Angling inserter tool for expandable vertebral implant

What is claimed is: 1. A method for inserting an implant, comprising: attaching an inserter tool to a vertebral implant having a first member, a second member movable relative to the first member along a longitudinal axis, and a gear member positioned coaxially to the first and second members and having an array of gear teeth, rotation of the gear member causing movement of the first member relative to the second member along the longitudinal axis; positioning the attached vertebral implant between two adjacent vertebral bodies; expanding the positioned vertebral implant with the inserter tool by rotating a toothed gear disposed in the inserter tool, rotation of the toothed gear causing rotation of the gear teeth of the gear member in mesh with the toothed gear which in turn causes movement of the first member relative to the second member, wherein the inserter tool includes a central shaft having a threaded distal tip portion and the step of attaching an inserter tool includes threading the threaded distal tip portion into a threaded opening in the vertebral implant, and wherein the vertebral implant includes a lock for locking rotation of the gear member and the step of threading the threaded distal tip portion unlocks the lock. 2. The method of claim 1 , wherein the inserter tool includes a base portion and a tip assembly rotatably secured to the base portion, the method further comprising rotating the tip assembly while the vertebral implant is attached to the tip assembly of the inserter tool. 3. The method of claim 1 , wherein the lock is biased to lock the rotation of the gear member, the method further comprising, after the step of expanding the vertebral implant, detaching the inserter tool from the vertebral implant to automatically lock the lock to prevent rotation of the vertebral implant. 4. The method of claim 1 , wherein the inserter tool comprises: a base portion including an internal shaft and a primary drive shaft; a tip assembly rotatably secured to the base portion by a pin having a pin axis, wherein the tip assembly includes a tip portion and a central shaft disposed in a through-bore in the tip portion; and a primary gear mechanism to drive the gear member and a secondary gear mechanism to securely attach the tip assembly to the vertebral implant, the secondary gear mechanism transferring rotation of the primary drive shaft to the central shaft, wherein the tip assembly rotates about the pin axis upon longitudinal advancement of the internal shaft; wherein the step of expanding the positioned vertebral implant includes driving the primary gear mechanism to rotate the gear member in order to cause movement of the first member relative to the second member; the method further comprising translating the internal shaft to cause rotation of the tip assembly about the pin axis. 5. The method of claim 4 , wherein the central shaft has a threaded distal tip portion and the step of attaching an inserter tool includes rotating the central shaft to thread the threaded distal tip portion into a threaded opening in the vertebral implant. 6. The method of claim 4 , wherein the central shaft has a threaded distal tip portion and the step of attaching an inserter tool includes driving the secondary gear mechanism to thread the threaded distal tip portion into a threaded opening in the vertebral implant. 7. The method of claim 4 , wherein the vertebral implant includes a lock for locking rotation of the gear member and the step of rotating the central shaft to thread the threaded distal tip portion unlocks the lock. 8. The method of claim 7 , wherein the lock is biased to lock the rotation of the gear member, the method further comprising, after the step of expanding the vertebral implant, detaching the inserter tool from the vertebral implant to automatically lock the lock to prevent rotation of the vertebral implant. 9. A method for inserting an implant, comprising: attaching an angling inserter tool to a vertebral implant having a first member, a second member movable relative to the first member along a longitudinal axis, and a gear member positioned coaxially to the first and second members and having an array of gear teeth, rotation of the gear member causing movement of the first member relative to the second member along the longitudinal axis, wherein the angling inserter tool includes a base portion and a tip assembly rotatably secured to the base portion by a pin having a pin axis; angling the attached vertebral implant by rotating the tip assembly about the pin axis; positioning the attached vertebral implant in between two adjacent vertebral bodies; expanding the positioned vertebral implant with the angling inserter tool by rotating a toothed gear disposed in the tip assembly, rotation of the toothed gear causing rotation of the gear teeth of the gear member in mesh with the toothed gear which in turn causes movement of the first member relative to the second member, wherein the angling inserter tool includes a central shaft having a threaded distal tip portion and the step of attaching an inserter tool includes threading the threaded distal tip portion into a threaded opening in the vertebral implant, and wherein the vertebral implant includes a lock for locking rotation of the gear member and the step of threading the threaded distal tip portion unlocks the lock. 10. The method of claim 9 , wherein the lock is biased to lock the rotation of the gear member, the method further comprising, after the step of expanding the vertebral implant, detaching the angling inserter tool from the vertebral implant to automatically lock the lock to prevent rotation of the expanded vertebral implant. 11. The method of claim 9 , wherein: the base portion includes an internal shaft and a primary drive shaft; the tip assembly includes a tip portion and a central shaft disposed in a through-bore in the tip portion; and the angling inserter tool further includes: a primary gear mechanism to drive the gear member and a secondary gear mechanism to securely attach the tip assembly to the vertebral implant, the secondary gear mechanism transferring rotation of the primary drive shaft to the central shaft, wherein the tip assembly rotates about the pin axis upon longitudinal advancement of the internal shaft; the step of expanding the positioned vertebral implant includes driving the primary gear mechanism to rotate the gear member in order to cause movement of the first member relative to the second member; the step of angling the attached vertebral implant includes translating the internal shaft to cause rotation of the tip assembly about the pin axis. 12. The method of claim 11 , wherein the central shaft has a threaded distal tip portion and the step of attaching an angling inserter tool includes rotating the central shaft to thread the threaded distal tip portion into a threaded opening in the vertebral implant. 13. The method of claim 11 , wherein the central shaft has a threaded distal tip portion and the step of attaching an inserter tool includes driving the secondary gear mechanism to thread the threaded distal tip portion into a threaded opening in the vertebral implant. 14. The method of claim 11 , wherein the vertebral implant includes a lock for locking rotation of the gear member and the step of rotating the central shaft to thread the threaded distal tip portion unlocks the lock. 15. The method of claim 14 , wherein the lock is biased to lock the rotation of the gear member, the method further comprising, after the step of expanding the vertebral implant, detaching the inserter tool from th