Multiple expansion stage interbody devices

What is claimed: 1. An expandable interbody device, comprising: a structural body having an upper endplate and a lower endplate, wherein the upper and lower endplates are shaped to nest tightly in a closed position, wherein each of the upper and lower endplates include at least one first oblique surface; at least one wedge block arranged between the upper and lower endplates of the structural body, wherein the at least one wedge block includes at least one second oblique surface, wherein the at least one wedge block defines a wedge block opening, the wedge block opening defining a plurality of threads; at least one linkage block arranged between the upper and lower endplates of the structural body, wherein the at least one linkage block comprises a plurality of linkages and a shear pin disposed at a respective proximal end of each of the linkages; and a drive screw extending through the wedge block opening of the at least one wedge block and through the at least one linkage block, wherein the drive screw is configured to rotate and engage the threads of the wedge block opening to drive the at least one wedge block such that the at least one second oblique surface of the wedge block engages the at least one first oblique surface of the upper and lower endplates to cause the upper and lower endplates of the structural body to expand from the closed position to an intermediate position, and wherein the drive screw is further configured to rotate and drive the at least one linkage block to expand the upper and lower endplates of the structural body from the intermediate position to an open position. 2. The expandable interbody device of claim 1 , wherein the shear pin is configured to prevent rotation of the upper and lower endplates about an axis of the drive screw. 3. The expandable interbody device of claim 1 , wherein the shear pin extends from the at least one linkage block into a portion of the at least one wedge block. 4. The expandable interbody device of claim 3 , wherein the shear pin is attached to the portion of the at least one wedge block. 5. The expandable interbody device of claim 1 , wherein the shear pin extends from the at least one linkage block without extending into a portion of the at least one wedge block. 6. The expandable interbody device of claim 1 , wherein the upper and lower endplates comprise first oblique surfaces and the at least one wedge block comprises second oblique surfaces, and wherein the first oblique surfaces are configured to engage with the second oblique surfaces to expand the upper and lower endplates of the structural body from the closed position to the intermediate position. 7. The expandable interbody device of claim 1 , wherein displacement of the at least one wedge block is configured to exclusively control expansion between the closed and intermediate positions, and wherein displacement of the at least one linkage block is configured to exclusively control expansion between the intermediate and open positions. 8. The expandable interbody device of claim 7 , wherein the at least one wedge block is configured to disengage with the structural body at the intermediate position. 9. The expandable interbody device of claim 7 , wherein the at least one wedge block is configured to bear load during expansion between the closed and intermediate positions. 10. The expandable interbody device of claim 7 , wherein the at least one linkage block is configured to bear load during expansion between the intermediate and open positions. 11. The expandable interbody of claim 1 , wherein the drive screw comprises a first threaded portion and a second threaded portion spaced apart from the first threaded portion. 12. The expandable interbody device of claim 11 , wherein the first threaded portion of the drive screw is configured to engage with corresponding threads of the at least one wedge block. 13. The expandable interbody device of claim 11 , wherein the second threaded portion of the drive screw is configured to engage with corresponding threads of the at least one linkage block. 14. The expandable interbody device of claim 1 , further comprising a plurality of wedge blocks arranged between the upper and lower endplates and on opposite sides of the structural body, wherein each of the wedge blocks is threaded in an opposite-handed direction, and wherein the drive screw is configured to rotate and drive the wedge blocks in opposite directions. 15. The expandable interbody device of claim 1 , further comprising a plurality of linkage blocks arranged between the upper and lower endplates and on opposite sides of the structural body, wherein each of the linkage blocks comprises a plurality of linkages and a shear pin, respectively, wherein each of the linkage blocks is threaded in an opposite-handed direction, and wherein the drive screw is configured to rotate and drive the linkage blocks in opposite directions. 16. The expandable interbody device of claim 1 , wherein the drive screw comprises at least one driver hole. 17. The expandable interbody device of claim 1 , further comprising an alignment block configured to prevent rotation of the upper and lower endplates about an axis of the drive screw. 18. The expandable interbody device of claim 1 , wherein the expandable interbody device comprises a molybdenum-rhenium (MoRe) alloy. 19. The expandable interbody device of claim 18 , wherein the MoRe alloy is Mo47.5Re. 20. The expandable interbody device of claim 1 , wherein the expandable interbody device comprises at least 40 weight percent rhenium (Re); or wherein the expandable interbody device comprises a titanium (Ti) alloy, a titanium-molybdenum (TiMo) alloy, or a cobalt-chromium (CoCr) alloy.