Expandable interbody spacer

The invention claimed is: 1. A surgical method comprising: inserting in a disc space an expandable spacer, wherein the expandable spacer has a first unexpanded configuration and a second expanded configuration that is larger than the first unexpanded configuration, wherein the expandable spacer comprises: an upper endplate and a lower endplate, wherein the upper endplate comprises a first endplate portion and a second endplate portion; a translation member and an actuation member, wherein the actuation member is operably coupled to the translation member; and at least one side slot, wherein the at least one side slot extends a majority of the length of the translation member; and rotating the actuation member in a first direction to cause lateral translation of the translation member in the first direction to thereby cause sliding engagement between ramps of the translation member and ramps of inner sidewalls of the upper and lower endplates thereby causing outward expansion of the upper and lower endplates, wherein an installation instrument engages with the at least one side slot, wherein in the first unexpanded configuration, the first endplate portion and the second endplate portion align with one another such that no opening extends through a midline of the expandable spacer and the first endplate portion and second endplate portion are in contact with the actuation member, and in the second expanded configuration, the first endplate portion and the second endplate portion spread away from one another such that an opening extends through the midline of the expandable spacer and the first endplate portion and second endplate portion are no longer in contact with the actuation member, and wherein the upper endplate and the lower endplate are hinged in the first unexpanded configuration and the second expanded configuration. 2. The method of claim 1 , wherein the expandable spacer further comprises surface texturing on at least one of the upper endplate and the lower endplate. 3. The method of claim 2 , wherein the surface texturing comprises at least one of teeth, ridges or ribbing. 4. The method of claim 1 , wherein the first endplate portion and the second endplate portion are separated from one another along the midline to form a V-shaped configuration. 5. The method of claim 1 , wherein the translation member comprises a first pair of ramps. 6. The method of claim 5 , wherein the first pair of ramps is separated from a second pair of ramps by a bridge member. 7. The method of claim 1 , wherein the actuation member comprises a hex screw opening. 8. A surgical method comprising: inserting in a disc space an expandable spacer, wherein the expandable spacer has a first unexpanded configuration and a second expanded configuration that is larger than the first unexpanded configuration, wherein the expandable spacer comprises: a first endplate and a second endplate, wherein the first endplate comprises a first endplate portion and a second endplate portion; a translation member; an actuation member, wherein the translation member includes a pair of ramps that engage with inner sidewalls of the expandable spacer to cause expansion of the spacer, and at least one side slot, wherein the at least one side slot extends a majority of the length of the translation member; and rotating the actuation member in a first direction to cause lateral translation of the translation member in the first direction to thereby cause sliding engagement between ramps of the translation member and ramps of inner sidewalls of the first and second endplates thereby causing outward expansion of the upper and lower endplates, wherein the first endplate portion separates from the second endplate portion in a v-shape, wherein the translation member is configured to remain positioned between the first endplate and second endplate in an expanded configuration, wherein an installation instrument engages the at least one side slot, wherein in the first unexpanded configuration, the first endplate portion and the second endplate portion align with one another such that no opening extends through a midline of the expandable spacer and the first endplate portion and second endplate portion are in contact with the actuation member, and in the second expanded configuration, the first endplate portion and the second endplate portion spread away from one another such that an opening extends through the midline of the expandable spacer and the first endplate portion and second endplate portion are no longer in contact with the actuation member, and wherein the upper endplate and the lower endplate are hinged in the first unexpanded configuration and the second expanded configuration. 9. The method of claim 8 , wherein the translation member further comprises a bridge member connecting the pair of ramps to a second pair of ramps. 10. The method of claim 8 , wherein at least one of the first endplate and the second endplate includes surface protrusions. 11. The method of claim 10 , wherein the surface protrusions comprise at least one of teeth, ridges, or ribbing. 12. The method of claim 8 , wherein the first endplate portion and the second endplate portion are connected to one another via a hinge member.