Articulating expandable intervertebral implant

What is claimed is: 1. A spacer for separating bones of a joint, the spacer comprising: a frame having a longitudinal axis, and having at least one ramped surface; a first endplate configured to engage a first bone of the joint, and having at least one ramped surface mateable with the at least one ramped surface of the frame, whereby when the first endplate is moved relative to the frame in a direction along the frame longitudinal axis, the first endplate is moved in a direction away from the frame to increase a height of the spacer; a second endplate configured to engage a second bone of the joint; a link moveable with respect to the frame, the link having a projection engageable with the first endplate to thereby move the first endplate along the frame longitudinal axis when the link is moved with respect to the frame; an actuating screw moveable with respect to the frame and pivotally connected to the link to cause movement of the link when the actuating screw is moved with respect to the frame; and a nut threadably engaged with the actuating screw, the nut rotatable with respect to the frame to move the actuating screw with respect to the frame. 2. The spacer of claim 1 , wherein the nut is translatable along a predetermined path with respect to the frame. 3. The spacer of claim 1 , further including an actuating support slideably connected to the frame to move along a predetermined path with respect to the frame, the actuating support rotatably supporting the nut. 4. The spacer of claim 3 , wherein the actuating support is slideably connected to the frame by a flanged connection. 5. The spacer of claim 3 , further including a dovetailed connection formed between the frame and the actuating support. 6. The spacer of claim 3 , wherein the actuating support includes a tool engagement connector configured to slidingly engage a tool end. 7. The spacer of claim 3 , wherein the link defines an elongated slot, and the actuating screw is pivotally connected to the link by a pin connected to the actuating screw and projecting into the elongated slot, and wherein as the actuating support moves along the predetermined path, the pin translates within the elongated slot, and the height of the spacer is not thereby substantially changed. 8. The spacer of claim 1 , the second endplate having at least one ramped surface mateable with the at least one ramped surface of the frame, whereby when the second endplate is moved relative to the frame in the direction along the frame longitudinal axis, the second endplate is moved in the direction away from the frame to increase the height of the spacer. 9. The spacer of claim 1 , wherein the actuating screw defines a longitudinal axis, the actuating screw pivotable in connection with the link to form an angle between the actuating screw longitudinal axis and the longitudinal axis of the frame. 10. The spacer of claim 1 , wherein the link defines an elongated slot, and the actuating screw is pivotally connected to the link by a pin connected to the actuating screw and projecting into the elongated slot. 11. The spacer of claim 1 , wherein the first endplate is curved along a substantial portion of its length. 12. The spacer of claim 1 , wherein the nut is rotatable at a plurality of angular orientations between the actuating screw and the frame. 13. The spacer of claim 1 , wherein the first endplate and the frame form a sliding flanged connection therebetween. 14. The spacer of claim 1 , wherein the frame includes at least one second ramped surface, and the first endplate includes at least a second ramped surface mateable with the second ramped surface of the frame, whereby when the endplate is slideably moved by rotation of the actuating screw and movement of the link, the first endplate at least one second ramped surface slides against the frame at least one second ramped surface to cause the first endplate to move along an axis transverse to the longitudinal axis to increase a height of the spacer. 15. The spacer of claim 1 , wherein the first endplate includes one or more projections configured to engage bone of the joint when the spacer is positioned between bones of the joint. 16. The spacer of claim 1 , wherein the nut includes a circumferential groove, and the actuating support includes a circumferential groove, the spacer further including a ring configured to be positioned partially within both the nut groove and the actuating support groove, to rotatably retain the nut in connection with the actuating support. 17. A method of separating bones of a joint, comprising: inserting a spacer between bones of the joint, the spacer including a frame having a longitudinal axis, and having at least one ramped surface; a first endplate configured to engage a first bone of the joint, and having at least one ramped surface mateable with the at least one ramped surface of the frame, whereby when the first endplate is moved relative to the frame in a direction along the frame longitudinal axis, the first endplate is moved in a direction away from the frame to increase a height of the spacer; a second endplate configured to engage a second bone of the joint; a link moveable with respect to the frame, the link having a projection engageable with the first endplate to thereby move the first endplate along the frame longitudinal axis when the link is moved with respect to the frame; an actuating screw moveable with respect to the frame and pivotally connected to the link to cause movement of the link when the actuating screw is moved with respect to the frame; and a nut threadably engaged with the actuating screw, the nut rotatable with respect to the frame to move the actuating screw with respect to the frame. 18. A spacer for separating bones of a joint, the spacer comprising: a frame having a longitudinal axis, and having at least one ramped surface; a first endplate configured to engage a first bone of the joint, and having at least one ramped surface mateable with the at least one ramped surface of the frame, whereby when the first endplate is moved relative to the frame in a direction along the frame longitudinal axis, the first endplate is moved in a direction away from the frame to increase a height of the spacer; a second endplate configured to engage a second bone of the joint; a link moveable with respect to the frame, the link having a projection engageable with the first endplate to thereby move the first endplate along the frame longitudinal axis when the link is moved with respect to the frame; an actuating screw moveable with respect to the frame and pivotally connected to the link to cause movement of the link when the actuating screw is moved with respect to the frame; an actuating support slideably connected to the frame to be moveable along a predetermined path; and a nut rotatably connected to the actuating support, the nut threadably mated to the actuating screw, whereby the nut is rotatable to move the actuating screw and link to change the height of the spacer. 19. The spacer of claim 18 , wherein the link defines an elongated slot, and the actuating screw is pivotally connected to the link by a pin connected to the actuating screw and projecting into the elongated slot, and wherein as the actuating support moves along the predetermined path, the pin translates within the elongated slot, and the height of the spacer is not thereby substantially changed.