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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
---|---|
국제특허분류(IPC7판) |
|
출원번호 | US-0783977 (2017-10-13) |
등록번호 | US-10219915 (2019-03-05) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 308 |
An expandable spinal fusion implant comprising first and second endplates coupled to an expansion member that sits within a housing. The expansion member is translated by a drive mechanism, whereby translation of the expansion member by the drive mechanism in a distal and proximal directions causes
An expandable spinal fusion implant comprising first and second endplates coupled to an expansion member that sits within a housing. The expansion member is translated by a drive mechanism, whereby translation of the expansion member by the drive mechanism in a distal and proximal directions causes the distance between the endplates to increase and decrease, respectively.
1. An expandable fusion implant, comprising: first and second endplates each having a bone contacting surface and an interior surface with a central fusion aperture extending there between, the interior surface of each of the first and second endplates including a first and second ramped surface;an
1. An expandable fusion implant, comprising: first and second endplates each having a bone contacting surface and an interior surface with a central fusion aperture extending there between, the interior surface of each of the first and second endplates including a first and second ramped surface;an expansion mechanism having a first and second wedge, each of the first and second wedges having a first ramp that engages the first and second ramped surfaces of the first endplate and a second ramp that engages the first and second ramped surfaces of the second endplate;a housing defined by opposing lateral walls, a distal wall, and a proximal wall, the housing having a longitudinal length that is greater than a longitudinal length of the first and second endplates; anda drive mechanism having a head, a shaft extending from the head and terminating in a distal end, the shaft dimensioned to be received through an aperture in the proximal wall of the housing and the distal end configured to be received within a recess in the expansion mechanism, wherein rotation of the shaft in a first direction simultaneously drives both the first wedge and the second wedge toward the distal wall of the housing;wherein the drive mechanism is offset from a width centerline extending from the proximal wall to the distal wall of the housing, wherein the housing has a cannula that is in communication with a central aperture in the expansion mechanism, and wherein the central aperture in the expansion mechanism is in communication with the central fusion apertures of the first and second endplates. 2. The expandable fusion implant of claim 1, wherein each of the first and second ramps of the first and second wedges faces at least partially toward the distal wall of the housing. 3. The expandable fusion implant of claim 2, wherein the first ramp of the first wedge engages the first ramped surface of the first endplate when the first wedge is distally advanced toward the distal wall, and the first ramp of the second wedge engages the second ramped surface of the first endplate when the second wedge is distally advanced toward the distal wall. 4. The expandable fusion implant of claim 1, wherein rotation of the shaft in a second direction simultaneously retracts both the first wedge and the second wedge away from the distal wall of the housing. 5. The expandable fusion implant of claim 1, wherein rotation of the shaft in the first direction advances the entire expansion mechanism toward the distal wall of the housing. 6. The expandable fusion implant of claim 5, wherein rotation of the shaft in a second direction retracts the entire expansion mechanism away from the distal wall of the housing. 7. The expandable fusion implant of claim 1, wherein the first wedge is fixedly secured relative to the second wedge, wherein the central aperture in the expansion mechanism is positioned between the first wedge and the second wedge. 8. An expandable fusion implant, comprising: superior and inferior endplates each having a bone contacting surface and an interior surface with a central fusion aperture extending therebetween, the interior surface of each of the superior and inferior endplates including a distal and proximal ramped surface;an expansion mechanism having a distal wedge and a proximal wedge and a central aperture, the distal wedge having a distal wedge superior ramp that engages the distal ramped surface of the superior endplate, the distal wedge having a distal wedge inferior ramp that engages the distal ramped surface of the inferior endplate, the proximal wedge having a proximal wedge superior ramp that engages the proximal ramped surface of the superior endplate, and the proximal wedge having a proximal wedge inferior ramp that engages the proximal ramped surface of the inferior endplate, wherein each of the distal wedge superior ramp, distal wedge inferior ramp, proximal wedge superior ramp, and proximal wedge inferior ramp faces at least partially toward the distal wall of the housing;a housing defined by opposing lateral walls, a distal wall, and a proximal wall, the housing having a longitudinal length that is greater than a longitudinal length of the superior and inferior endplates; anda drive mechanism having a head, a shaft extending from the head and terminating in a shaft distal end, the shaft dimensioned to be received through an aperture in the proximal wall of the housing, and the shaft distal end configured to engage the expansion mechanism and thereby cause movement of the distal wedge and proximal wedge;wherein the drive mechanism is offset from a width centerline of the housing extending from the proximal wall to the distal wall of the housing, wherein the drive mechanism is configured to simultaneously advance the distal wedge and the proximal wedge toward the distal wall of the housing, wherein the housing has a cannula that is in communication with the central aperture in the expansion mechanism, and wherein the central aperture in the expansion mechanism is in communication with the central fusion apertures of the superior and inferior endplates. 9. The expandable fusion implant of claim 8, wherein the drive mechanism is configured to simultaneously retract the distal wedge and the proximal wedge away from the distal wall of the housing. 10. The expandable fusion implant of claim 8, wherein rotation of the shaft in a first direction advances both the distal wedge and the proximal wedge toward the distal wall of the housing. 11. The expandable fusion implant of claim 10, wherein rotation of the shaft in a second direction opposite to the first direction retracts the both the distal wedge and the proximal wedge away from the distal wall of the housing. 12. The expandable fusion implant of claim 8, wherein during simultaneous advancement of the distal wedge and the proximal wedge toward the distal wall, the distal wedge does not move with respect to the proximal wedge. 13. The expandable fusion implant of claim 8, wherein the expansion mechanism comprises an aperture in which the shaft distal end is positioned. 14. An expandable fusion implant, comprising: superior and inferior endplates each having a bone contacting surface and an interior surface with a central fusion aperture extending therebetween, the interior surface of each of the superior and inferior endplates including a distal and proximal ramped surface;an expansion mechanism having a distal wedge and a proximal wedge and an expansion mechanism central aperture, the distal wedge having a distal wedge superior ramp that engages the distal ramped surface of the superior endplate, the distal wedge having a distal wedge inferior ramp that engages the distal ramped surface of the inferior endplate, the proximal wedge having a proximal wedge superior ramp that engages the proximal ramped surface of the superior endplate, and the proximal wedge having a proximal wedge inferior ramp that engages the proximal ramped surface of the inferior endplate;a housing defined by opposing lateral walls, a distal wall, and a proximal wall, the housing having a longitudinal length that is greater than a longitudinal length of the superior and inferior endplates; anda drive mechanism configured to engage the expansion mechanism and thereby cause simultaneous and equal movement of both the distal wedge and the proximal wedge in a direction toward the distal wall; wherein the drive mechanism is offset from a width centerline of the housing extending from the proximal wall to the distal wall of the housing, and wherein the housing has a cannula that is in communication with the expansion mechanism central aperture;wherein the expansion mechanism central aperture is in communication with the central fusion apertures of the superior and inferior endplates to thereby form a continuous and unobstructed opening which extends through the entire expandable fusion implant when viewed from a position superior to the superior endplate. 15. The expandable fusion implant of claim 14, wherein the drive mechanism comprises a head and a shaft, the shaft extending from the head and terminating in a shaft distal end, the shaft dimensioned to be received through an aperture in the proximal wall of the housing, and the shaft distal end configured to engage the expansion mechanism and thereby cause movement of the distal wedge and proximal wedge. 16. The expandable fusion implant of claim 15, wherein rotation of the shaft in a first direction advances both the distal wedge and the proximal wedge toward the distal wall of the housing. 17. The expandable fusion implant of claim 16, wherein rotation of the shaft in a second direction opposite to the first direction retracts both the distal wedge and the proximal wedge away from the distal wall of the housing. 18. The expandable fusion implant of claim 14, wherein each of the opposing lateral walls is substantially straight.
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