupling head 20 relative to shaft 11. Upon full tightening of set screw 40, first rod coupling head 20 is locked to shaft 11 in the neutral position, in which first rod coupling head 20 extends symmetrically around the longitudinal axis of shaft 11.

[0027] Second rod coupling head 50 is connected via holding plate 60 to holding element 27 of first rod coupling head 20, via an axle element 29 that extends through hole 68 in holding plate 60 and allows holding plate 60 to be freely rotatable relative to holding element 27 around axis of rotation R when not under stress. In the neutral position of first rod coupling head 20, the axis of rotation R of second rod coupling head 50 is not perpendicular to longitudinal axis A of shaft 11, but rather extends obliquely, at an angle of between 70-85 degrees to the axis A. A preferred angle of the axis of rotation R is approximately 83 degrees to the longitudinal axis A, or 7 degrees off of perpendicular.

[0028] A second rod 55 is disposed in cavity 51 of second rod coupling head 50, and is held in place by set screw 58, which extends through a hole 56 in holding element 51. Upon tightening of set screw 58, holding plate 60 with its variable groove surface 72 is pressed against holding element 27, and any further rotation of second rod coupling head 50 with respect to first rod coupling head 20 is prevented. Thus, upon tightening of both set screws, the rod coupling heads are fixed in place and no relative movement is permitted. Set screw 58 is loaded from the top down fashion similarly to the primary set screw (set screw 40). Set screw 58 also is slightly angled back toward the primary set screw to allow for safe tightening on to rod 55. This allows for the pressure needed during this maneuver to be safe and directed away from vital neural elements.

[0029] Accordingly, while only a few embodiments of the present invention have been shown and described, it is obvious that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention.