Structurally supporting insert for spinal fusion cage

The invention claimed is: 1. A spinal fusion cage, comprising: a body having a first surface for abutting a first vertebral body, an opposing second surface for abutting a second vertebral body, and a proximal surface extending transverse to the first and second surfaces, the proximal surface including an attachment port for receiving a threaded portion of an insertion instrument; and a structural insert made from a different material than the body, the structural insert being positioned within the body and spaced distally from the proximal surface, such that at least a portion of the body is defined between the structural insert and the proximal surface, the structural insert having a predefined threaded connection configured to detachably and rigidly couple to the threaded portion of the insertion instrument when the threaded portion is received within the attachment port, such that, when the structural insert is coupled to the insertion instrument, the orientation of the body of the implant is rigidly fixed with respect to the insertion instrument and a distal end of the insertion instrument does not exit the implant through the first surface or the second surface. 2. The spinal fusion cage of claim 1 , wherein the body is constructed of a polymer and the structural insert is constructed of a metal. 3. The spinal fusion cage of claim 2 , wherein the body is PEEK and the structural insert is one of titanium alloy, stainless steel alloy, and cobalt chromium alloy. 4. The spinal fusion cage of claim 1 , wherein the body is configured to expand by displacing the first surface away from the second surface. 5. The spinal fusion cage of claim 4 , wherein the body is configured to expand hydraulically. 6. The spinal fusion cage of claim 5 , wherein the proximal surface includes a fluid port configured for introducing a fluid for expanding the body. 7. The spinal fusion cage of claim 1 , wherein the proximal surface includes a bone graft port. 8. The spinal fusion cage of claim 7 , further comprising a bone graft opening extending through the first and second surfaces of the body, wherein the bone graft port is in fluid communication with the bone graft opening. 9. The spinal fusion cage of claim 1 , further comprising a torque resistant port formed in the body and configured to couple to a tab on an insertion instrument to prevent the body from rotating relative to the insertion instrument. 10. The spinal fusion cage of claim 9 , wherein the torque resistant port is formed in the proximal surface of the body. 11. The spinal fusion cage of claim 1 , wherein the attachment port has a smooth surface and is concentric with the threaded connection of the structural insert. 12. The spinal fusion cage of claim 1 , wherein the body has an opening into which the structural insert is retained. 13. The spinal fusion cage of claim 12 , wherein the opening for retaining the structural insert is in the second surface of the body. 14. The spinal fusion cage of claim 1 , wherein the second surface is defined on a bottom member of the body, and wherein the bottom member forms a base of the structural insert. 15. The spinal fusion cage of claim 14 , wherein the bottom member includes at least one supporting tab extending into the body. 16. The spinal fusion cage of claim 1 , wherein the structural insert is configured to couple to the threaded portion of the insertion instrument such that the threaded portion extends perpendicular to the proximal surface of the body. 17. The spinal fusion cage of claim 1 , wherein the body extends longitudinally along an axis, and wherein the structural insert is configured to couple to the threaded portion of the insertion instrument such that the threaded portion extends parallel to the axis.