Expandable intervertebral fusion cage

What is claimed: 1. An expandable intervertebral fusion cage for insertion in an intervertebral space defined between a superior vertebral body and an inferior vertebral body, the fusion cage comprising: an upper endplate member defining an upper bone contacting surface configured to abut the superior vertebral body; a lower endplate member defining a lower bone contacting surface configured to abut the inferior vertebral body, wherein the upper and lower bone contacting surfaces are opposite each other along a transverse direction; a wedge member having at least one ramp surface; a drive member that extends along a curved central axis, whereby the wedge member is supported by the drive member; and an actuator that is configured to cause the drive member to drive the wedge member to translate in a corresponding expansion direction along the curved central axis without relative rotation between the wedge member and the drive member, which causes the ramp surface of the wedge member to urge at least one of the upper and lower endplate members away from the other of the upper and lower endplate members along the transverse direction. 2. The expandable intervertebral fusion cage of claim 1 , wherein the drive member is rigid. 3. The expandable intervertebral fusion cage of claim 1 , wherein the drive member is curved along a plane that is oriented perpendicular to the transverse direction. 4. The expandable intervertebral fusion cage of claim 1 , wherein the drive member further comprises a coupling, such that movement of the actuator in the expansion direction causes the drive member to urge the wedge member to travel in the expansion direction. 5. The expandable intervertebral fusion cage of claim 4 , wherein the coupling defines an oblique slot, and the actuator carries a post that is disposed in the slot, such that movement of the actuator in the expansion direction causes the post to ride along the slot, which causes the drive member to cause the wedge member to move in the expansion direction. 6. The expandable intervertebral fusion cage of claim 5 , further comprising a traveler carried by the actuator, wherein the traveler defines the post and travels along the actuator as the actuator moves in the expansion direction. 7. The expandable intervertebral fusion cage of claim 6 , wherein the actuator comprises a threaded shaft that is threadedly coupled to the traveler, such that rotation of the actuator causes the drive member to drive the wedge member to translate in the expansion direction. 8. The expandable intervertebral fusion cage of claim 4 , wherein the wedge member is a distal wedge member, and the at least one ramp surface is at least one distal wedge ramp surface, the expandable fusion cage further comprising: a proximal wedge member having at least one proximal wedge ramp surface, wherein movement of the distal wedge member in the expansion direction drives the at least one of the upper and lower endplate members against the proximal wedge member, such that the at least one proximal wedge ramp surface urges the at least one of the upper and lower endplate members away from the other of the upper and lower endplate members. 9. The expandable intervertebral fusion cage of claim 8 , wherein: the at least one distal wedge ramp surface comprises an upper distal wedge ramp surface and a lower distal wedge ramp surface, the at least one proximal wedge ramp surface comprises an upper proximal wedge ramp surface and a lower proximal wedge ramp surface, and movement of the distal wedge member in the expansion direction causes (i) the upper proximal and distal wedge members to urge the upper endplate member away from the lower endplate member, and (ii) the lower proximal and distal wedge members to urge the lower endplate member away from the upper endplate member. 10. The expandable intervertebral fusion cage of claim 9 , wherein the expansion direction of the distal wedge member is toward the proximal wedge member. 11. The expandable intervertebral fusion cage of claim 10 , wherein the distal wedge member drives the upper and lower endplate members toward the proximal wedge member and against the upper and lower proximal wedge ramp surfaces. 12. The expandable intervertebral fusion cage of claim 9 , wherein: the upper endplate member includes proximal and distal ramp surfaces; and the lower endplate member includes proximal and distal ramp surfaces, movement of the distal wedge member in the expansion direction causes (i) the upper and lower distal ramp surfaces of the distal wedge member to ride along the distal ramp surfaces of the upper and lower endplates, respectively, in surface contact with the distal ramp surfaces of the upper and lower endplates, respectively, and (ii) the upper and lower proximal ramp surfaces of the proximal wedge member to ride along the proximal ramp surfaces of the upper and lower endplates, respectively, in surface contact with the proximal ramp surfaces of the upper and lower endplates, respectively. 13. The expandable intervertebral fusion cage of claim 9 , wherein the upper endplate member includes proximal and distal ramp surfaces; and the lower endplate member includes proximal and distal ramp surfaces, movement of the distal wedge member in the expansion direction causes (i) the upper and lower distal ramp surfaces of the distal wedge member to ride along the distal ramp surfaces of the upper and lower endplates, respectively, and (ii) the upper and lower proximal ramp surfaces of the proximal wedge member to ride along the proximal ramp surfaces of the upper and lower endplates, respectively, and the proximal and distal ramp surfaces of the upper and lower endplates, the upper and lower distal ramp surfaces of the distal wedge member, and the upper and lower proximal ramp surfaces of the proximal wedge member all define respective helical surfaces. 14. The expandable intervertebral fusion cage of claim 1 , wherein the actuator comprises a threaded shaft that extends out with respect to the upper and lower endplates along an axis of rotation that intersects the curved central axis at an intersection point, and the axis of rotation and a line tangent to the curved central axis at the intersection point define a fixed angle that is in a range from approximately 25 degrees to approximately 60 degrees. 15. An expandable intervertebral fusion cage for insertion in an intervertebral space defined between a superior vertebral body and an inferior vertebral body, the fusion cage comprising: a cage body including: an upper endplate member defining an upper bone contacting surface configured to abut the superior vertebral body; a lower endplate member defining a lower bone contacting surface configured to abut the inferior vertebral body, wherein the upper and lower bone contacting surfaces are opposite each other along a transverse direction; and a wedge member having at least one ramp surface; a drive member disposed between the upper and lower endplate members, wherein the drive member extends along a curved central axis and supports the wedge member; and an actuator shaft that is in communication with the drive member, such that rotation of the actuator shaft about an axis of rotation in a first direction causes the drive member to move the wedge member in an expansion direction along a curved path defined by the curved central axis, wherein the axis of rotation intersects the curved central axis at an intersection point, and the axis of rotation and a line tangent to the curved central axis at the intersection point define a fixed angle that is in a range from