Devices and methods for correcting vertebral misalignment

We claim: 1. A vertebral implant, comprising: a reducing plate comprising: a head portion including a first counterbore, a second counterbore, a third counterbore, and a fourth counterbore; a plurality of planar longitudinal members extending away from the head portion, wherein the plurality of planar longitudinal members are spaced from one another to define a channel therebetween, wherein the plurality of planar longitudinal members comprise a first extension plate and a second extension plate; a first screw inserted into the first counterbore, the first counterbore angled in a first direction such that the first screw when inserted into the first counterbore extends in a first direction; a second screw inserted into the second counterbore, the second counterbore angled in the first direction such that the second screw when inserted into the second counterbore extends in the first direction; an actuator independent from the first screw and the second screw that is inserted into the third counterbore; and a frame member comprising a central longitudinal member defining a lumen extending therethrough, wherein the frame member receives a third screw and a fourth screw, wherein the third screw and the fourth screw are both angled in a downward direction relative to a vertical height of the implant, wherein the central longitudinal member comprises a first through hole extending from a superior external surface of the central longitudinal member to an inferior external surface of the central longitudinal member and in communication with the lumen, wherein movement of the actuator causes translation of the reducing plate relative to the central longitudinal member of the frame member such that the first extension plate slides above an upper surface of the central longitudinal member and the second extension plate slides below a lower surface of the central longitudinal member, wherein the central longitudinal member is received in the channel. 2. The vertebral implant of claim 1 , wherein the first, second, and third counterbores are in communication with respective through holes. 3. The vertebral implant of claim 1 , wherein the fourth counterbore is in communication with a blind hole. 4. The vertebral implant of claim 1 , wherein the first and second counterbores guide the fasteners in a diverging relationship away from one another. 5. The vertebral implant of claim 4 , wherein the fourth counterbore is configured to receive a fastener restricting mechanism therein. 6. The vertebral implant of claim 5 , wherein the fastener restricting mechanism retains the first and second screws within the implant and restricts movement of the actuator. 7. The vertebral implant of claim 6 , wherein the fastener restricting mechanism includes a screw having a head including a plurality of cutouts disposed in an external wall. 8. The vertebral implant of claim 1 , wherein at least three of the first, second, third, and fourth counterbores are in communication with each other. 9. The vertebral implant of claim 1 , wherein the actuator is a threaded actuator that is rotatable. 10. The vertebral implant of claim 9 , wherein the head portion includes an opening in communication with the one of the first, second, third, and fourth counterbores configured to receive the threaded actuator. 11. The vertebral implant of claim 10 , wherein the opening is configured to receive a blocking plate. 12. The vertebral implant of claim 11 , wherein the blocking plate includes a geometric feature configured to engage and restrict movement of the threaded actuator. 13. The vertebral implant of claim 1 , wherein rotation of the actuator causes the head portion to translate. 14. The vertebral implant of claim 1 , wherein the reducing plate includes a first material that is radiopaque and the frame member includes a second material that is radiolucent. 15. The vertebral implant of claim 14 , wherein the first material is titanium and the second material is a thermoplastic polymer. 16. The vertebral implant device of claim 1 , wherein the frame member further comprises a left lateral section and a right lateral section that extend from the central longitudinal member. 17. The vertebral implant device of claim 16 , further comprising a first endplate and a second endplate, wherein the left lateral section receives a first endplate thereover and the right lateral section receives a second endplate thereover. 18. The vertebral implant of claim 1 , wherein the actuator is received in the lumen of the central longitudinal member, and rotation of the actuator causes movement of the reducing plate relative to the frame member. 19. An intervertebral implant comprising: a frame assembly having a left lateral portion, a central portion, and a right lateral portion, the left lateral portion and the right lateral portion having an anterior surface for receiving a first and second fastener for securing the frame assembly to a first vertebral body, wherein the frame assembly further comprises a central longitudinal member defining a lumen extending therethrough, wherein the first fastener and the second fastener are both angled in a downward direction relative to a vertical height of the implant, wherein the central longitudinal member comprises a first through hole extending from a superior external surface of the central longitudinal member to an inferior external surface of the central longitudinal member and in communication with the lumen; a reducing member configured to be slidably received over the central portion, the reducing member having an anterior surface for receiving a third and fourth fastener for securing the reducing member to a second vertebral body, wherein the reducing member further comprises a first extension plate and a second extension plate, wherein a channel is formed between the first extension plate and the second extension plate for receiving the central longitudinal member; the third fastener received in the reducing member; the fourth fastener received in the reducing member; and an actuation member independent from the third fastener and the fourth fastener and received in the reducing member and the lumen of the central longitudinal member, wherein movement of the actuator causes translation of the reducing member relative to the central longitudinal member of the frame assembly from a first position to a second position. 20. An intervertebral implant comprising: a frame assembly having a left lateral portion, a central portion comprising a central longitudinal member defining a lumen extending therethrough, and a right lateral portion, the left lateral portion and the right lateral portion having an anterior surface for receiving a first and second fastener for securing the frame assembly to a first vertebral body, wherein the first fastener and the second fastener are both angled in a downward direction relative to a vertical height of the implant, wherein the central longitudinal member comprises a first through hole extending from a superior external surface of the central longitudinal member to an inferior external surface of the central longitudinal member and in communication with the lumen; a reducing member configured to be slidably received over the central portion, the reducing member having an anterior surface for receiving a third and fourth fastener for securing the reducing member to a second vertebral body, wherein the reducing member further comprises a first extension plate and a second extension plate, wherein a chann