Unitarily formed expandable spinal implant and method of manufacturing and implanting same

What is claimed is: 1. A unitarily formed expandable spinal implant for insertion into a disc space between two adjacent vertebrae, the implant comprising: a proximal end, an opposite distal end, a mid-longitudinal axis extending through the proximal end and the distal end, and a length along the mid-longitudinal axis between the proximal end and the distal end; an upper portion having a proximal end, an opposite distal end, an upper portion exterior surface, and an upper portion interior surface, the upper portion exterior surface and the upper portion interior surface extending from at least adjacent the upper portion proximal end to at least adjacent the upper portion distal end, the upper portion exterior surface being configured to contact one of the two adjacent vertebrae, the upper portion interior surface at least in part declining between the upper portion proximal end and the upper portion distal end, and at least one opening being provided in the upper portion between the upper portion interior surface and the upper portion exterior surface thereof; a lower portion having a proximal end, an opposite distal end, a lower portion exterior surface, and a lower portion interior surface, the lower portion exterior surface and the lower portion interior surface extending from at least adjacent the lower portion proximal end to at least adjacent the lower portion distal end, the lower portion exterior surface configured to contact the other of the two adjacent vertebrae, the lower portion interior surface at least in part inclining between the lower portion proximal end and the lower portion distal end, and at least one opening being provided in the lower portion between the lower portion interior surface and the lower portion exterior surface thereof; a proximal wall having an exterior surface and an interior surface, the proximal wall extending between the upper portion and the lower portion, the proximal wall having a maximum height, and an aperture provided in the proximal wall between the interior surface and the exterior surface thereof, the aperture provided in the proximal wall communicating with a chamber defined between portions of the upper portion interior surface the lower portion interior surface, and the interior surface of the proximal wall; a first distal wall portion and a second distal wall portion, the first distal wall portion being attached to the upper portion at the distal end thereof, the second distal wall portion being attached to the lower portion at the distal end thereof, the first distal wall portion and the second distal wall portion having a first height less than the maximum height of the proximal wall; and a separator including a leading portion, the separator being unitarily formed with one of the upper portion interior surface, the lower portion interior surface, and the interior surface of the proximal wall; wherein the separator is configured to be separated from the one of the upper portion interior surface, the lower portion interior surface, and the interior surface of the proximal wall, and be moved along at least a portion of the lower portion interior surface and at least a portion of the upper portion interior surface toward the first distal wall portion and the second distal wall portion to move the upper portion and the lower portion apart from one another into an expanded configuration, the first distal wall portion and the second distal wall portion having a second height in the expanded configuration greater than the maximum height of the proximal wall. 2. The expandable spinal implant of claim 1 , wherein the separator is separably attached to the one of the upper portion interior surface, the lower portion interior surface, and the interior surface of the proximal wall by at least one point of attachment. 3. The expandable spinal implant of claim 2 , further comprising an insertion tool configured to be inserted through the aperture in the proximal wall, and into contact with the separator to break the separator free from the at least one point of attachment, and move the separator toward the first distal wall portion and the second distal wall portion. 4. The expandable spinal implant of claim 3 , wherein the separator includes an aperture, and the insertion tool includes a distal end configured to fit into the aperture of the separator. 5. The expandable spinal implant of claim 1 , wherein the upper portion interior surface includes a concave portion adjacent the first distal wall portion, and the lower portion interior surface includes a concave portion proximate the second distal wall portion. 6. The expandable spinal implant of claim 5 , wherein the concave portions of the upper portion interior surface and the lower portion interior surface are configured to receive therein portions of the separator, the concave portions inhibiting further movement of the separator along the lower portion interior surface and the upper portion interior surface. 7. The expandable spinal implant of claim 1 , wherein the spinal implant is formed at least in part by titanium powder. 8. The expandable spinal implant of claim 1 , wherein at least a portion of the chamber between the upper portion and the lower portion is configured to receive bone growth material therein. 9. The expandable spinal implant of claim 1 , wherein the at least one opening in the upper portion and the at least one opening in the lower portion are configured for bone growth therethrough between the two adjacent vertebrae. 10. A unitarily formed expandable spinal implant for insertion into a disc space between two adjacent vertebrae, the implant comprising: a proximal end, an opposite distal end, a mid-longitudinal axis extending through the proximal end and the distal end, and a length along the mid-longitudinal axis between the proximal end and the distal end; an upper portion having a proximal end, an opposite distal end, an upper portion exterior surface, and an upper portion interior surface, the upper portion exterior surface and the upper portion interior surface extending from at least adjacent the upper portion proximal end to at least adjacent the upper portion distal end, the upper portion exterior surface being configured to contact one of the two adjacent vertebrae, the upper portion interior surface at least in part declining between the upper portion proximal end and the upper portion distal end, and at least one opening being provided in the upper portion between the upper portion interior surface and the upper portion exterior surface thereof; a lower portion having a proximal end, an opposite distal end, a lower portion exterior surface, and a lower portion interior surface, the lower portion exterior surface and the lower portion interior surface extending from at least adjacent the lower portion proximal end to at least adjacent the lower portion distal end, the lower portion exterior surface configured to contact the other of the two adjacent vertebrae, the lower portion interior surface at least in part inclining between the lower portion proximal end and the lower portion distal end, and at least one opening being provided in the lower portion between the lower portion interior surface and the lower portion exterior surface thereof; a proximal wall having an exterior surface and an interior surface, the proximal wall extending between the upper portion and the lower portion, the proximal wall having a maximum height, and an aperture provided in the proximal wall between the interior surface and the exterior surface thereof, the aperture provided in the proximal wall communicating with a chamber defined between portions of the upper portion interior surface, the lower portion interior surface,