Expandable spinal fusion implant, related instruments and methods

What is claimed is: 1. An intervertebral spacer, comprising: a first side having a proximal end and a distal end, and comprising a first plurality of links joined by a first plurality of joints; a second side having a proximal end and a distal end, and comprising a second plurality of links joined by a second plurality of joints; a proximal end including an insertion link having an aperture dimensioned to receive an insertion tool, said insertion link joined to the proximal ends of the first side and the second side; a distal end including a coupling assembly for receiving a portion of the insertion tool; a first support face configured to contact a first vertebral body endplate; a second support face opposite said first support face, and configured to contact a second vertebral body endplate, wherein said intervertebral spacer has an insertion configuration in which the intervertebral spacer is elongated and the first side and the second side are linear and an axis of insertion is parallel to a longitudinal axis of the intervertebral spacer, and an expanded configuration in which the first side and the second side are displaced to define a graft aperture therebetween; and a positioner gear assembly housed in the distal end of the intervertebral spacer, and configured to maintain the intervertebral spacer in the expanded configuration. 2. The intervertebral spacer of claim 1 , wherein the positioner gear assembly is configured to permit incremental expansion of the intervertebral spacer. 3. The intervertebral spacer of claim 1 , wherein the positioner gear assembly comprises: a first positioner gear and a second positioner gear, each positioner gear comprising radially cut teeth on a face thereof, wherein the radially cut teeth of the first positioner gear are configured to matingly engage the radially cut teeth of the second positioner gear; and a biasing element configured to resist rotation of the first positioner gear relative to the second positioner gear. 4. The intervertebral spacer of claim 3 , wherein the first positioner gear is configured to rotate relative to the second positioner gear in response to actuation by the insertion tool, wherein the actuation overcomes a resistance of the biasing element. 5. The intervertebral spacer of claim 1 , further configured for insertion via a transforaminal surgical path. 6. The intervertebral spacer of claim 1 , wherein each of the first support face and the second support face comprise a plurality of anti-migration features disposed thereon. 7. The intervertebral spacer of claim 6 , wherein each anti-migration feature of the plurality of anti-migration features comprises: a penetrating face configured to penetrate the respective first or second vertebral body endplate; and a plurality of positional faces sloping outward from the penetrating face such that, upon penetration, the positional faces abut the respective first or second vertebral body endplate and resist migration of the intervertebral spacer relative to the respective first or second vertebral body endplate. 8. The intervertebral spacer of claim 7 , wherein the penetrating face comprises a square shape, the plurality of positional faces comprises four positional faces, and each positional face of the plurality of positional faces is rounded, such that the anti-migration feature has a rounded pyramidal profile. 9. The intervertebral spacer of claim 7 , further comprising a valley disposed between each anti-migration feature in the plurality of anti-migration features, wherein the valley is configured to limit subsidence of the intervertebral spacer into the respective first or second vertebral body endplate. 10. The intervertebral spacer of claim 1 , wherein the intervertebral spacer comprises a hexagonal perimeter. 11. The intervertebral spacer of claim 1 , wherein the aperture in the insertion link at the proximal end is configured to be coaxial with the coupling assembly at the distal end in the insertion configuration, the expanded configuration, and in transition therebetween. 12. The intervertebral spacer of claim 1 , wherein the distal coupling is configured to threadably receive the insertion tool therein. 13. The intervertebral spacer of claim 1 , wherein each link in the first plurality of links and the second plurality of links comprises a channel disposed on an interior surface thereof, configured to accommodate the insertion tool in the insertion configuration.