To change a spatial relationship between two or more bones in a patient's body, a wedge member is moved into a joint between the bones. The wedge member may have a cam-shaped configuration and be rotated through less than a revolution to apply force against the bones. The wedge member may have a por
To change a spatial relationship between two or more bones in a patient's body, a wedge member is moved into a joint between the bones. The wedge member may have a cam-shaped configuration and be rotated through less than a revolution to apply force against the bones. The wedge member may have a porous construction which enables bone to grow through the wedge member and immobilize the joint. The wedge member may be coated with and/or contain bone growth promoting material. The wedge member may be connected to only one of the bones or may be connected to two adjacent bones. If the wedge member is connected to only one bone, the joint may be capable of being flexed after the wedge member is inserted into the joint.
대표청구항▼
1. An implantable device for maintaining a spatial relationship between a first bone and a second bone of a joint, the implantable device comprising: a body formed of a substantially rigid, biocompatible polymeric material having a trailing end, a leading end, an upper surface and a lower surface, t
1. An implantable device for maintaining a spatial relationship between a first bone and a second bone of a joint, the implantable device comprising: a body formed of a substantially rigid, biocompatible polymeric material having a trailing end, a leading end, an upper surface and a lower surface, the body having a longitudinal central axis, the upper and lower surfaces configured such that the body is thicker at the trailing end than at the leading end, a tooling socket extending into the trailing end and defining a tooling socket axis, the tooling socket axis being substantially parallel to the longitudinal central axis, an upper mounting tab integrally formed with the body and extending upwardly from the upper surface, a lower mounting tab integrally formed with the body and extending downwardly from the lower surface, an upper fastener hole in the upper mounting tab and a lower fastener hole in the lower mounting tab, the tooling socket positioned between the upper and lower fastener holes, the lower fastener hole positioned on a vertical plane defined by the tooling socket axis and the upper fastener hole. 2. The implantable device of claim 1, further comprising: an upper fastener having a head and a threaded shaft, the upper fastener configured for positioning in the upper fastener hole and for positioning in the first bone in a mounted configuration; anda lower fastener having a head and a threaded shaft, the lower fastener configured for positioning in the lower fastener hole and for positioning in the second bone in the mounted configuration. 3. The implantable device of claim 2, wherein the heads of the upper and lower fasteners are positionable in engagement with the trailing end in the mounted configuration. 4. The implantable device of claim 1, wherein the upper fastener hole defines an upper longitudinal axis and the lower fastener hole defines a lower longitudinal axis, the upper and lower longitudinal axes oriented generally perpendicular to the trailing end. 5. The implantable device of claim 1, wherein the body further includes a first side portion and a second side portion, the first and second side portions extending between the upper and lower surfaces. 6. The implantable device of claim 5, wherein the first and second side portions taper from the trailing end toward the leading end. 7. The implantable device of claim 1, wherein the tooling socket is comprised of a hexagonal socket, the tooling socket axis being substantially coaxial with the longitudinal central axis, the hexagonal socket configured to receive a suitable tool to rotate the body through less than one revolution. 8. The implantable device of claim 1, wherein the upper and lower surfaces are generally flat. 9. The implantable device of claim 8, wherein the upper and lower surfaces are generally smooth. 10. The implantable device of claim 1, wherein the leading end has a blunt end portion. 11. The implantable device of claim 1, wherein the leading end tapers to a sharp leading edge. 12. The implantable device of claim 1, wherein the body further includes a bone growth passage formed therein, the bone growth passage extending between the upper surface and the lower surface, the bone growth passage configured to facilitate bone growth through the body between the first bone and the second bone in a mounted configuration. 13. The implantable device of claim 1, wherein shapes of the upper and lower surfaces of the body are configured to correspond to the first and second bones, the first and second bones being comprised of a superior vertebra and an inferior vertebra, respectively. 14. The implantable device of claim 1, wherein the body is coated with a material that promotes bone growth. 15. The implantable device of claim 1, wherein the body tapers from the trailing end toward the leading end, the taper being configured to facilitate insertion of the body into the joint, the joint being comprised of a vertebral joint between a superior vertebra and an inferior vertebra. 16. The implantable device of claim 1, wherein the body includes a first side surface and a second side surface extending between the trailing end and the leading end, the first and second side surfaces having an irregular configuration such that the first and second side surfaces are configured to be aligned with outer surfaces of the first and second bones, wherein the first bone is a superior vertebra and the second bone is an inferior vertebra. 17. The implantable device of claim 1, wherein the body includes a first side surface and a second side surface extending between the trailing end and the leading end, the first and second side surfaces being nonlinear and shaped to correspond to the configuration of the joint, wherein the joint is between vertebrae. 18. The implantable device of claim 1, wherein the upper and lower surfaces define an acute angle. 19. The implantable device of claim 18, wherein the acute angle is between one and thirty degrees (1-30°). 20. The implantable device of claim 19, wherein the acute angle is between five and twenty degrees (5-20°). 21. The implantable device of claim 1, wherein the upper fastener hole, the tooling socket and the lower fastener hole are positioned on the vertical plane. 22. The implantable device of claim 1, wherein the body, including the upper mounting tab and the lower mounting tab, is formed entirely of the polymeric material. 23. The implantable device of claim 1, wherein the body is comprised of a wedge member. 24. The implantable device of claim 1, wherein the upper and lower surfaces are substantially continuous proximate the longitudinal axis. 25. The implantable device of claim 1, wherein the tooling socket has an open proximal end and a closed distal end. 26. The implantable device of claim 1, wherein the polymeric material is comprised of a rigid, porous material having an open cell construction. 27. The implantable device of claim 1, wherein the polymeric material is a biodegradable material. 28. The implantable device of claim 1, wherein the biocompatible material is substantially solid proximate the longitudinal central axis between a distal end of the tooling socket and the leading end. 29. An implantable device for maintaining a spatial relationship between a superior vertebra and an inferior vertebra of a vertebral joint, the implantable device comprising: a body formed of a polymeric material having a trailing end, a leading end, an upper surface and a lower surface, a central axis extending from the trailing end to the leading end, a tooling socket extending into the trailing end along a tooling socket axis, the tooling socket axis being substantially parallel to the central axis, the tooling socket having an open proximal end and a closed distal end, the polymeric material of the body being substantially solid proximate the central axis between the closed distal end and the leading end, an upper mounting tab integrally formed with the body and extending upwardly from the upper surface, the upper surface tapering substantially consistently from the upper mounting tab to the leading end such that the body is thicker proximate the trailing end than at the leading end, a lower mounting tab integrally formed with the body and extending downwardly from the lower surface, an upper fastener hole in the upper mounting tab and a lower fastener hole in the lower mounting tab, the central axis, the upper fastener hole and the lower fastener hole positioned on and defining a vertical plane. 30. The implantable device of claim 29, wherein the body includes a bone growth passage that is configured to facilitate bone growth through the body between the superior vertebra and the inferior vertebra in a mounted configuration. 31. The implantable device of claim 29, wherein the bone growth passage is configured for at least partially packing with bone growth material. 32. The implantable device of claim 29, wherein the upper and lower surfaces taper from the trailing end toward the leading end. 33. The implantable device of claim 29, wherein the leading end has a blunt end portion. 34. The implantable device of claim 29, wherein the leading end tapers to a sharp leading edge. 35. The implantable device of claim 29, wherein the tooling socket is comprised of a hexagonal socket. 36. The implantable device of claim 29, further comprising: an upper fastener having a head and a threaded shaft, the upper fastener configured for positioning in the upper fastener hole and for positioning in the superior vertebra in a mounted configuration; anda lower fastener having a head and a threaded shaft, the lower fastener configured for positioning in the lower fastener hole and for positioning in the inferior vertebra in the mounted configuration. 37. The implantable device of claim 29, wherein the body is comprised of a wedge member. 38. The implantable device of claim 29, wherein the trailing end defines a trailing thickness and the leading end defines a leading thickness, the trailing thickness being greater than the leading thickness. 39. An implantable device for maintaining a spatial relationship between a superior vertebra and an inferior vertebra of a vertebral joint, the implantable device comprising: a body formed of a polymeric material having a trailing end, a leading end, an upper surface and a lower surface, a central axis extending from the trailing end to the leading end, the trailing end defines a trailing thickness and the leading end defines a leading thickness, the trailing thickness being greater than the leading thickness, the leading end having a blunt end portion, a tooling socket extending into the trailing end having an open proximal end and a closed distal end, the tooling socket defining a tooling socket axis that is substantially parallel with the central axis, the polymeric material of the body being substantially solid between the tooling socket, the leading end, the upper surface and the lower surface proximate the central axis, an upper mounting tab integrally formed with the body and extending upwardly from the upper surface, a lower mounting tab integrally formed with the body and extending downwardly from the lower surface, an upper fastener hole in the upper mounting tab and a lower fastener hole in the lower mounting tab, the central axis, the upper fastener hole and the lower fastener hole positioned on and defining a vertical plane, the body further including a bone growth passage, the bone growth passage extending between the upper and lower surfaces, the leading end being substantially blunt. 40. The implantable device of claim 39, wherein the upper and lower surfaces define an acute angle. 41. The implantable device of claim 40, wherein the acute angle is between one and thirty degrees (1-30°). 42. The implantable device of claim 40, wherein the acute angle is between five and twenty degrees (5-20°). 43. The implantable device of claim 40, wherein the tooling socket extends into the trailing end generally coaxially with the central axis. 44. The implantable device of claim 39, wherein the polymeric material is biocompatible. 45. The implantable device of claim 44, wherein the polymeric material is comprised of a rigid, porous material having an open cell construction. 46. The implantable device of claim 44, wherein the open cells in the polymeric material are at least partially filled with bone growth promoting material. 47. The implantable device of claim 39, wherein the upper and lower surfaces are substantially continuous proximate the central axis.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (107)
Hochshuler Stephen H. ; Wagner Erik J. ; Rashbaum Ralph F. ; Guyer Richard D., Adjustable height fusion device.
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.
Heggeness Michael H. (3301 Drummond Houston TX 77025) Doherty Brian J. (350 Sharon Park Dr. Apt. E 39 Menlo Park CA 94025), Prosthetic intervertebral devices.
Gresser Joseph D. ; Trantolo Debra J. ; Langer Robert S. ; Lewandrowski Kai-Uwe ; Klibanov Alexander M. ; Wise Donald L., Resorbable interbody spinal fusion devices.
Penenberg Brad L. (19 Charles St. Braintree MA 02184) Jasty Murali (7 Arden Rd. Wellesley MA 02181) Chandler Hugh P. (Lewis Wharf 438 Boston MA 02110), Tibial prosthesis, template and reamer.
Regula Donald W. (Belle Mead NJ) Cooper Kevin (Warren NJ) Bregen Michael F. (Milford NJ) Huxel Shawn T. (Lakehurst NJ) Rosenman Daniel C. (San Mateo CA), Utilization of biocompatible adhesive/sealant materials for securing surgical devices.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.