An expandable osteosynthesis implant has branches (5) each connected at one end to a seat (7) which is pierced by an orifice (8), suitable for being slid from a posterior direction between the facing faces of two consecutive vertebrae in order to hold them a given distance apart and restore stabilit
An expandable osteosynthesis implant has branches (5) each connected at one end to a seat (7) which is pierced by an orifice (8), suitable for being slid from a posterior direction between the facing faces of two consecutive vertebrae in order to hold them a given distance apart and restore stability of the spinal column. According to the invention, said branches (5) and said seat (7) define a hollow cage (1) which, in a “rest” position, has an outside general shape that is a cylinder of circular section, and a portion at least of the inside volume (9) of the cage (1) towards the distal ends of said branches (5) is in the form of a circular truncated cone whose large base is towards said seat (7) which implant has at least three branches (5) and, inside said inside volume (9) at least one spacer (2) suitable for passing through said orifice (8) and the large base of the truncated cone.
대표청구항▼
1. An intervertebral spacing implant comprising: a seat having a proximal end, a distal end, and a plurality of flat planar surfaces between the proximal and distal ends;a plurality of branches coupled to the distal end of the seat and extending in a distal direction away from the seat, the seat and
1. An intervertebral spacing implant comprising: a seat having a proximal end, a distal end, and a plurality of flat planar surfaces between the proximal and distal ends;a plurality of branches coupled to the distal end of the seat and extending in a distal direction away from the seat, the seat and the branches forming a cage defining an internal volume, each branch having an inward side and an outward side;one or more spacers, each having a perimeter and a connector to removably couple to a spacer-advancing instrument, the one or more spacers configured to fit within the cage and move in the distal direction upon the urging of the spacer-advancing instrument, the one or more spacers and cage configured such that one or more branches will move from an unextended position to an extended position when the one or more spacers are urged in the distal direction;one or more shoulders formed on the inward side of one or more branches, the one or more shoulders configured to secure at least one of the one or more spacers near the distal end of the plurality of branches by resisting proximal movement of the at least one of the one or more spacers;an orifice, having a perimeter, extending from the internal volume of the cage and through the seat to the proximal end of the seat, the orifice configured to allow the spacer-advancing instrument to pass through; andwherein (a) the internal volume between the distal end of the seat and at least one of the one or more spacers is unoccupied by a link member when the at least one of the one or more spacers is secured by the one or more shoulders and the spacer-advancing instrument is removed, (b) the orifice and the cage are configured to allow insertion of graft material into the internal volume, (c) at least one of the one or more shoulders includes a portion non-collinear with the inward side of at least one of the one or more branches the one or more shoulders are formed on, and (d) at least one of the plurality of flat planar surfaces is coupled to, but not included within, a planar surface that includes the orifice. 2. The intervertebral spacing implant of claim 1, wherein an outside general shape of the cage is cylindrical or quasi-cylindrical when the plurality of branches are in an unextended position. 3. The intervertebral spacing implant of claim 1, wherein an outside general shape of the cage is frustoconical, flaring away from the seat, when one or more branches are in an extended position. 4. The intervertebral spacing implant of claim 1, wherein the plurality of branches comprises three or more branches. 5. The intervertebral spacing implant of claim 1, wherein the seat and at least one branch form a unitary structure. 6. The intervertebral spacing implant of claim 1, wherein at least a portion of the outward side of one or more branches comprises ridges. 7. The intervertebral spacing implant of claim 1, wherein the one or more branches that will move from an unextended position to an extended position when the at least one of the one or more spacers is urged in the distal direction further comprise the one or more shoulders. 8. The intervertebral spacing implant of claim 1, wherein the extended position is an active position. 9. The intervertebral spacing implant of claim 1, wherein the unextended position is a rest position. 10. The intervertebral spacing implant of claim 1, wherein the extended position is an active position and the unextended position is a rest position. 11. The intervertebral spacing implant of claim 1, wherein the plurality of branches are configured to enable bilateral expansion of the implant. 12. The intervertebral spacing implant of claim 1, wherein the orifice comprises threads. 13. The intervertebral spacing implant of claim 1, further comprising a plug configured to mate with the orifice. 14. The intervertebral spacing implant of claim 1, wherein at least a portion of the internal volume is in the form of a truncated cone when the plurality of branches are in an unextended position. 15. The intervertebral spacing implant of claim 1, wherein at least a portion of the internal volume is in the form of a truncated cone when one or more branches are in an extended position. 16. The intervertebral spacing implant of claim 1, wherein (a) a proximal facing edge of the perimeter of the at least one of the one or more spacers is tapered, and (b) the proximal facing edge includes a face that is tapered in a plane parallel to a long axis of the implant. 17. The intervertebral spacing implant of claim 1, wherein two of the plurality of branches partially define a slot configured to allow fusion between the graft material and a vertebra. 18. The intervertebral spacing implant of claim 17, wherein the seat, the at least one of the one or more spacers, and the two branches define the slot when one or more branches are in an extended position. 19. The intervertebral spacing implant of claim 18, wherein an additional two of the plurality of branches partially define an additional slot configured to allow fusion between the graft material and an additional vertebra. 20. The intervertebral spacing implant of claim 1, wherein the portion non-collinear with the inward side of at least one of the one or more branches is configured to directly contact the at least one of the one or more spacers when one or more branches are in an extended position.
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이 특허에 인용된 특허 (103)
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Mehdian Seyed M. H. (Princess Elizabeth Orthopaedic Hospital ; Wonford Road Exeter ; EX2 4UE ; Devon GB2), Apparatus for use in the treatment of spinal disorders.
Sutter Franz (Niederdorf CHX) Straumann Fritz (Waldenburg CHX) Raveh Joram (Oberbottigen CHX), Device comprising an implant and screws for fastening said implant to a bone, and a device for connecting two separated.
Huene Donald R., Expandable implant for inter-bone stabilization and adapted to extrude osteogenic material, and a method of stabilizing bones while extruding osteogenic material.
Zdeblick Thomas (Madison WI) Ray ; III Eddie (Cordova TN) Boyd Lawrence M. (Memphis TN), Interbody fusion device and method for restoration of normal spinal anatomy.
Goble E. Marlowe (Logan UT) Luman David P. (Logan UT) Chervitz Alan (Logan UT) Story C. Brad (Liberty UT) Gundlalpalli Ramarao (Logan UT), Ligament bone anchor and method for its use.
Rybicki Edmund F. (Worthington OH) Wheeler Kenneth Ray (Richland WA) Hulbert Lewis E. (Columbus OH) Karagianes Manuel Tom (Richland WA) Hassler Craig R. (Columbus OH), Porous expandable device for attachment to bone tissue.
Marnay Thierry (Nimes FRX) Huppert Jean (L\Etrat FRX) Ameil Marc (Reims FRX), Rehabitable connecting-screw device for a bone joint, intended in particular for stabilizing at least two vertebrae.
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