Prosthesis (i.e. – artificial body members) – parts thereof – or ai – Implantable prosthesis – Bone
Reexamination Certificate
2002-03-27
2004-08-03
Robert, Eduardo C. (Department: 3732)
Prosthesis (i.e., artificial body members), parts thereof, or ai
Implantable prosthesis
Bone
Reexamination Certificate
active
06770096
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to the field of spinal orthopaedics, and more particularly to that of interbody cages.
Such prostheses are intended to stabilize pathological spinal segments and induce bone consolidation by means of the fusion of the two segments. These cages are generally made from titanium, carbon or biocompatible composite material and receive bone grafts.
For example, it is possible to refer to the French patent application FR 2764795 disclosing an interbody cage according to the prior art. This cage comprises a central hollow space intended to be filled with bone fragments. It comprises, on its transverse section, two wide, convex faces, each equipped with a central opening, two narrow faces each equipped with a central opening, said narrow faces comprising slanting toothing distributed at either end of the central opening of the narrow faces. It also comprises a convex closed front end and a rear end comprising at its centre a polygonal housing to receive an adjustment device. A fitting key equipped with a polygonal fitting and a threaded rod cooperates with the cage according to the invention to insert it by means of impaction between the vertebrae and stabilize it by means of rotation after impaction.
Another French patent application published under the number FR2761879 discloses an implant which comprises, on its two diametrically opposite sides intended to come into contact with the spongy bone of the vertebrae after implantation, a plurality of separate openings, offset at an angle with reference to the others by an interval corresponding roughly to half the length of an opening, such that one of these openings is located opposite the part of the wall of the implant which separates two longitudinally adjacent openings.
Another patent application FR2717068 discloses an interbody cage to be inserted frontally between two vertebrae comprising two roughly parallel branches to come into contact with the vertebral bodies, a bridge connecting the rear ends of the branches after insertion of the cage between the two vertebrae. The cage enables preoperative setting of the lordosis angle between the two vertebrae. A cage holder is connected in a detachable manner to the cage to insert the cage between the two vertebrae. After the removal of the cage holder, a screwdriver turns a screw wherein the rear end is attached to the distance piece and screwed into one of the branches to separate the two cage branches.
It was also proposed in the U.S. Pat. No. 5,800,550 to produce an interbody cage comprising toothed cylinders which can be pushed vertically into the vertebrae, by means of a tool equipped with a screw thread, in order to hold the interbody cage in place.
It was also proposed in the German patent application No. DE 4327054 to produce an interbody cage comprising a camshaft used to raise support eyebolts.
It was also proposed in the international patent application No. WO 97/06753 to produce an interbody cage comprising a more or less cylindrical hollow body 1, 51 equipped with one or more openings 9, 10, 59, 59′, 60, 60′. The hollow body 1, 51 may be broadened in an adjustable manner by adjustment components 18, 19, 65, 66 and comprises fixation components 24, 25, 69, 70, 71, 72 used to fix it on vertebrae.
It was also proposed in the international patent application No. WO 97/46165 to produce an interbody cage comprising at least two basic screws 1, two locking parts 2 preventing the rotation of the vertebra and a connection part 3, 4, 5.
The problem posed with these interbody cages according to the prior art is that of provisional fixation before bone fusion has taken place. Indeed, it is vital for the cage to remain in position. The solutions according to the prior art are not satisfactory since they require direct or indirect impacting of the cage in the intervertebral space.
The major drawbacks of the devices according to the prior art lie both in the fact that they do not allow perfect stabilization of the interbody cage in the spinal segments, particularly during extension and/or rotation movements of the spinal column and in the fact that they do not really allow the ablation of the interbody cage.
SUMMARY OF THE INVENTION
The purpose of the present invention to propose an enhanced interbody cage allowing implantation by the cervical, thoracic or lumbar route, by means of a frontal or rear surgical procedure, guaranteeing effective fixation of the cage before bone fusion and once bone fusion has taken place, and allowing the removal of the cage after bone fusion.
The purpose of the cage according to the invention is to make it possible to keep the intervertebral space constant in order to prevent the distraction of the vertebral bodies.
For this purpose, the broadest embodiment of the invention relates to an interbody spinal stabilization cage according to claim 1.
An anchoring point is, by definition, composed of a lock comprising no degree of freedom. The interbody cage anchored in this way by anchoring means locks the vertebrae in terms of compression, extension and rotation, in order to form a perfectly attached assembly.
Preferentially, the actuation means comprise a rotation actuation head and are mobile in rotation in both directions, to allow reversibility of the anchoring means.
According to a preferred embodiment, said anchoring means have an overall S shape and the centre of gravity of the S shape coincides with the axis of the actuation means.
Advantageously, each anchoring means comprise at least one radial cutting edge roughly perpendicular to the axis of the actuation means, to allow good penetration of the anchoring means in the bone substance when the cage is fitted and possibly during its ablation.
Advantageously, each anchoring means also comprise at least one return cutting edge roughly parallel to the main cutting edge to allow good penetration of the anchoring means in the bone substance during the ablation of the cage.
Also advantageously, each anchoring means comprise a slot, to allow bone regrowth between the arms of the anchoring means. The co-operation obtained in this way between the anchoring means and the bone regrowth guarantees perfect support of the vertebrae in terms of compression, extension and rotation.
In addition, the edges of these slots are preferentially at least partially cutting, to allow the production of a slit for the release of the anchoring means and the ablation of the interbody cage.
Also advantageously, the cage according to the invention comprises force locking/unlocking means of the anchoring means in their anchored position.
Finally, advantageously, said actuation means comprise in their centres a hole wherein the walls are threaded, to be able to position one or more additional components, such as a fixation screw, in the axis of the actuation means.
The present invention also relates to a spinal stabilization method using the interbody spinal stabilization cage according to the invention, positioned between two vertebrae, the actuation means of the interbody cage being used to actuate said S-shaped anchoring means in order to enable them to change from a retracted position wherein they are positioned inside said cage to a projecting position wherein their ends come out of said cage, wherein said cage is inserted between two spinal vertebrae with the S-shaped anchoring means in the retracted position, and wherein the actuation means are actuated so that the ends of the S-shaped anchoring means come out of the cage and penetrate the vertebrae.
Advantageously, the vertebral disks of the vertebrae between which the interbody cage is to be positioned are cut beforehand using a cutting instrument, in order to prevent the distraction of the vertebrae when the anchoring means penetrate.
Also advantageously, said vertebrae are compressed using a correction instrument, during the anchoring of said interbody cage.
Indeed, a significant distraction strain on the vertebrae during the positioning of the anchoring means is not acceptable. Depending on the torque requ
Bolger Ciaran
Bolger John
Bachman & LaPointe P.C.
Robert Eduardo C.
Spinevision S.A.
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