Expandable trials

We claim: 1. An intervertebral implant inserter, comprising: a) an elongated central body having a distal end, a proximal end opposite the distal end, an outer surface that extends from the proximal end to the distal end along a distal direction, and a longitudinal throughbore therethrough, b) an upper blade and a lower blade, each of the upper and lower blades having a distal end portion and a base portion, the base portion of each of the upper and lower blades pivotally coupled to the elongated central body, c) a shaft that extends through the throughbore along a longitudinal axis, wherein the shaft is advanceable within the throughbore along the distal direction and rotatable about the longitudinal axis, the shaft having a distal end forming a pusher having an acicular transverse cross-section, such that rotation of the shaft about the longitudinal axis causes the pusher to rotate about the longitudinal axis from a first height to a second height greater than the first height, thereby distracting a disc space; and d) an upper endplate and a lower endplate detachably connected to the distal end portion of the upper and lower blades, respectively. 2. The inserter of claim 1 further comprising: e) a height indicator attached to the elongated central body. 3. The intervertebral implant inserter of claim 1 , wherein each of the upper blade and the lower blade are flexible. 4. The intervertebral implant inserter of claim 1 , wherein the shaft is advanceable from a first position to a second position such that the pusher is between the upper endplate and the lower endplate in the second position. 5. The intervertebral implant inserter of claim 4 , wherein the pusher includes a first cross-sectional width and a second cross-sectional width different from the first cross-sectional width, each of the first cross-sectional width and the second cross-sectional width measured in a plane perpendicular to the longitudinal axis. 6. The intervertebral implant inserter of claim 5 , wherein the shaft is rotatable about the longitudinal axis from a first orientation to a second orientation, wherein the upper endplate and the lower endplate are separated by the first cross-sectional width when the shaft is in the first orientation, and wherein the upper endplate and the lower endplate are separated by the second cross-sectional width when the shaft is in the second orientation. 7. The intervertebral implant inserter of claim 6 , wherein the upper blade and the lower blade are configured to flex from a first configuration when the shaft is in the first orientation to a second configuration when the shaft is in the second orientation. 8. The intervertebral implant inserter of claim 1 , wherein the distal end portion of the upper blade is spaced from the distal end portion of the lower blade in a first direction perpendicular to the longitudinal axis, and wherein a distal end of the upper endplate abuts a distal end of the lower endplate. 9. The intervertebral implant inserter of claim 1 , wherein the upper blade includes an upper blade first edge and an upper blade second edge spaced from the upper blade first edge along a lateral axis perpendicular to the longitudinal axis, and wherein the pusher includes a pusher first edge and a pusher second edge, the pusher first edge positioned laterally outward of the upper blade first edge and the pusher second edge positioned laterally outward of the upper blade second edge. 10. The intervertebral implant inserter of claim 1 , wherein the implant comprises an intervertebral device having: a) a first strut comprising i) an upper portion forming an upper surface having teeth adapted for gripping an upper natural endplate and ii) a lower portion forming a lower surface comprising teeth adapted for gripping a lower natural endplate, b) an upper arm pivotally connected to the upper portion of the first strut by an upper pivot pin and having an upper surface having teeth adapted for gripping the upper natural endplate, c) a lower arm pivotally connected to the lower portion of the first strut and having a lower surface having teeth adapted for gripping the lower natural endplate, and d) a second strut extending between a lower surface of the upper arm and an upper surface of the lower arm adapted for locking the device in an expanded condition, wherein the upper surface of the first strut and the upper surface of the upper arm are substantially parallel in the expanded condition, wherein the lower surface of the first strut and the lower surface of the lower arm are substantially parallel in the expanded condition, wherein the upper pivot pin does not pass through the upper surface of the first strut, and wherein the teeth of the first strut extend in a direction substantially perpendicular to the upper pivot pin. 11. The intervertebral implant inserter of claim 1 , further comprising an implant adapted to be positioned distal of the pusher when the shaft is in a retracted position such that advancement of the shaft along the longitudinal axis inserts the implant into a space between adjacent vertebrae. 12. The intervertebral implant inserter of claim 1 , wherein at least a portion of each of the upper and lower blades are positioned within the throughbore. 13. The inserter of claim 1 wherein the upper and lower endplates each have an upper surface, a lower surface, and a central throughhole extending from the upper surface to the lower surface. 14. An intervertebral assembly comprising: a) the inserter of claim 13 , and b) a spacer disposed distal of and in contact with the pusher, the spacer having an upper surface, a lower surface, and vertical throughhole extending between the upper and lower surfaces of the spacer. 15. An intervertebral assembly comprising: a) the inserter of claim 13 , and b) a spacer disposed between the endplates and having an upper surface, a lower surface, and vertical throughhole extending between the upper and lower surfaces of the spacer. 16. The assembly of claim 15 wherein the upper surface of the spacer is substantially uniplanar with the lower surface of the upper endplate, and the lower surface of the spacer is substantially uniplanar with the upper surface of the lower endplate. 17. The assembly of claim 15 wherein the vertical throughhole of the spacer substantially aligns with the central throughhole of each of the upper and lower endplates.