Method and apparatus for stabilizing adjacent bones
First Claim
1. An apparatus for implantation into an adjacent pair of vertebral bodies having first and second surfaces, respectively, that oppose each other, said apparatus, when implanted, being attached to each of the vertebral bodies and stabilizing the vertebral bodies while the vertebral bodies fuse together, said apparatus comprising:
- a platform having a third surface extending generally transverse to a longitudinal axis of said apparatus; and
at least two helical spikes for embedding into each of the adjacent pair of vertebral bodies upon rotation of said platform to attach said at least two helical spikes to each of the vertebral bodies and thus fasten the vertebral bodies together, said at least two helical spikes projecting from said third surface of said platform and extending around said longitudinal axis;
each of said at least two helical spikes having a tip portion that is oriented generally transverse to said longitudinal axis for penetrating the first and second surfaces and for screwing into each of the adjacent pair of vertebral bodies as said platform is rotated about said longitudinal axis;
said at least two helical spikes at least partially defining an internal cavity for receiving material that promotes fusion of the vertebral bodies.
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Accused Products
Abstract
An apparatus (10) is provided for implantation into an adjacent pair of vertebral bodies (12 and 14) having first and second surfaces (17 and 19) that oppose each other. The apparatus (10), when implanted, is attached to the adjacent pair of vertebral bodies and stabilizes the vertebral bodies (12 and 14) while the vertebral bodies fuse together. The apparatus (10) comprises a platform (24) having a third surface (38) extending transverse to the first and second surfaces (17 and 19). The apparatus (10) further comprises at least one helical spike (50, 52) for embedding into each of the adjacent pair of vertebral bodies (12 and 14) upon rotation of the platform (24) to attach the helical spike to each of the vertebral bodies and thus fasten the vertebral bodies together. The helical spike (50, 52) projects from the platform (24) and extends around a longitudinal axis (22). The helical spike (50, 52) has a tip portion (58) at a distal end (62) for penetrating the first and second surfaces (17 and 19) and for screwing into the adjacent pair of vertebral bodies (12 and 14) as the platform (24) is rotated. The helical spike (50, 52) at least partially defines an internal cavity (140) for receiving material (130) that promotes fusion of the vertebral bodies (12 and 14).
179 Citations
15 Claims
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1. An apparatus for implantation into an adjacent pair of vertebral bodies having first and second surfaces, respectively, that oppose each other, said apparatus, when implanted, being attached to each of the vertebral bodies and stabilizing the vertebral bodies while the vertebral bodies fuse together, said apparatus comprising:
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a platform having a third surface extending generally transverse to a longitudinal axis of said apparatus; and
at least two helical spikes for embedding into each of the adjacent pair of vertebral bodies upon rotation of said platform to attach said at least two helical spikes to each of the vertebral bodies and thus fasten the vertebral bodies together, said at least two helical spikes projecting from said third surface of said platform and extending around said longitudinal axis;
each of said at least two helical spikes having a tip portion that is oriented generally transverse to said longitudinal axis for penetrating the first and second surfaces and for screwing into each of the adjacent pair of vertebral bodies as said platform is rotated about said longitudinal axis;
said at least two helical spikes at least partially defining an internal cavity for receiving material that promotes fusion of the vertebral bodies. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An apparatus for implantation into an adjacent pair of vertebral bodies having first and second surfaces, respectively, that oppose each other, said apparatus, when implanted, being attached to each of the vertebral bodies and stabilizing the vertebral bodies while the vertebral bodies fuse together, said apparatus comprising:
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a platform having a third surface extending generally transverse to a longitudinal axis of said apparatus; and
at least two helical spikes for embedding into each of the adjacent pair of vertebral bodies upon rotation of said platform to attach said at least two helical spikes to each of the vertebral bodies and thus fasten the vertebral bodies together, said at least two helical spikes projecting from said platform and extending around said longitudinal axis, each of said at least two helical spikes having a helical central axis that forms a helix around said longitudinal axis;
each of said at least two helical spikes further having a circular cross-sectional configuration as viewed in a plane extending perpendicular to said helical central axis of each of said helical spikes;
each of said at least two helical spikes including a tip portion that is oriented generally transverse to said longitudinal axis for penetrating the first and second surfaces and for screwing into the adjacent pair of vertebral bodies as said platform is rotated about said longitudinal axis;
said at least two helical spikes at least partially defining an internal cavity for receiving material that promotes fusion of the vertebral bodies. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method for attaching and stabilizing an adjacent pair of vertebral bodies while the vertebral bodies fuse together, the pair of vertebral bodies having first and second surfaces, respectively, that oppose each other, said method comprising the steps of:
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removing disc material disposed between the vertebral bodies to create an interbody space;
providing an interbody stabilizer for spanning the interbody space and implanting into both of the adjacent pair of vertebral bodies, the interbody stabilizer having a longitudinal axis and comprising a platform and at least two helical spikes, the platform having a third surface extending transverse to the longitudinal axis, the at least two helical spikes projecting from the platform and extending around the longitudinal axis;
rotating the platform of the interbody stabilizer to cause the tip portion of each of the at least two helical spikes to penetrate into and subsequently out of each of the first and second surfaces of the vertebral bodies in an alternating manner to thereby fasten the vertebral bodies together with the interbody stabilizer. - View Dependent Claims (14, 15)
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Specification
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- Resources
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Current AssigneeCleveland Clinic Foundation
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Original AssigneeCleveland Clinic Foundation
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InventorsLieberman, Isador H.
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Primary Examiner(s)Willse, David H.
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Assistant Examiner(s)Blanco, Javier G.
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Application NumberUS10/200,206Publication NumberTime in Patent Office568 DaysField of SearchA61/B 1.718, A61/B 1.758, A61/F.244, 623/17.11, 623/17.16, 606/60, 606/61, 606/73US Class Current623/17.11CPC Class CodesA61F 2/442 Intervertebral or spinal di...A61F 2/446 having a circular or ellipt...A61F 2/4611 of spinal prosthesesA61F 2002/2835 Bone graft implants for fil...A61F 2002/30062 (bio)absorbable, biodegrada...A61F 2002/30289 helically-coiledA61F 2002/30405 made by screwing complement...A61F 2002/30451 soldered or brazed or weldedA61F 2002/30507 using a threaded locking me...A61F 2002/30738 SleevesA61F 2002/30841 Sharp anchoring protrusions...A61F 2002/30851 Multiple threadingsA61F 2210/0004 bioabsorbableA61F 2220/0025 Connections or couplings be...A61F 2220/0058 soldered or brazed or weldedA61F 2230/0091 helically-coiled or spirall...A61F 2310/00017 Iron- or Fe-based alloys, e...A61F 2310/00023 Titanium or titanium-based ...
